CN107889251A - A kind of determination method, the network equipment and the terminal of time-domain resource unit set structure - Google Patents
A kind of determination method, the network equipment and the terminal of time-domain resource unit set structure Download PDFInfo
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- CN107889251A CN107889251A CN201610879294.9A CN201610879294A CN107889251A CN 107889251 A CN107889251 A CN 107889251A CN 201610879294 A CN201610879294 A CN 201610879294A CN 107889251 A CN107889251 A CN 107889251A
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/20—Control channels or signalling for resource management
- H04W72/23—Control channels or signalling for resource management in the downlink direction of a wireless link, i.e. towards a terminal
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L5/00—Arrangements affording multiple use of the transmission path
- H04L5/0001—Arrangements for dividing the transmission path
- H04L5/0003—Two-dimensional division
- H04L5/0005—Time-frequency
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Abstract
The present embodiments relate to wireless communication technology field, more particularly to a kind of determination method, the network equipment and the terminal of time-domain resource unit set structure, for improving the flexibility of downstream transmission resource allocation.The network equipment generates the first configured information in the embodiment of the present invention, and first configured information is sent to terminal by the common control information in the time-domain resource unit set or the specific control information of terminal;First configured information is used to indicating the quantity of the continuous symbol shared by the quantity of the continuous symbol in time-domain resource unit in time-domain resource unit set shared by descending control area, the quantity of continuous symbol shared by upload control region and data transmission region, and the data transfer direction of each time-domain resource unit, so as to realize the purpose for the structure for dynamically indicating time-domain resource unit, the flexibility of downstream transmission resource allocation is improved.
Description
Technical field
The present embodiments relate to wireless communication technology field, more particularly to a kind of time-domain resource unit set structure is really
Determine method, the network equipment and terminal.
Background technology
With the development of radio network technique, various new business emerge in an endless stream, different business to the demand of resource not yet
Together, this requires more efficiently use limited resource in future wireless network.For example game on line etc. is real-time
Requirement of the interactive application scenarios to interaction time delay is very high, can by ascending-descending subframes be switched fast reduce interaction when
Prolong;For another example, Online Video program request (Vedio on Demand, abbreviation VOD) etc. is exigent to downlink transmission data rate
Application scenarios need the more descending sub frame resources of radio network configuration;For another example, local resource is shared etc. to up data
The high application of transmission rate request, more sub-frame of uplink resources should be distributed.
In order to more efficiently use limited resource, dynamic Time Division duplex in future wireless network
(Dynamic Time Division Duplex, abbreviation D-TDD) technology increasingly attracts attention.D-TDD refers to the network equipment can
So that ascending-descending subframes configuration is adjusted flexibly, it can so make the network equipment dynamic to the demand of up-downgoing resource according to different business
The configuration of TDD data bursts is adjusted, so as to reach the purpose of the optimization utilization of resources.
The standardization effort to D-TDD is tentatively completed in the stages of Release 12 in 3GPP, D-TDD is in a standard
Alternatively referred to as enhanced interference management and service adaptation (Enhanced Interference Management and
Traffic Adaptation, abbreviation eIMTA).But the species and mode of current D-TDD sub-frame configuration are limited, and it is
Configured using frame as rank, configuration every time at least configures the structure of a frame, and each frame includes 10 subframes, 10 sons
Each subframe, which is used to transmit upstream data still to transmit downlink data, in frame is defined in advance in standard.Fig. 1 is exemplary to be shown
7 kinds of tdd frame configuration mode schematic diagrames that eIMTA in current 3GPP is used are gone out, with reference to the configuration mode 0 in Fig. 1
(config.0) it is introduced, as shown in configuration mode 0 in Fig. 1, the network equipment once indicates the structure of a frame to terminal, should
Subframe 0 and subframe 5 are used to transmit downlink data in frame structure, and subframe 2, subframe 3, subframe 4, subframe 7, subframe 8 and subframe 9 are used for
Transmit downlink data, subframe 1 and subframe 6 are special subframes, including descender, protection interval and ascender, wherein protecting
Interval is used for providing necessary guard time for descending/up switching.
It can be seen from figure 1 that in the prior art, carry out the configuration of ascending-descending subframes using the rank of frame as terminal, granularity compared with
Greatly, and the proportionings of ascending-descending subframes pre-defines, so optional frame configuration mode is limited, only 7 kinds, it is seen then that
The configuration mode of ascending-descending subframes is not enough to support diversified business scenario at present, and flexibility has significant limitation.
The content of the invention
The embodiment of the present invention provides a kind of determination method, the network equipment and the terminal of time-domain resource unit set structure, uses
In the flexibility for improving downstream transmission resource allocation.
In a first aspect, the embodiment of the present invention provides a kind of determination method of time-domain resource unit set structure, the time domain
Sets of resource units includes N number of time-domain resource unit;N is the integer more than or equal to 1;Methods described includes:The network equipment is given birth to
Into the first configured information;Wherein, first configured information is used to indicate each time domain in the time-domain resource unit set
Continuous symbol shared by the quantity of continuous symbol in resource unit shared by descending control area, upload control region
Quantity and data transmission region shared by continuous symbol quantity, and the transmission side data of each time-domain resource unit
To;The network equipment is by the common control information in the time-domain resource unit set or the specific control information of terminal to end
End sends first configured information;Wherein, the common control information and the specific control information of the terminal are carried on described
On continuous symbol shared by the descending control area of first time-domain resource unit of time-domain resource unit set.
Because terminal can determine the structure of each time-domain resource unit, and then according to the knot of each time-domain resource unit
Structure determines the structure of a time-domain resource unit set, and because the network equipment passes through the time-domain resource unit set
In the specific control information of common control information or terminal send first configured information, and the common control channel to terminal
Breath and the specific control information of the terminal are carried on shared by the descending control area of the time-domain resource unit set
On continuous symbol, therefore the network equipment can be indicated flexibly often in a manner of indicating a time-domain resource unit set every time
The structure of each time-domain resource unit in individual time-domain resource unit set, so as to improve flexibility, more adapts to changeable industry
Business environment.
Alternatively, the time-domain resource unit set includes polymerizeing time-domain resource unit, the polymerization time-domain resource unit
Time-domain resource unit is continuous and data transfer direction is identical with described first.Alternatively, first configured information is additionally operable to
Indicate the quantity M of time-domain resource unit in the polymerization time-domain resource unit;The M is more than or equal to 0 and is less than or equal to N-1
Integer;Optionally, time-domain resource unit where the network equipment first sends the first configured information in chronological order to terminal
Data transfer direction, the transmission direction without sending the time-domain resource unit polymerizeing in time-domain resource unit.So, when terminal is true
When making the data transfer direction of the time-domain resource unit where the first configured information, that is, determine to polymerize in time-domain resource unit
The data transfer direction of M time-domain resource unit, so as to polymerize the data transfer of the time-domain resource unit in time-domain resource unit
Direction can save the signaling consumption of configured information without instruction.
The network equipment by first method to the terminal indicate it is described polymerization time-domain resource unit in it is each when
Continuous symbol shared by the quantity of continuous symbol in the resource unit of domain shared by descending control area, upload control region
Number quantity and data transmission region shared by continuous symbol quantity, wherein, descending control in each time-domain resource unit
The quantity and data transfer of continuous symbol shared by the quantity of continuous symbol shared by region processed, upload control region
The quantity of continuous symbol shared by region is identical;Wherein, the first method is:Indicate the polymerization time-domain resource list
Shared by the quantity of continuous symbol in member in a time-domain resource unit shared by descending control area, upload control region
Continuous symbol quantity and data transmission region shared by continuous symbol quantity.That is, the network equipment to
Terminal can first send the symbol of the regional included by the time-domain resource unit where the first configured information in chronological order
Quantity, the number of the symbol of the regional in then instruction polymerization time-domain resource unit included by a time-domain resource unit
Amount, so, terminal can determine the quantity of the symbol of the regional included by each time-domain resource unit.
Alternatively, the network equipment generates the second configured information;Wherein, second configured information is described for indicating
The quantity of continuous symbol in time-domain resource unit set shared by protection interval GP regions;The network equipment passes through described
Common control information or the specific control information of the terminal send second configured information to the terminal.In this way, make network
Equipment flexibly determines the quantity in the GP regions in each time-domain resource unit set, and the symbol shared by each GP regions
Quantity, improve the flexibility that GP regions in time-domain resource unit set are set.
Alternatively, the network equipment generates the 3rd configured information;Wherein, the 3rd configured information is described for indicating
Time span corresponding to a symbol in time-domain resource unit set;The network equipment passes through the common control information or institute
State the specific control information of terminal and send the 3rd configured information to the terminal.It can be seen that the side that the embodiment of the present invention is provided
Case can also flexibly determine the length of time shared by each symbol, when further increasing each in time-domain resource unit set
The flexibility of the structure of domain resource unit.
Alternatively, the network equipment generates the 4th configured information;Wherein, the 4th configured information is described for indicating
The quantity for total symbol that each time-domain resource unit includes in N number of time-domain resource unit;The network equipment passes through the public affairs
Control information or the specific control information of the terminal send the 4th configured information to the terminal altogether.In this way, the network equipment
Total quantity of the symbol in each time-domain resource unit set shared by each time-domain resource unit can be flexibly determined, is improved
The flexibility of time-domain resource cellular construction.
Alternatively, the transmission side data of at least one time-domain resource unit in N number of time-domain resource unit be present
The network equipment described in Xiang Weicong to the terminal downlink transmission direction when, in addition to:The instruction of network equipment generation the 5th
Information;Wherein, the 5th configured information be used for indicate the data transfer direction be descending time-domain resource unit in when
Between continuous symbol shared by offset area quantity;The network equipment passes through the common control information or the terminal
Specific control information sends the 5th configured information to the terminal.Alternatively, the time migration region is used to be handed over
Pitch interferometry.In this way, the network equipment in the embodiment of the present invention can be made to be applicable dynamic sensing (sensing) scene, and at this
The related measurement signal of scape progress sends and receives process.
Alternatively, the time-domain resource unit set includes first group of time-domain resource unit, first group of time-domain resource list
Member include first time-domain resource unit and first polymerization time-domain resource unit, first polymerization time-domain resource unit with it is described
First time-domain resource unit is continuous and data transfer direction is identical;First group of time-domain resource unit and the time-domain resource
K time-domain resource unit is spaced between another group of time-domain resource unit in unit set, wherein the K time-domain resource unit
In other time-domain resource unit sets;K is more than or equal to 0;Another group of time-domain resource unit provides including at least one time domain
Source unit.That is, multigroup time-domain resource unit across time-domain resource unit can be included in the time-domain resource unit.
Alternatively, first configured information is additionally operable to indicate the time domain that the first polymerization time-domain resource unit includes
The quantity M of resource unit1With the quantity K of the time-domain resource unit at interval;Wherein, the M1For the integer more than or equal to 0.From
And, it is possible to achieve indicated across the structure of time-domain resource unit, so as to further save the signaling of upstream request and descending instruction
Signaling, it is also possible that the structure of time-domain resource unit set is more flexible.Alternatively, another group of time-domain resource unit includes
Second polymerization time-domain resource unit, first configured information be additionally operable to instruction second polymerization time-domain resource unit include when
The quantity M of domain resource unit2, M2For the integer more than or equal to 0.In this way, terminal can be made to determine to use resource unit in advance
The structure of each time-domain resource unit in set, send and receive data for terminal and provide convenience.
Alternatively, the network equipment indicates the first polymerization time-domain resource list by second method to the terminal
Shared by the quantity of continuous symbol in member in each time-domain resource unit shared by descending control area, upload control region
Continuous symbol quantity and data transmission region shared by continuous symbol quantity, wherein, each time-domain resource list
The quantity of continuous symbol shared by the quantity of continuous symbol in member shared by descending control area, upload control region
It is identical with the quantity of the continuous symbol shared by data transmission region;Wherein, the second method is:Indicate described first
It polymerize the quantity, up of the continuous symbol in time-domain resource unit in a time-domain resource unit shared by descending control area
The quantity of continuous symbol shared by the quantity of continuous symbol shared by control area and data transmission region.Namely
Say, due to M1The structure of individual time-domain resource unit is identical, therefore the network equipment is merely indicative the M1One in individual time-domain resource unit
The structure of individual time-domain resource unit, the network equipment only just can indicate that the first polymerization time domain by a pointer to structure section
Each time-domain resource cellular construction in resource unit, reduce the signaling consumption of configured information.
Alternatively, the network equipment indicates the first polymerization time-domain resource list by the 6th mode to the terminal
The number of the data transfer direction of each time-domain resource unit and the time-domain resource unit where first configured information in member
According to transmission direction;Wherein, the 6th mode is:Indicate the data of the time-domain resource unit where first configured information
Transmission direction.That is, the network equipment first send the first configured information in chronological order to terminal where time-domain resource list
The data transfer direction of member, when the data transfer direction of the time-domain resource unit where terminal determines the first configured information,
Determine M in the first polymerization time-domain resource unit1The data transfer direction of individual time-domain resource unit, so as to save instruction letter
The signaling consumption of breath.
Alternatively, the network equipment indicates the second polymerization time-domain resource list by Third Way to the terminal
The data transfer direction of each time-domain resource unit in member;Wherein, the Third Way is:Indicate the second polymerization time domain
The transmission direction of a time-domain resource unit in resource unit.Alternatively, the network equipment by fourth way to the end
End indicates the data transfer direction and each time domain money of each time-domain resource unit in the second polymerization time-domain resource unit
Continuous symbol shared by the quantity of continuous symbol in source unit shared by descending control area, upload control region
The quantity of continuous symbol shared by quantity and data transmission region;Wherein, the fourth way is:Indicate described second
It polymerize the data transfer direction of a time-domain resource unit in time-domain resource unit, and it is continuous shared by descending control area
The quantity of symbol, the quantity of continuous symbol shared by upload control region and continuous shared by data transmission region
The quantity of symbol.That is, due to M2The data transfer direction and structure of individual time-domain resource unit are identical, therefore the network equipment
It is merely indicative the M2The data transfer direction and structure of a time-domain resource unit in individual time-domain resource unit, network are set
It is standby that the second polymerization time-domain resource just only can indicate that by a data transfer direction indication field and a pointer to structure section
Each time-domain resource cell data transmission direction and structure in unit, reduce the signaling consumption of configured information.
Alternatively, the common control information is carried on any one in lower channel:DCCH;Pass through static state
Or semi-static mode carries out resource distribution control channel;Physical Downlink Control Channel.It can be seen that there is a variety of hold in the embodiment of the present invention
Load mode carries common control information, so as to improve the flexibility of common control information bearing mode.
Alternatively, the data transfer direction is the uplink direction transmitted from the terminal to the network equipment
When, sequence of the transmission direction between regional in the time-domain resource unit in uplink direction meets following condition:Along when
Domain direction, it is followed successively by the descending control area, the GP regions, the data transfer direction are the up data transfer
Region, the upload control region.
Alternatively, the data transfer direction is from the network equipment to the downlink transmission direction of the terminal transmission
When, sequence of the transmission direction between regional in the time-domain resource unit of downlink transmission direction meets following condition:Along when
Domain direction, it is followed successively by the descending control area, the data transfer direction is the descending data transmission region, the GP
Region and the upload control region.Alternatively, the data transfer direction is from the network equipment to the terminal transmission
Downlink transmission direction when, transmission direction meets for the sequence in the time-domain resource unit of downlink transmission direction between regional
Following condition:Along time domain direction, the descending control area is followed successively by, under time migration region, the data transfer direction are
The capable data transmission region, the GP regions and the upload control region.Due to the symbol shared by each region
Quantity is the integer more than or equal to zero, therefore improves the flexibility of the structure of each time-domain resource unit, and the time is inclined
The time-domain resource unit that moving region can be provided the embodiment of the present invention is more applicable for dynamic sensing scene, expands applicable model
Enclose.
Alternatively, first configured information is used to indicate:The time-domain resource that the time-domain resource unit set includes
The quantity N of unit;The structure type index value of the time-domain resource unit set;And the descending control of each time-domain resource unit
The quantity and data transfer of continuous symbol shared by the quantity of continuous symbol shared by region processed, upload control region
The quantity of continuous symbol shared by region.Wherein, time-domain resource unit includes the 3rd group of time-domain resource unit and/or the 4th
Group time-domain resource unit.In the embodiment of the present invention, the 3rd group of time-domain resource unit includes at least two time-domain resource units, and the 3rd
The transmission direction for each time-domain resource unit that group time-domain resource unit includes, and it is continuous shared by descending control area
The quantity of symbol, the quantity of continuous symbol shared by upload control region and continuous shared by data transmission region
The quantity of symbol is identical.4th group of time-domain resource unit is to remove the 3rd group of time-domain resource in the time-domain resource unit set
Time-domain resource unit outside unit.Alternatively, the 3rd group of time-domain resource unit includes continuous time-domain resource unit.This kind of side
Case reduces the signaling consumption of configured information.
It is the quantity of the continuous symbol shared by the descending control area of each time-domain resource unit, up in the program
The quantity of continuous symbol shared by the quantity of continuous symbol shared by control area and data transmission region can pass through
In the following manner is indicated:
, can be by only indicating that the 3rd group of time domain provides for each time-domain resource unit in the 3rd group of time-domain resource unit
The quantity of continuous symbol in source unit shared by the descending control area of a time-domain resource unit, upload control region institute
The mode of the quantity of continuous symbol shared by the quantity of the continuous symbol taken and data transmission region indicates the 3rd
The quantity of continuous symbol in group time-domain resource unit shared by the descending control area of each time-domain resource unit, up control
The quantity of continuous symbol shared by the quantity of continuous symbol shared by region processed and data transmission region, so as to reduce
Indicate the signaling consumption of the configured information of the 3rd group of time-domain resource unit;
For each time-domain resource unit in the 4th group of time-domain resource unit, indicate every in the 4th group of time-domain resource unit
It is continuous shared by the quantity of continuous symbol shared by the descending control area of individual time-domain resource unit, upload control region
Symbol quantity and data transmission region shared by continuous symbol quantity.
The structure type of time-domain resource unit set includes time-domain resource in the time-domain resource unit in the embodiment of the present invention
The data transfer direction of cell type, time-domain resource unit, and the sequence of time-domain resource unit.In the embodiment of the present invention, when
The structure type index value of domain sets of resource units can indicate that the time-domain resource unit that the time-domain resource unit set includes
The data transfer direction of type, time-domain resource unit, and the sequence of time-domain resource unit;And combine time-domain resource element number
N can indicate that the quantity of every a kind of time-domain resource unit.Time-domain resource unit can have been pre-defined in the embodiment of the present invention
Corresponding relation between the structure type of set and the structure type index value of time-domain resource unit set.
Further, the structure type of time-domain resource unit set also includes the time-domain resource unit collection in the embodiment of the present invention
Close quantity, the upload control region of the continuous symbol in the every a kind of time-domain resource unit included shared by descending control area
The quantity of continuous symbol shared by the quantity of shared continuous symbol and data transmission region.That is, time domain
The structure type index value of sets of resource units can indicate that every a kind of time domain money that the time-domain resource unit set includes
Continuous symbol shared by the quantity of continuous symbol in source unit shared by descending control area, upload control region
The quantity of continuous symbol shared by quantity and data transmission region.Pass through structure type index value in the embodiment of the present invention
The structure type of time-domain resource unit is defined, also predefines the symbol for the regional that each time-domain resource unit includes
Quantity, such first configured information includes the quantity N for the time-domain resource unit that the time-domain resource unit set includes
With the structure type index value of the time-domain resource unit set, the instruction overhead of the first configured information is reduced.
Second aspect, the embodiment of the present invention provide a kind of determination method of time-domain resource unit set structure, the time domain
Sets of resource units includes N number of time-domain resource unit;N is the integer more than or equal to 1;Methods described includes:Terminal receives net
The first finger that network equipment is sent by the common control information in the time-domain resource unit set or the specific control information of terminal
Show information;Wherein, first configured information is used to indicate each time-domain resource unit in the time-domain resource unit set
In the quantity of continuous symbol shared by descending control area, the quantity of continuous symbol shared by upload control region and
The quantity of continuous symbol shared by data transmission region, and the data transfer direction of each time-domain resource unit;It is described
Terminal is according at least between regional in each time-domain resource unit for the time-domain resource unit set made an appointment
Sequence, and first configured information, determine the structure of each time-domain resource unit in the time-domain resource unit set;Its
In, when the common control information and the specific control information of the terminal are carried on first of the time-domain resource unit set
On continuous symbol shared by the descending control area of domain resource unit.
Because terminal can determine the structure of each time-domain resource unit, and then according to the knot of each time-domain resource unit
Structure determines the structure of a time-domain resource unit set, and because the network equipment passes through the time-domain resource unit set
In the specific control information of common control information or terminal send first configured information, and the common control channel to terminal
Breath and the specific control information of the terminal are carried on shared by the descending control area of the time-domain resource unit set
On continuous symbol, therefore the network equipment can be indicated flexibly often in a manner of indicating a time-domain resource unit set every time
The structure of each time-domain resource unit in individual time-domain resource unit set, so as to improve flexibility, more adapts to changeable industry
Business environment.
Alternatively, the time-domain resource unit set includes polymerizeing time-domain resource unit, the polymerization time-domain resource unit
Time-domain resource unit is continuous and data transfer direction is identical with described first;Wherein, the M is more than or equal to 0 and is less than
Integer equal to N-1;First configured information is additionally operable to indicate the time-domain resource that the polymerization time-domain resource unit includes
The quantity M of unit.Optionally, the time-domain resource list where the network equipment first sends the first configured information in chronological order to terminal
The data transfer direction of member, the transmission direction without sending the time-domain resource unit polymerizeing in time-domain resource unit.So, end is worked as
When the data transfer direction of the time-domain resource unit where the first configured information is determined at end, that is, determine to polymerize time-domain resource list
The data transfer direction of M time-domain resource unit in member, so as to polymerize the data of the time-domain resource unit in time-domain resource unit
Transmission direction can save the signaling consumption of configured information without instruction.
The terminal is determined by first method in the polymerization time-domain resource unit that the network equipment indicates
Company shared by the quantity of continuous symbol in each time-domain resource unit shared by descending control area, upload control region
The quantity of continuous symbol shared by the quantity of continuous symbol and data transmission region;Wherein, the first method is:Instruction
Go out the number of the continuous symbol in the polymerization time-domain resource unit in a time-domain resource unit shared by descending control area
The number of continuous symbol shared by the quantity of continuous symbol shared by amount, upload control region and data transmission region
Amount.That is, the network equipment can first send the first configured information in chronological order to terminal where time-domain resource unit
The quantity of the symbol of included regional, then instruction polymerize in time-domain resource unit included by a time-domain resource unit
Regional symbol quantity, so, terminal can determine the regional included by each time-domain resource unit
The quantity of symbol.
Alternatively, each time-domain resource list of the terminal according at least to the time-domain resource unit set made an appointment
Sequence in member between regional, and first configured information, when determining each in the time-domain resource unit set
Before the structure of domain resource unit, in addition to:The terminal receives the network equipment and passes through the common control information or institute
State second configured information that the specific control information of terminal is sent;Wherein, when second configured information is used to indicate described
The quantity of continuous symbol in the sets of resource units of domain shared by protection interval GP regions;The terminal according at least to appointing in advance
Sequence in each time-domain resource unit of the fixed time-domain resource unit set between regional, and first finger
Show information, determine the structure of each time-domain resource unit in the time-domain resource unit set, including:The terminal according at least to
Sequence in each time-domain resource unit for the time-domain resource unit set made an appointment between regional, and it is described
First configured information and second configured information, determine the knot of each time-domain resource unit in the time-domain resource unit set
Structure.In this way, the network equipment is set flexibly to determine the quantity in the GP regions in each time-domain resource unit set, and each GP areas
The quantity of symbol shared by domain, improve the flexibility that GP regions are set in time-domain resource unit set.
Alternatively, each time-domain resource list of the terminal according at least to the time-domain resource unit set made an appointment
Sequence in member between regional, and first configured information, when determining each in the time-domain resource unit set
Before the structure of domain resource unit, in addition to:The terminal receives the network equipment and passes through the common control information or institute
State the 3rd configured information that the specific control information of terminal is sent;Wherein, when the 3rd configured information is used to indicate described
Time span corresponding to a symbol in the sets of resource units of domain;The terminal is according at least to the time-domain resource made an appointment
Sequence in each time-domain resource unit of unit set between regional, and first configured information, it is determined that described
The structure of each time-domain resource unit in time-domain resource unit set, including:The terminal is according at least to described in making an appointment
Sequence in each time-domain resource unit of time-domain resource unit set between regional, and first configured information and
3rd configured information, determine the structure of each time-domain resource unit in the time-domain resource unit set.It can be seen that the present invention
The scheme that embodiment is provided can also flexibly determine the length of time shared by each symbol, further increase time-domain resource
The flexibility of the structure of each time-domain resource unit in unit set.
Alternatively, each time-domain resource list of the terminal according at least to the time-domain resource unit set made an appointment
Sequence in member between regional, and first configured information, when determining each in the time-domain resource unit set
Before the structure of domain resource unit, in addition to:The terminal receives the network equipment and passes through the common control information or institute
State the 4th configured information that the specific control information of terminal is sent;Wherein, the 4th configured information is described N number of for indicating
The quantity for total symbol that each time-domain resource unit includes in time-domain resource unit;The terminal is according at least to making an appointment
Sequence in each time-domain resource unit of the time-domain resource unit set between regional, and the first instruction letter
Breath, the structure of each time-domain resource unit in the time-domain resource unit set is determined, including:The terminal is according at least to advance
Sorting between regional, first instruction in each time-domain resource unit of the time-domain resource unit set of agreement
Information, and the 4th configured information, determine the structure of each time-domain resource unit in the time-domain resource unit set.Such as
This, the network equipment can flexibly determine the total of the symbol shared by each time-domain resource unit in each time-domain resource unit set
Quantity, improve the flexibility of time-domain resource cellular construction.
Alternatively, the transmission side data of at least one time-domain resource unit in N number of time-domain resource unit be present
The network equipment described in Xiang Weicong to the terminal downlink transmission direction when, the terminal according at least to make an appointment it is described when
Sequence in each time-domain resource unit of domain sets of resource units between regional, and first configured information, really
In the fixed time-domain resource unit set before the structure of each time-domain resource unit, in addition to:The terminal receives the net
The 5th configured information that network equipment is sent by the common control information or the specific control information of the terminal;Its
In, the 5th configured information is used to indicate that the data transfer direction is the time migration area in descending time-domain resource unit
The quantity of continuous symbol shared by domain;The time migration region is used to carry out cross jamming measurement;The terminal is at least
According to the sequence between regional in each time-domain resource unit for the time-domain resource unit set made an appointment, and
First configured information, the structure of each time-domain resource unit in the time-domain resource unit set is determined, including:The end
End is according at least to the row between regional in each time-domain resource unit for the time-domain resource unit set made an appointment
Sequence, first configured information, and the 5th configured information, determine each time domain money in the time-domain resource unit set
The structure of source unit.Alternatively, the time migration region is used to carry out cross jamming measurement.In this way, implementation of the present invention can be made
The network equipment is applicable dynamic sensing (sensing) scene in example, and carries out in the scene transmission of related measurement signal and connect
Receipts process.
Alternatively, the time-domain resource unit set includes first group of time-domain resource unit, first group of time-domain resource list
Member include first time-domain resource unit and first polymerization time-domain resource unit, first polymerization time-domain resource unit with it is described
First time-domain resource unit is continuous and data transfer direction is identical.Alternatively, first group of time-domain resource unit with it is described
K time-domain resource unit is spaced between another group of time-domain resource unit in time-domain resource unit set, wherein the K time domain
Resource unit is located in other time-domain resource unit sets;K is more than or equal to 0;Another group of time-domain resource unit includes at least one
Individual time-domain resource unit.That is, multigroup time-domain resource across time-domain resource unit can be included in the time-domain resource unit
Unit.
Alternatively, first configured information is additionally operable to indicate the time domain that the first polymerization time-domain resource unit includes
The quantity M of resource unit1With the quantity K of the time-domain resource unit at interval;Wherein, the M1For the integer more than or equal to 0.From
And, it is possible to achieve indicated across the structure of time-domain resource unit, so as to further save the signaling of upstream request and descending instruction
Signaling, it is also possible that the structure of time-domain resource unit set is more flexible.Alternatively, another group of time-domain resource unit includes
Second polymerization time-domain resource unit, first configured information be additionally operable to instruction second polymerization time-domain resource unit include when
The quantity M of domain resource unit2, M2For the integer more than or equal to 0.
Alternatively, the terminal determines the first polymerization time domain that the network equipment indicates by second method
The quantity of continuous symbol in resource unit in each time-domain resource unit shared by descending control area, upload control region
The quantity of continuous symbol shared by the quantity of shared continuous symbol and data transmission region;Wherein, described second
Mode is:Indicate that described first polymerize in time-domain resource unit in a time-domain resource unit shared by descending control area
Company shared by the quantity of continuous symbol shared by the quantity of continuous symbol, upload control region and data transmission region
The quantity of continuous symbol.
Alternatively, the terminal determines the M that the network equipment indicates by Third Way2Individual first polymerization
The data transfer direction of each time-domain resource unit and the time domain money where first configured information in time-domain resource unit
The data transfer direction of source unit;Wherein, the Third Way is:Indicate the time-domain resource where first configured information
The data transfer direction of unit.Alternatively, described in the terminal determines that the network equipment indicates by fourth way
Under second polymerize in time-domain resource unit in each data transfer direction of time-domain resource unit and each time-domain resource unit
The quantity and data of continuous symbol shared by the quantity of continuous symbol shared by row control area, upload control region
The quantity of continuous symbol shared by transmission region;Wherein, the fourth way is:Indicate the second polymerization time domain money
In source unit the data transfer direction of time-domain resource unit and in continuous symbol shared by descending control area
The number of continuous symbol shared by the quantity of continuous symbol shared by quantity, upload control region and data transmission region
Amount.That is, due to M2The data transfer direction and structure of individual time-domain resource unit are identical, therefore the network equipment is merely indicative
The M2The data transfer direction and structure of a time-domain resource unit in individual time-domain resource unit, the network equipment only pass through
One data transfer direction indication field and a pointer to structure section just can indicate that every in the second polymerization time-domain resource unit
Individual time-domain resource cell data transmission direction and structure, reduce the signaling consumption of configured information.
Alternatively, the common control information is carried on any one in lower channel or appointed several:With in lower channel
Any one:DCCH;Resource distribution control channel is carried out by static or semi-static mode;Physical down control letter
Road.
Alternatively, the data transfer direction is the uplink direction transmitted from the terminal to the network equipment
When, sequence of the transmission direction between regional in the time-domain resource unit in uplink direction meets following condition:Along when
Domain direction, it is followed successively by the descending control area, the GP regions, the data transfer direction are the up data transfer
Region, the upload control region.Alternatively, the data transfer direction is from the network equipment to the terminal transmission
During downlink transmission direction, transmission direction for the sequence in the time-domain resource unit of downlink transmission direction between regional meet with
Lower condition:Along time domain direction, the descending control area is followed successively by, the data transfer direction is the descending data transfer
Region, the GP regions and the upload control region.Alternatively, the data transfer direction is from the network equipment to institute
When stating the downlink transmission direction of terminal transmission, transmission direction is between regional in the time-domain resource unit of downlink transmission direction
Sequence meet following condition:Along time domain direction, the descending control area, time migration region, data biography are followed successively by
Defeated direction is the descending data transmission region, the GP regions and the upload control region.Due to shared by each region
The quantity of symbol is the integer more than or equal to zero, therefore improves the flexible of the structure of each time-domain resource unit
Property, and the time-domain resource unit that time migration region can be provided the embodiment of the present invention is more applicable for dynamic sensing scene,
Expand the scope of application.
Alternatively, first configured information is used to indicate:The time-domain resource that the time-domain resource unit set includes
The quantity N of unit;The structure type index value of the time-domain resource unit set;And the descending control of each time-domain resource unit
The quantity and data transfer of continuous symbol shared by the quantity of continuous symbol shared by region processed, upload control region
The quantity of continuous symbol shared by region.Wherein, time-domain resource unit includes the 3rd group of time-domain resource unit and/or the 4th
Group time-domain resource unit.In the embodiment of the present invention, the 3rd group of time-domain resource unit includes at least two time-domain resource units, and the 3rd
The transmission direction for each time-domain resource unit that group time-domain resource unit includes, and it is continuous shared by descending control area
The quantity of symbol, the quantity of continuous symbol shared by upload control region and continuous shared by data transmission region
The quantity of symbol is identical.Alternatively, the 3rd group of time-domain resource unit includes continuous time-domain resource unit.4th group of time-domain resource
Unit is the time-domain resource unit in addition to the 3rd group of time-domain resource unit in the time-domain resource unit set.This kind of side
Case reduces the signaling consumption of configured information.
It is the quantity of the continuous symbol shared by the descending control area of each time-domain resource unit, up in the program
The quantity of continuous symbol shared by the quantity of continuous symbol shared by control area and data transmission region by with
Under type is indicated:
, can be by only indicating that the 3rd group of time domain provides for each time-domain resource unit in the 3rd group of time-domain resource unit
The quantity of continuous symbol in source unit shared by the descending control area of a time-domain resource unit, upload control region institute
The mode of the quantity of continuous symbol shared by the quantity of the continuous symbol taken and data transmission region indicates the 3rd
The quantity of continuous symbol in group time-domain resource unit shared by the descending control area of each time-domain resource unit, up control
The quantity of continuous symbol shared by the quantity of continuous symbol shared by region processed and data transmission region, so as to reduce
Indicate the signaling consumption of the configured information of the 3rd group of time-domain resource unit;
For each time-domain resource unit in the 4th group of time-domain resource unit, indicate every in the 4th group of time-domain resource unit
It is continuous shared by the quantity of continuous symbol shared by the descending control area of individual time-domain resource unit, upload control region
Symbol quantity and data transmission region shared by continuous symbol quantity.
The structure type of time-domain resource unit set includes time-domain resource in the time-domain resource unit in the embodiment of the present invention
The data transfer direction of cell type, time-domain resource unit, and the sequence of time-domain resource unit.In the embodiment of the present invention, when
The structure type index value of domain sets of resource units can indicate that the time-domain resource unit that the time-domain resource unit set includes
The data transfer direction of type, time-domain resource unit, and the sequence of time-domain resource unit;And combine time-domain resource element number
N can indicate that the quantity of every a kind of time-domain resource unit.Time-domain resource unit can have been pre-defined in the embodiment of the present invention
Corresponding relation between the structure type of set and the structure type index value of time-domain resource unit set.
Further, the structure type of time-domain resource unit set also includes the time-domain resource unit collection in the embodiment of the present invention
Close quantity, the upload control region of the continuous symbol in the every a kind of time-domain resource unit included shared by descending control area
The quantity of continuous symbol shared by the quantity of shared continuous symbol and data transmission region.That is, time domain
The structure type index value of sets of resource units can indicate that every a kind of time domain money that the time-domain resource unit set includes
Continuous symbol shared by the quantity of continuous symbol in source unit shared by descending control area, upload control region
The quantity of continuous symbol shared by quantity and data transmission region.Pass through structure type index value in the embodiment of the present invention
The structure type of time-domain resource unit is defined, also predefines the symbol for the regional that each time-domain resource unit includes
Quantity, such first configured information includes the quantity N for the time-domain resource unit that the time-domain resource unit set includes
With the structure type index value of the time-domain resource unit set, the instruction overhead of the first configured information is reduced.
The third aspect, the embodiment of the present invention provide a kind of network equipment for time-domain resource unit set structure, are applicable
In the time-domain resource unit set including N number of time-domain resource unit;N is the integer more than or equal to 1;The network equipment
Including processor, transceiver and memory;
The memory is used for store instruction, and the processor is used for according to the instruction for performing the memory storage, and
Controlling the transceiver to carry out, signal is received and signal is sent, when the instruction of memory storage described in the computing device,
The communication equipment is used to perform any one method in above-mentioned first aspect to second aspect.
Fourth aspect, the embodiment of the present invention provide a kind of terminal for time-domain resource unit set structure, suitable for bag
Include the time-domain resource unit set of N number of time-domain resource unit;N is the integer more than or equal to 1;The terminal includes processing
Device, transceiver and memory;
The memory is used for store instruction, and the processor is used for according to the instruction for performing the memory storage, and
Controlling the transceiver to carry out, signal is received and signal is sent, when the instruction of memory storage described in the computing device,
The communication equipment is used to perform any one method in above-mentioned first aspect to second aspect.
5th aspect, the embodiment of the present invention provide a kind of network equipment for time-domain resource unit set structure, are used for
Realize any one method in above-mentioned first aspect to second aspect, including corresponding functional module, be respectively used to realize with
Step in upper method.
6th aspect, the embodiment of the present invention provide a kind of terminal for time-domain resource unit set structure and are used to realize
The method of any one in first aspect to second aspect, including corresponding functional module are stated, is respectively used to realize with top
Step in method.
In the embodiment of the present invention, the time-domain resource unit set includes N number of time-domain resource unit;N is more than or equal to 1
Integer;Methods described includes:The network equipment generates the first configured information;Wherein, first configured information is used to indicate institute
State the continuous symbol in each time-domain resource unit in time-domain resource unit set shared by descending control area quantity,
The quantity of continuous symbol shared by the quantity of continuous symbol shared by upload control region and data transmission region, with
And the data transfer direction of each time-domain resource unit.In this way, terminal can determine the structure of each time-domain resource unit, enter
And go out the structure of a time-domain resource unit set according to the structure determination of each time-domain resource unit, and because the network is set
It is standby to send described the to terminal by the common control information in the time-domain resource unit set or the specific control information of terminal
One configured information, and the common control information and the specific control information of the terminal are carried on the time-domain resource unit set
First time-domain resource unit the descending control area shared by continuous symbol on, therefore the network equipment can spirit
Living indicates each time domain money in each time-domain resource unit set in a manner of indicating a time-domain resource unit set every time
The structure of source unit, so as to improve flexibility, more adapt to changeable service environment.
Brief description of the drawings
Technical scheme in order to illustrate the embodiments of the present invention more clearly, make required in being described below to embodiment
Accompanying drawing is briefly introduced.
Fig. 1 is 7 kinds of tdd frame configuration mode schematic diagrames that eIMTA is used in current 3GPP;
Fig. 2 is a kind of exemplary system Organization Chart of the embodiment of the present invention;
Fig. 2 a are a kind of determination method flow schematic diagram of time-domain resource unit set structure provided in an embodiment of the present invention;
Fig. 2 b are a kind of schematic diagram of time-domain resource unit set structure provided in an embodiment of the present invention;
Fig. 2 c are a kind of schematic diagram of time-domain resource unit set structure provided in an embodiment of the present invention;
Fig. 2 d are a kind of schematic diagram of time-domain resource unit set structure provided in an embodiment of the present invention;
Fig. 2 e are a kind of schematic diagram of time-domain resource unit set structure provided in an embodiment of the present invention;
Fig. 2 f are a kind of schematic diagram of time-domain resource unit set structure provided in an embodiment of the present invention;
Fig. 2 g are a kind of schematic diagram of time-domain resource unit set structure provided in an embodiment of the present invention;
Fig. 2 h are a kind of schematic diagram of time-domain resource unit set structure provided in an embodiment of the present invention;
Fig. 2 i are a kind of schematic diagram of time-domain resource unit set structure provided in an embodiment of the present invention;
Fig. 2 j are a kind of schematic diagram of time-domain resource unit set structure provided in an embodiment of the present invention;
Fig. 2 k are a kind of schematic diagram of time-domain resource unit set structure provided in an embodiment of the present invention;
Fig. 2 l are a kind of schematic diagram of time-domain resource unit set structure provided in an embodiment of the present invention;
Fig. 2 m are a kind of schematic diagram of time-domain resource unit set structure provided in an embodiment of the present invention;
Fig. 2 n are a kind of schematic diagram of time-domain resource unit set structure provided in an embodiment of the present invention;
Fig. 2 o are a kind of schematic diagram of time-domain resource unit set structure provided in an embodiment of the present invention;
Fig. 2 p are a kind of schematic diagram of time-domain resource unit set structure provided in an embodiment of the present invention;
Fig. 2 q are a kind of schematic diagram of time-domain resource unit set structure provided in an embodiment of the present invention;
Fig. 2 r are a kind of schematic diagram of time-domain resource unit set structure provided in an embodiment of the present invention;
Fig. 3 is a kind of knot for being used to determine the network equipment of time-domain resource unit set structure provided in an embodiment of the present invention
Structure schematic diagram;
Fig. 4 is that a kind of structure for determining the terminal of time-domain resource unit set structure provided in an embodiment of the present invention is shown
It is intended to;
Fig. 5 is another network equipment for being used to determine time-domain resource unit set structure provided in an embodiment of the present invention
Structural representation;
Fig. 6 is another structure for being used to determine the terminal of time-domain resource unit set structure provided in an embodiment of the present invention
Schematic diagram.
Embodiment
In order that the purpose of the present invention, technical scheme and beneficial effect are more clearly understood, below in conjunction with accompanying drawing and implementation
Example, the present invention will be described in further detail.It should be appreciated that specific embodiment described herein is only explaining this hair
It is bright, it is not intended to limit the present invention.
It should be understood that the technical scheme of the embodiment of the present invention be mainly used in Long Term Evolution (Long Term Evolution,
Abbreviation LTE) in the new wireless access technologys of/5G (New RAT, abbreviation NR) system.
Fig. 2 illustrates a kind of system architecture, as shown in Fig. 2 the communication system 2000 is with including the He of network element 2001
Network element 2002.Network element can be connected by interface S1 with the network equipment, such as network element 2001 and the network equipment 2003 and the network equipment
2004 connections, network element 2002 are connected with the network equipment 2005 and the network equipment 2004.
Any one in network element 2001 and network element 2002 can be key control node, belong to core network element, can be responsible for
Signaling process part, such as chain of command function, including Access Control, mobile management, attachment and attachment removal, conversation management functional
And the function such as gateway selection;The user plane functions of user data forwarding can also be responsible for.When system architecture is LTE system,
Network element 2001 and network element 2002 can be in LTE system mobility management entity (Mobility Management Entity,
Abbreviation MME) or be gateway (Serving GateWay, abbreviation S-GW).
Any one in the network equipment 2003, the network equipment 2004 and the network equipment 2005 can be responsible for the wireless of side of eating dishes without rice or wine
The functions such as resource management, quality of service (Quality of Service, abbreviation QoS) management, data compression and encryption;Can also
It is responsible for forwarding control plane signaling and user plane business datum etc..When system architecture is LTE system, the network equipment 2003, net
Any one in network equipment 2004 and the network equipment 2005 can be evolved Node B (eNodeB, Evolved Node B, letter
Claim eNB).When system architecture is 5G networks, any in the network equipment 2003, the network equipment 2004 and the network equipment 2005
Individual can be transmission receiving point (Transmission Reception Point, abbreviation TRP).
Any of terminal 2006, terminal 2007, terminal 2008, terminal 2009, terminal 2010 and terminal 2011 can be
The equipment for accessing network side.When system architecture is LTE system, such as terminal 2006, terminal 2007, terminal 2008, terminal
2009th, any of terminal 2010 and terminal 2011 can be handheld terminal, notebook computer or other can access network
Equipment.
When system architecture is LTE system, can be connected between each network equipment by X2 interface.The network equipment can pass through
Wireless connection or wired connection or other means are connected with terminal, for example the network equipment is connected by interface Uu with terminal, such as
The network equipment 2003 is connected with terminal 2006 and terminal 2007, and the network equipment 2004 is connected with terminal 2008 and terminal 2009, net
Network equipment 2005 is connected with terminal 2010 and terminal 2011.Wherein, each interface function is described below.
S1 interfaces:It is the standard interface between eNB and core net.Wherein eNB is connected by S1-MME interface with MME, is used
In the transmission of control signaling;ENB is connected by S1-U interface with S-GW, the transmission for user data.Wherein S1-MME interface
S1 interfaces are referred to as with S1-U interface.
X2 interface:Standard interface between eNB and eNB, for realizing the intercommunication between base station.
Uu interfaces:Uu interfaces are the wave points between UE and base station, and UE is linked into LTE network by Uu interfaces.
In the embodiment of the present invention, terminal of the network equipment into the network equipment coverage issues some configured informations,
Such as first configured information etc., the configured information that terminal issues according to the network equipment determines each in time-domain resource unit set
The structure of time-domain resource unit, and up-downgoing data are carried out according to the structure of time-domain resource unit in the time-domain resource unit set
Send and receive.
Time-domain resource unit set structure in the embodiment of the present invention includes one or more time-domain resource units, each
The total quantity for the symbol that time-domain resource unit includes is identical, and the time span that each symbol takes is also identical.The embodiment of the present invention
In alleged symbol be time-domain symbol.Special instruction:Time-domain resource unit described in the embodiment of the present invention is radio communication system
System, such as LTE system, LTE evolution systems or 5G systems, such as NR, in a kind of scheduling of time-domain resource and allocation unit, including but not
It is limited to subframe, sub-frame set, in short-term time slot (slot), gap (mini-slot), Transmission Time Interval (Transmit Time
Interval, abbreviation TTI), TTI set, any one in time-domain symbol, and time-domain symbol set.New wireless access skill
The term similar to above-mentioned concept newly defined in art (New RAT, abbreviation NR) or 5G can also be used as described in this patent
Time-domain resource unit, the present invention this is not limited.
Based on the system architecture shown in Fig. 2, Fig. 2 a illustrate a kind of time-domain resource provided in an embodiment of the present invention
The determination method flow schematic diagram of unit set structure, time-domain resource unit set described in this method include N number of time-domain resource
Unit;N is the integer more than or equal to 1.As shown in Figure 2 a, this method comprises the following steps:
Step 2101, the network equipment generates the first configured information;Wherein, the first configured information is used to indicate time-domain resource list
The quantity of continuous symbol in each time-domain resource unit in member set shared by descending control area, upload control region
The quantity of continuous symbol shared by the quantity of shared continuous symbol and data transmission region, and each time domain money
The data transfer direction of source unit;
Step 2102, the network equipment is believed by the specific control of the common control information in time-domain resource unit set or terminal
Cease to terminal and send the first configured information;Wherein, common control information and the specific control information of terminal are carried on time-domain resource list
On continuous symbol shared by the descending control area of member set;Alternatively, common control information and the specific control letter of terminal
Cease the continuous symbol shared by the descending control area for first time-domain resource unit for being carried on time-domain resource unit set
On;Alternatively, common control information and the specific control information of terminal are carried on first time domain money of time-domain resource unit set
On first symbol shared by the descending control area of source unit;
Step 2103, terminal receive the network equipment by by common control information corresponding to time-domain resource unit set or
The first configured information that the specific control information of terminal corresponding to time-domain resource unit set is sent;
Step 2104, terminal is according at least to each in each time-domain resource unit for the time-domain resource unit set made an appointment
Sequence between individual region, and common control information, determine the knot of each time-domain resource unit in time-domain resource unit set
Structure.
Alternatively, in above-mentioned steps 2101, the network equipment can be according to current business scenario flexible configuration time-domain resource list
The structure and transmission direction of each time-domain resource unit, the scheme provided using the embodiment of the present invention set network in member set
The structure of each time-domain resource unit in the standby notice each time-domain resource unit set of terminal, the network equipment is according to current business
Application scenarios are indicated by dynamic mode, i.e., notify terminal by common control information or the specific control information of terminal
The structure of each time-domain resource unit in the time-domain resource unit set, downstream transmission money is carried out so as to dynamic in real time
The distribution in source, reach the target of efficiently adaptation differentiated service application scenarios.
In above-mentioned steps 2103, terminal receives the network equipment by passing through the public control in the time-domain resource unit set
The first configured information that the specific control information of information or terminal processed is sent, and due to common control information or the specific control letter of terminal
Breath is located at the start-up portion of descending control area, i.e. time domain sets of resource units, therefore terminal can only parse time-domain resource
The start-up portion of polymerization is to determine the company in the time-domain resource unit in time-domain resource unit set shared by descending control area
The quantity of continuous symbol shared by the quantity of continuous symbol, upload control region, so that what terminal can be as early as possible determines
The structure of each time-domain resource unit in time-domain resource unit set, the power consumption of terminal is reduced, mitigate terminal and carry out information processing
Complexity.
Alternatively, the time-domain resource unit set includes polymerizeing time-domain resource unit, the polymerization time-domain resource unit
Time-domain resource unit is continuous and data transfer direction is identical with described first;First configured information is additionally operable to described in instruction
It polymerize the quantity M of time-domain resource unit in time-domain resource unit;The M is the integer more than or equal to 0 and less than or equal to N-1;
That is, the quantity M for polymerizeing the time-domain resource unit that time-domain resource unit includes in the embodiment of the present invention refers to by same
The transmission side data of time-domain resource unit where the continuous dispensing of configured information instruction, data transfer direction and configured information
To M consistent and adjacent with the time-domain resource unit where configured information time-domain resource unit.
Alternatively, the network equipment is indicated in the polymerization time-domain resource unit by the 5th mode to the terminal
The data of time-domain resource unit where the data transfer direction of each time-domain resource unit and first configured information pass
Defeated direction;Wherein, the 5th mode is:Indicate the data transfer of the time-domain resource unit where first configured information
Direction;Wherein, the quantity of the continuous symbol in each time-domain resource unit shared by descending control area, upload control region
The quantity of shared continuous symbol is identical with the quantity of the continuous symbol shared by data transmission region.Correspondingly, eventually
Each time-domain resource unit in the polymerization time-domain resource unit that the network equipment indicates is determined by the 5th mode in end
Data transfer direction.
Specifically, N number of time-domain resource unit is directed in the embodiment of the present invention, each time-domain resource can be indicated respectively out
The structure and transmission direction of unit, such as the corresponding transmission direction indication field of each time-domain resource unit and a structure refer to
Show field, pointer to structure section can indicate that the continuous symbol shared by the regional that the time-domain resource unit includes
Quantity.
In the case where time-domain resource unit set includes polymerizeing time-domain resource unit, due to the M time-domain resource list
The data transfer direction of member is consistent, and the data transfer direction of the M time-domain resource unit and first configured information place
Time-domain resource unit data transfer direction it is consistent, therefore the network equipment be used only a transmission direction indication field can refer to
Show to polymerize the data of each time-domain resource unit in time-domain resource unit and time-domain resource unit where the first configured information
Transmission direction.
That is, the network equipment first send the first configured information in chronological order to terminal where time-domain resource unit
Data transfer direction, when the data transfer direction of the time-domain resource unit where terminal determines the first configured information, i.e.,
Determine the data transfer direction for polymerizeing M time-domain resource unit in time-domain resource unit.
In the case where time-domain resource unit set includes polymerizeing time-domain resource unit, the M time-domain resource unit
Data transfer direction is consistent, but the structure of the M time-domain resource unit can be all identical, also can part it is identical, also can be all
Differ.Alternatively, if the structure division of the M time-domain resource unit is identical or be different from, when can be by indicating each
The mode of domain resource unit structure indicates the structure of M time-domain resource unit.
If the structure of the M time-domain resource unit is identical, a kind of alternatively embodiment is that the network equipment passes through
First method indicates in the polymerization time-domain resource unit descending control area in each time-domain resource unit to the terminal
The quantity of continuous symbol shared by the quantity of shared continuous symbol, upload control region and data transmission region institute
The quantity of the continuous symbol taken;Wherein, the first method is:When indicating in the polymerization time-domain resource unit one
Continuous symbol shared by the quantity of continuous symbol in the resource unit of domain shared by descending control area, upload control region
Number quantity and data transmission region shared by continuous symbol quantity;Wherein, descending control in each time-domain resource unit
The quantity and data transfer of continuous symbol shared by the quantity of continuous symbol shared by region processed, upload control region
The quantity of continuous symbol shared by region is identical.Correspondingly, terminal determines that the network equipment indicates by first method
The polymerization time-domain resource unit in continuous symbol in each time-domain resource unit shared by descending control area number
The number of continuous symbol shared by the quantity of continuous symbol shared by amount, upload control region and data transmission region
Amount.
That is, because the structure (i.e. the symbol quantity of included regional) of M time-domain resource unit is identical,
Therefore the network equipment is merely indicative the structure of a time-domain resource unit in the M time-domain resource unit, the network equipment
Each time-domain resource cellular construction in polymerization time-domain resource unit is just can indicate that only by a pointer to structure section.Reduce
The signaling consumption of configured information.
On the other hand, due to also including polymerizeing in time-domain resource unit in time-domain resource unit set in the first configured information
Including time-domain resource unit quantity M;So, on the one hand, the network equipment can by be once designated as terminal distribution it is multiple when
Resource needed for the resource unit of domain, improve the efficiency of resource allocation;On the other hand, it is not necessary to terminal is repeatedly sent out to the network equipment
Uplink resource scheduling request is sent, saves the transfer resource for uplink resource scheduling request.
In the embodiment of the present invention, time-domain resource unit set includes one or more time-domain resource units, and the present invention is real
Applying the regional that each time-domain resource unit includes in example can be:Descending control area, protection interval (Guard Period,
Abbreviation GP) one or more in region, data transmission region and upload control region.
The configured information that the network equipment is sent to terminal can indicate that the structure of each time-domain resource unit.Each time domain
The continuous symbol quantity shared by any one region in resource unit is the integer more than or equal to zero.For example, such as
One time-domain resource unit, the symbol that descending control area continuously takes in the time-domain resource unit is indicated in the first configured information
The symbol quantity that quantity is zero, GP regions continuously take is that the symbol quantity that zero-sum upload control region continuously takes is zero, number
The quantity of the symbol continuously taken according to transmission region is the integer more than zero.
In the embodiment of the present invention, optional ground downlink control area is used for bearing downlink control information, such as network equipment hair
The schedule information and resource allocation information sent.The switching and avoid descending in network that GP regions are used between downstream-to-upstream
To up interference.Data transmission region is used to transmit upstream data or downlink data, and a time domain provides in the embodiment of the present invention
The data transfer direction for all data transmission regions that source unit set includes can be same or multiple.Up control
Region processed is used for transmitting uplink control information, such as the reporting of measurement result, data transfer request etc. next time.
Terminal and the network equipment can make an appointment time-domain resource unit set each time-domain resource unit in regional
Between sequence, terminal receive the network equipment send configured information by way of, determine in each time-domain resource unit
The quantity sum of continuous symbol shared by the quantity of continuous symbol shared by descending control area, upload control region
According to the quantity of the continuous symbol shared by transmission region.
Alternatively, total quantity of the symbol in the embodiment of the present invention shared by each time-domain resource unit can be a change
Amount, indicated from the network equipment to terminal;It can also be the value of the network equipment and terminal agreement.No matter which kind of mode terminal is made by
The total quantity of symbol shared by each time-domain resource unit is determined, terminal can determine each time domain money by calculation
The quantity of continuous symbol in source unit shared by GP regions.
In another implementation, alternatively, the network equipment can be indicated every by way of sending configured information to terminal
The quantity of continuous symbol in individual time-domain resource unit shared by GP regions.Specifically, the network equipment generation second
Configured information;Wherein, second configured information is used to indicate the company in the time-domain resource unit set shared by GP regions
The quantity of continuous symbol;The network equipment is by the common control information or the specific control information of the terminal to the end
End sends second configured information.Correspondingly, the terminal is according at least to the time-domain resource unit set made an appointment
Each time-domain resource unit in sequence between regional, and first configured information determines the time-domain resource
In unit set before the structure of each time-domain resource unit, the terminal receives the network equipment and passes through the public control
Second configured information that information or the specific control information of the terminal are sent;Wherein, second configured information is used to refer to
Show the quantity of the continuous symbol in the time-domain resource unit set shared by protection interval GP regions.The terminal at least root
According to the sequence between regional in each time-domain resource unit for the time-domain resource unit set made an appointment, Yi Jisuo
The first configured information is stated, determines the structure of each time-domain resource unit in the time-domain resource unit set, including:The terminal
According at least to the sequence between regional in each time-domain resource unit for the time-domain resource unit set made an appointment,
And first configured information and second configured information, determine each time-domain resource in the time-domain resource unit set
The structure of unit.In this way, the network equipment is flexibly determined the quantity in the GP regions in each time-domain resource unit set, and
The quantity of symbol shared by each GP regions, improves the flexibility that GP regions are set in time-domain resource unit set.
Alternatively, the network equipment also can be by continuous shared by static or semi-static mode to terminal notification GP regions
Symbol quantity, specifically, static or semi-static mode refers to that the quantity of the continuous symbol shared by GP regions is
The fixed value made an appointment, or the quantity of the continuous symbol shared by GP regions is that the network equipment passes through broadcast signaling or nothing
Line resources control (Radio Resource Control, abbreviation RRC) signaling etc. is to terminal notification.
In specific implementation, time span corresponding to a symbol can be the advance network equipment in time-domain resource unit set
Arrange between terminal;Can also be that the configured information that the network equipment is sent to terminal indicates.A kind of possible realization side
In formula, the network equipment generates the 3rd configured information;Wherein, the 3rd configured information is used to indicate the time-domain resource list
Time span corresponding to a symbol in member set;The network equipment is specific by the common control information or the terminal
Control information sends the 3rd configured information to the terminal.Correspondingly, the terminal is according at least to described in making an appointment
Sequence in each time-domain resource unit of time-domain resource unit set between regional, and first configured information,
Determine in the time-domain resource unit set before the structure of each time-domain resource unit, the terminal receives the network equipment
The 3rd configured information sent by the common control information or the specific control information of the terminal;Wherein, described
Three configured informations are used to indicate time span corresponding to a symbol in the time-domain resource unit set.
Specifically, the 3rd configured information can be the bit that can map out the time span corresponding to a symbol
String;Or the information at the interval of instruction subcarrier, terminal can be according to shared by the information at the interval of subcarrier with a symbol
Time span between relation determine the length of the time shared by a symbol;Or the 3rd configured information can be can
Map out the information of the time span corresponding to a symbol.
A kind of alternatively scheme is, if terminal is special by the common control information or terminal for parsing time-domain resource unit set
Determine control information, obtain the 3rd configured information, then terminal is determined in the time-domain resource unit set according to the 3rd configured information
Time span corresponding to one symbol;If terminal is specific by the common control information or terminal for parsing time-domain resource unit set
Control information, does not obtain the 3rd configured information, then illustrates that the network equipment does not send the 3rd configured information to terminal, then eventually
End using with the reference value that the network equipment is arranged as time span corresponding to a symbol in the time-domain resource unit set.
The terminal is according at least to each in each time-domain resource unit for the time-domain resource unit set made an appointment
Sequence between individual region, and first configured information, determine each time-domain resource in the time-domain resource unit set
The structure of unit, including:Each time-domain resource of the terminal according at least to the time-domain resource unit set made an appointment
Sequence in unit between regional, and first configured information and the 3rd configured information, determine the time domain
The structure of each time-domain resource unit in sets of resource units.
In specific implementation, the 3rd configured information is alternatively referred to as subcarrier spacing (Subcarrier Spacing), and the 3rd refers to
Show that information can be located in the specific control information of terminal corresponding to the terminal (Terminal-specific), or positioned at public control
In information processed.In a kind of alternatively embodiment, the one or more time-domain resource unit of definable in agreement, every kind of time domain money
The quantity of the symbol of included each time-domain resource unit is identical in source unit.Different types of time-domain resource unit neutron carries
Wave spacing can be different, i.e., the time span in different types of time-domain resource unit shared by each symbol can be different.It can be seen that this
The scheme that inventive embodiments are provided can also flexibly determine the length of time shared by each symbol, further increase time domain
The flexibility of the structure of each time-domain resource unit in sets of resource units.
Alternatively, the network equipment generates the 4th configured information;Wherein, the 4th configured information is described for indicating
The quantity for total symbol that each time-domain resource unit includes in N number of time-domain resource unit;The network equipment passes through the public affairs
Control information or the specific control information of the terminal send the 4th configured information to the terminal altogether.Correspondingly, alternatively,
The terminal according at least to regional in each time-domain resource unit for the time-domain resource unit set made an appointment it
Between sequence, and first configured information, determine the knot of each time-domain resource unit in the time-domain resource unit set
Before structure, the terminal receives the network equipment and sent by the common control information or the specific control information of the terminal
The 4th configured information;The terminal provides according at least to each time domain for the time-domain resource unit set made an appointment
Sequence in source unit between regional, and first configured information, determine every in the time-domain resource unit set
The structure of individual time-domain resource unit, including:The terminal is every according at least to the time-domain resource unit set made an appointment
Sorting between regional, first configured information, and the 4th configured information in individual time-domain resource unit, it is determined that
The structure of each time-domain resource unit in the time-domain resource unit set.
Alternatively, total quantity of the symbol in the embodiment of the present invention shared by each time-domain resource unit can be a change
Amount, indicated from the network equipment to terminal;It can also be the value of the network equipment and terminal agreement.A kind of alternatively scheme is, if eventually
End obtains the 4th instruction letter by the specific control information of common control information or terminal for parsing time-domain resource unit set
Cease, then terminal determines total number of the symbol in the time-domain resource unit set shared by a symbol according to the 4th configured information
Amount;If terminal is not obtained by the specific control information of common control information or terminal for parsing time-domain resource unit set
4th configured information, then illustrate that the network equipment does not send the 4th configured information to terminal, then terminal will arrange with the network equipment
Each time-domain resource unit shared by symbol total quantity as each time-domain resource in the time-domain resource unit set
Total quantity of symbol shared by unit.
In this way, the network equipment can be determined flexibly in each time-domain resource unit set shared by each time-domain resource unit
Symbol total quantity, improve the flexibility of time-domain resource cellular construction.
Alternatively, the transmission side data of at least one time-domain resource unit in N number of time-domain resource unit be present
The network equipment described in Xiang Weicong to the terminal downlink transmission direction when, the network equipment generates the 5th configured information;Its
In, the 5th configured information is used to indicate that the data transfer direction is the time migration area in descending time-domain resource unit
The quantity of continuous symbol shared by domain;The time migration region is used to carry out cross jamming measurement;The network equipment
5th configured information is sent to the terminal by the common control information or the specific control information of the terminal.Accordingly
Ground, the data transfer direction that at least one time-domain resource unit in N number of time-domain resource unit be present are from the net
Network equipment to the terminal downlink transmission direction when, the terminal is according at least to the time-domain resource unit collection made an appointment
Sequence in each time-domain resource unit closed between regional, and first configured information, determine the time domain money
In source unit set before the structure of each time-domain resource unit, the terminal receives the network equipment and passes through the public control
The 5th configured information that information processed or the specific control information of the terminal are sent;The terminal is according at least to making an appointment
The time-domain resource unit set each time-domain resource unit in sequence between regional, and first instruction
Information, the structure of each time-domain resource unit in the time-domain resource unit set is determined, including:The terminal is according at least to pre-
Sorting between regional, described first refer in each time-domain resource unit for the time-domain resource unit set first arranged
Show information, and the 5th configured information, determine the structure of each time-domain resource unit in the time-domain resource unit set.
Alternatively, the network equipment and the terminal are each configured with cross jamming measurement function, that is, have to enter
The relevant configuration of row cross jamming measurement, can reach the purpose for realizing measurement interference strength.In this way, the embodiment of the present invention can be made
The middle network equipment is applicable dynamic sensing (sensing) scene, and sending and receiving for related measurement signal is carried out in the scene
Process.Increased time migration (offset) region of institute can be used for sending or receiving measurement signal in the embodiment of the present invention.Fig. 2 b
A kind of structural representation of time-domain resource unit set is illustrated respectively with Fig. 2 c, as shown in Figure 2 b, including under carrying
The descending control area of row control information, GP regions, the data transmission region for carrying upstream data and up for carrying
The upload control region of control information.In figure 2b, GP regions are used for the time-domain resource for measuring the first signal.As shown in Figure 2 c,
Descending control area, time migration region including bearing downlink control information, the data transfer area for bearing downlink data
Domain and the upload control region for carrying ascending control information.As shown in Figure 2 c:Time migration (offset) region is transmission
The time-domain resource of secondary signal, wherein secondary signal are to disturb perceptual signal.
In the embodiment of the present invention, alternatively, the data transfer direction is to be transmitted from the terminal to the network equipment
Uplink direction when, transmission direction meets for the sequence in the time-domain resource unit in uplink direction between regional
Following condition:Along time domain direction, the descending control area is followed successively by, the GP regions, the data transfer direction are up
The data transmission region, upload control region.The continuous symbol shared by any one region in each time-domain resource unit
Number amount is the integer more than or equal to zero.The structure of each time-domain resource unit in specific a variety of time-domain resource unit sets
Form refers to subsequent embodiment part.
In a kind of alternatively scheme, the data transfer direction is from the network equipment to the descending of the terminal transmission
During transmission direction, sequence of the transmission direction between regional in the time-domain resource unit of downlink transmission direction meets following bar
Part:Along time domain direction, the descending control area is followed successively by, the data transfer direction is the descending data transfer area
Domain, the GP regions and the upload control region.
In another alternatively scheme, the data transfer direction be from the network equipment to the terminal transmission under
During row transmission direction, sequence of the transmission direction between regional in the time-domain resource unit of downlink transmission direction meets following
Condition:Along time domain direction, the descending control area is followed successively by, time migration region, the data transfer direction are descending
The data transmission region, the GP regions and the upload control region.
In specific implementation, alternatively, if terminal receives the 5th configured information that the network equipment issues, it is determined that transmission side
Include time migration region to for the time-domain resource unit of downlink transmission direction.If terminal does not receive what the network equipment issued
5th configured information, it is determined that transmission direction is not include time migration region in the time-domain resource unit of downlink transmission direction.
The continuous symbol quantity shared by any one region in the embodiment of the present invention in each time-domain resource unit be more than or equal to
Zero integer.The structure type of each time-domain resource unit can parameter subsequent implementation in specific a variety of time-domain resource unit sets
Example part.
Alternatively, descending control area is used for bearing downlink control information, for example, the schedule information that sends of the network equipment with
And resource allocation information.The switching and avoid the interference of downstream-to-upstream in network that GP regions are used between downstream-to-upstream.
Data transmission region is used to transmit upstream data.Upload control region is used for transmitting uplink control information.
When providing each in following several alternatively time-domain resource unit sets based on above-mentioned discussion, in the embodiment of the present invention
The structure of domain resource unit, it should be noted that following several structures provided in the embodiment of the present invention are not to the present invention
Embodiment causes to limit.
The first situation, data transfer direction are the uplink direction transmitted from the terminal to the network equipment.
Then a1, mode a2, mode a3, mode a4 and mode a5 introduce data transfer direction in the following manner when being uplink direction
Several possible time-domain resource unit set structures.
Mode a1, the quantity M for the time-domain resource unit that polymerization time-domain resource unit includes is 0.N is 1.Fig. 2 d are exemplary
A kind of schematic diagram of time-domain resource unit set structure provided in an embodiment of the present invention is shown, as shown in Figure 2 d, polymerize time domain
The quantity M for the time-domain resource unit that resource unit includes is 0, and along time domain direction, time-domain resource unit set includes independent one
Individual time-domain resource unit, the time-domain resource unit in Fig. 2 d is referred to as first kind time-domain resource unit.
It can be seen that from Fig. 2 d, include descending control (DL successively by time domain direction in first kind time-domain resource unit
Ctrl) region, GP regions, transmission direction are up data transfer (UL Data) region and upload control (UL Ctrl) area
Domain.
Mode a2, the quantity M for the time-domain resource unit that polymerization time-domain resource unit includes is not 0.N is not 1 yet.Fig. 2 e
A kind of schematic diagram of time-domain resource unit set structure provided in an embodiment of the present invention is illustrated, as shown in Figure 2 e, is gathered
The quantity M for closing the time-domain resource unit that time-domain resource unit includes not is 0, along time domain direction, time-domain resource unit set bag
The first kind time-domain resource unit in Fig. 2 d is included, afterwards including M the second class time-domain resource units.
It can be seen that from Fig. 2 e, only including transmission direction be up data transfer (UL in the second class time-domain resource unit
Data) region.
Mode a3, the quantity M for the time-domain resource unit that polymerization time-domain resource unit includes is not 0.Fig. 2 f are exemplary to be shown
Go out a kind of schematic diagram of time-domain resource unit set structure provided in an embodiment of the present invention, as shown in figure 2f, polymerization time domain money
The quantity M for the time-domain resource unit that source unit includes not is 0, and along time domain direction, time-domain resource unit set includes one the
Three class time-domain resource units, include (M-1) individual second class time-domain resource unit afterwards, include a 4th class time domain again afterwards and provide
Source unit.
It can be seen that from Fig. 2 f, include descending control (DL successively by time domain direction in the 3rd class time-domain resource unit
Ctrl) region, GP regions and transmission direction are up data transfer (UL Data) region.In 4th class time-domain resource unit
It is successively up data transfer (UL Data) region and upload control (UL Ctrl) area including transmission direction by time domain direction
Domain.
Mode a4, the quantity M for the time-domain resource unit that polymerization time-domain resource unit includes is not 0.Fig. 2 g are exemplary to be shown
Go out a kind of schematic diagram of time-domain resource unit set structure provided in an embodiment of the present invention, as shown in Figure 2 g, polymerization time domain money
The quantity M for the time-domain resource unit that source unit includes not is 0, and along time domain direction, time-domain resource unit set includes one the
Three class time-domain resource units, afterwards including M the 4th class time-domain resource units.
Mode a5, the quantity M for the time-domain resource unit that polymerization time-domain resource unit includes is not 0.Alternatively, when described
In time-domain resource unit and the time-domain resource unit set described in the sets of resource units of domain where descending control area
K time-domain resource unit is spaced between another time-domain resource unit, wherein the K time-domain resource unit is located at other time domains
In sets of resource units;K is more than or equal to 1.Alternatively, K is 0 in the above-mentioned several Figure of description of Fig. 2 d to Fig. 2 g, that is, is existed
Time-domain resource units of the mode a1 into mode a4 described in time-domain resource unit set where descending control area with it is described when
At least one time-domain resource unit in the sets of resource units of domain is adjacent, i.e., middle not to be spaced other use in sets of resource units
Time-domain resource unit.Determine to use in sets of resource units each in this way, terminal can be made to shift to an earlier date K time-domain resource unit
The structure of time-domain resource unit, send and receive data for terminal and provide convenience.
Fig. 2 h illustrate a kind of schematic diagram of time-domain resource unit set structure provided in an embodiment of the present invention, such as
Shown in Fig. 2 h, the P time-domain resource unit set includes a first kind time-domain resource unit, and M the 4th class time domains
Resource unit.K time-domain resource unit between first kind time-domain resource unit and M the 4th class time-domain resource units does not belong to
In the P time-domain resource unit.Now, K is integer more than 0, the descending control zone in the first kind time-domain resource unit
The configured information in the P time-domain resource unit set is carry in domain.The configured information can be the first finger in the above
Show in information, the second configured information, the 3rd configured information, the 4th configured information and the 5th configured information any one or appoint it is more
It is individual.Preferably, the configured information can be the first configured information, the second configured information, the 3rd configured information, the 4th configured information and
5th configured information.K time-domain resource list is spaced between first kind time-domain resource unit and the 4th class time-domain resource unit set
Member, the structure of each time-domain resource unit is indicated by the network equipment in each time-domain resource unit set.
As shown in fig. 2h, a first kind time-domain resource unit is may include in the P time-domain resource unit set, can also be wrapped
Include one or more first kind time-domain resource units, and/or one or more 3rd class time-domain resource units.That is, P
As long as, can be in P including at least one time-domain resource unit for having descending control area in individual time-domain resource unit set
The descending control area of individual time-domain resource unit set carries the configured information of the P time-domain resource unit set.The instruction is believed
Breath can be the first configured information, the second configured information, the 3rd configured information, the 4th configured information and the five fingers in the above
Show in information any one or appoint it is multiple.Preferably, the configured information can be the first configured information, the second configured information, the 3rd
Configured information, the 4th configured information and the 5th configured information.Also include M in the P time-domain resource unit set in Fig. 2 h
4th class time-domain resource unit, in a particular embodiment, it may include the time-domain resource unit of any type.The embodiment of the present invention
Middle P is the integer more than or equal to 1.M is the integer more than or equal to 0.
Second of situation, data transfer direction are from the network equipment to the downlink transmission direction of the terminal transmission.
Then in the following manner b1, mode b2, mode b3 and mode b4 introduce it is several when data transfer direction is uplink direction
Possible time-domain resource unit set structure.
Mode b1, the quantity M for the time-domain resource unit that polymerization time-domain resource unit includes is 0.Fig. 2 i are illustrated
A kind of schematic diagram of time-domain resource unit set structure provided in an embodiment of the present invention, as shown in fig. 2i, it polymerize time-domain resource
The quantity M for the time-domain resource unit that unit includes is 0, along time domain direction, when time-domain resource unit set includes independent one
Domain resource unit, the time-domain resource unit in Fig. 2 i is referred to as the 5th class time-domain resource unit.
It can be seen that from Fig. 2 i, include descending control (DL successively by time domain direction in the 5th class time-domain resource unit
Ctrl) region, transmission direction are descending data transfer (DL Data) region, GP regions and upload control (UL Ctrl) area
Domain.
Mode b2, the quantity M for the time-domain resource unit that polymerization time-domain resource unit includes is not 0.Fig. 2 j are exemplary to be shown
Go out a kind of schematic diagram of time-domain resource unit set structure provided in an embodiment of the present invention, as shown in figure 2j, polymerization time domain money
The quantity M for the time-domain resource unit that source unit includes not is 0, and along time domain direction, time-domain resource unit set includes one the
Six class time-domain resource units, include (M-1) individual 7th class time-domain resource unit afterwards, include a 8th class time domain again afterwards and provide
Source unit.
It can be seen that from Fig. 2 j, include descending control (DL successively by time domain direction in the 6th class time-domain resource unit
Ctrl) region, transmission direction are descending data transfer (DL Data) region.Only include passing in 7th class time-domain resource unit
Defeated direction is descending data transfer (DL Data) region, includes passing successively by time domain direction in the 8th class time-domain resource unit
Defeated direction is descending data transfer (DL Data) region, GP regions and upload control (UL Ctrl) region.
Mode b3, the quantity M for the time-domain resource unit that polymerization time-domain resource unit includes is not 0.Fig. 2 k are exemplary to be shown
Go out a kind of schematic diagram of time-domain resource unit set structure provided in an embodiment of the present invention, as shown in Fig. 2 k, polymerization time domain money
The quantity M for the time-domain resource unit that source unit includes not is 0, and along time domain direction, time-domain resource unit set includes M+1 the
Six class time-domain resource units, afterwards including a 5th class time-domain resource unit.
Mode b4, the quantity M for the time-domain resource unit that polymerization time-domain resource unit includes is not 0.Fig. 2 l are exemplary to be shown
Go out a kind of schematic diagram of time-domain resource unit set structure provided in an embodiment of the present invention, as illustrated in figure 21, the P time domain money
Source unit set includes a 5th class time-domain resource unit and M the 8th class time-domain resource units, the 5th class time domain money
The common control information in the P time-domain resource unit set is carry in descending control area in source unit.During five classes
K time-domain resource unit, each time-domain resource unit set are spaced between domain resource unit and M the 8th class time-domain resource units
In the structure of each time-domain resource unit indicated by the network equipment.K is the integer more than 0.
As illustrated in figure 21, a 5th class time-domain resource unit and M are may include in the P time-domain resource unit set
8th class time-domain resource unit.5th class time-domain resource unit position in the P time-domain resource unit set in the example
It may also comprise one or more 5th class time-domain resource units, and/or one or more 6th class time-domain resource units.Namely
Say, as long as including at least one time-domain resource unit for having descending control area in the P time-domain resource unit set, can
The instruction letter of the structure of the P time-domain resource unit set is carried in the descending control area of the P time-domain resource unit set
Breath.The configured information can be the first configured information in the above, the second configured information, the 3rd configured information, the 4th instruction
In information and the 5th configured information any one or appoint it is multiple.Preferably, the configured information can be the first configured information, the second finger
Show information, the 3rd configured information, the 4th configured information and the 5th configured information.The P time-domain resource unit set includes M
8th class time-domain resource unit, the present embodiment is by taking the 8th class time-domain resource unit as an example, in actual applications, it may include any
The time-domain resource unit of type.P is the integer more than or equal to 2 in the embodiment shown in Fig. 2 l, and M is more than or equal to 1
Integer.
The third situation, data transfer direction are from the network equipment to the downlink transmission direction of the terminal transmission.
This kind of situation is applied to dynamic sensing (sensing) scene, and sending and receiving for related measurement signal is had under the scene
Process, therefore when being added between descending control (DL Ctrl) region and downlink data (DL Data) region under the scene
Between offset (offset) region, the region is used to transmit the information of some dynamic sensing (sensing) scenes.Specifically dynamic
Perceive (sensing) scene have it is a variety of, such as the network equipment and the cross jamming of terminal measurement, alternatively, time migration
(offset) region can be used for send or receive measurement signal.C1, mode c2 and mode c3 introduce data in the following manner
Several possible time-domain resource unit set structures when transmission direction is uplink direction.
Mode c1, the quantity M for the time-domain resource unit that polymerization time-domain resource unit includes is 0.Fig. 2 m are illustrated
A kind of schematic diagram of time-domain resource unit set structure provided in an embodiment of the present invention, as shown in Fig. 2 m, it polymerize time-domain resource
The quantity M for the time-domain resource unit that unit includes is 0, along time domain direction, each time-domain resource in time-domain resource unit set
The structure of unit is added between descending control (DL Ctrl) region in Fig. 2 i and downlink data (DL Data) region
Time migration (offset) region.
Mode c2, the quantity M for the time-domain resource unit that polymerization time-domain resource unit includes do not show for 0, Fig. 2 n are exemplary
Go out a kind of schematic diagram of time-domain resource unit set structure provided in an embodiment of the present invention, as shown in Fig. 2 n, along time domain direction,
In time-domain resource unit set the structure of each time-domain resource unit be descending control (DL Ctrl) region in Fig. 2 j and under
Time migration (offset) region is added between row data (DL Data) region.
Mode c3, the quantity M for the time-domain resource unit that polymerization time-domain resource unit includes do not show for 0, Fig. 2 o are exemplary
Go out a kind of schematic diagram of time-domain resource unit set structure provided in an embodiment of the present invention, as shown in figure 2o, along time domain direction,
In time-domain resource unit set the structure of each time-domain resource unit be descending control (DL Ctrl) region in Fig. 2 k and under
Time migration (offset) region is added between row data (DL Data) region.
In the embodiment of the present invention in such scheme, the symbol that the network equipment and terminal can arrange each time-domain resource unit is total
Quantity is identical, therefore, the time-domain resource unit for including Q region, it is that terminal only needs to issue by the network equipment or
The configured information arranged in advance determines the quantity of the symbol shared by Q-1 region in the time-domain resource unit, afterwards eventually
End can calculate the quantity that symbol shared by next region is remained in the time-domain resource unit, wherein, Q is the integer more than 1.
For example, than in such as above-mentioned Fig. 2 j, the network equipment and terminal arrange being ordered as regional, along time domain direction
Arrange the 6th class time-domain resource unit, M-1 the 7th class time-domain resource units of centre arrangement, a 8th class time domain of finally arranging
Resource unit, then the network equipment include to the common control information that terminal issues:Descending control in 6th class time-domain resource unit
Upload control region continuously takes in the quantity for the symbol that region processed continuously takes, and the 8th class time-domain resource unit
The quantity of symbol, and M value;Alternatively, the network equipment informs about data transfer area in the class time-domain resource unit of terminal the 8th
The quantity for the symbol that domain continuously takes.Under in the 6th class time-domain resource unit that terminal is issued according to the network equipment received
Upload control region continuously takes in the quantity for the symbol that row control area continuously takes, the 8th class time-domain resource unit
The quantity of symbol, and the quantity of M value, the also symbol that data transmission region continuously takes, it may be determined that go out time-domain resource
Cellular construction is as shown in figure 2j.The total quantity of symbol of the terminal according to shared by each time-domain resource unit, it may be determined that go out the 6th
Data transmission region contacts occupancy in class time-domain resource unit, the 7th class time-domain resource unit and the 8th class time-domain resource unit
Symbol quantity.
4th kind of situation, up data transmission region was both included in time-domain resource unit set or including descending data
Region.Now K value condition is divided into is more than 0 two kinds of situations equal to zero-sum.Can in the front for being spaced K time-domain resource unit
So that including a polymerization time-domain resource unit, a polymerization time domain money is may also comprise at the rear for being spaced K time-domain resource unit
Source unit, alternatively, the time-domain resource unit set include the first polymerization time-domain resource unit and the second polymerization time domain money
Source unit.Fig. 2 p, Fig. 2 q and Fig. 2 r respectively illustrate the structural representation of several possible time-domain resource unit sets.
Alternatively, the time-domain resource unit set includes first group of time-domain resource unit, first group of time-domain resource list
Member include first time-domain resource unit and first polymerization time-domain resource unit, first polymerization time-domain resource unit with it is described
First time-domain resource unit is continuous and data transfer direction is identical;First group of time-domain resource unit and the time-domain resource
K time-domain resource unit is spaced between another group of time-domain resource unit in unit set, wherein the K time-domain resource unit
In other time-domain resource unit sets;K is more than or equal to 0;Another group of time-domain resource unit provides including at least one time domain
Source unit.
Alternatively, first configured information is additionally operable to indicate the time domain that the first polymerization time-domain resource unit includes
The quantity M of resource unit1With the quantity K of the time-domain resource unit at interval;Wherein, the M1For the integer more than or equal to 0.Can
Selection of land, another group of time-domain resource unit include the second polymerization time-domain resource unit, and first configured information is additionally operable to refer to
Show the quantity M for the time-domain resource unit that the second polymerization time-domain resource unit includes2, M2For the integer more than or equal to 0.
As illustrated in figure 2p, the P time-domain resource unit set includes a first kind time-domain resource unit and one
Eight class time-domain resource units, the P time-domain resource list is carry in the descending control area in the first kind time-domain resource unit
Common control information in member set.K time domain is spaced between first kind time-domain resource unit and the 8th class time-domain resource unit
Resource unit, the structure of each time-domain resource unit is indicated by the network equipment in each time-domain resource unit set.K can be waited
In 0, or the integer more than 0.
As shown in figure 2q, the P time-domain resource unit set includes M1+ 1 first kind time-domain resource unit and M2Individual
Eight class time-domain resource units, the P time-domain resource list is carry in the descending control area in the first kind time-domain resource unit
Common control information in member set.M1In+1 first kind time-domain resource unit except first first kind time-domain resource unit it
Outer M1Individual time-domain resource unit is referred to as the first polymerization time-domain resource unit;M2It is poly- that individual 8th class time-domain resource unit is referred to as second
Close time-domain resource unit.First group of time-domain resource unit is the M in Fig. 2 q1+ 1 first kind time-domain resource unit;At another group
Domain resource unit is the M in Fig. 2 q2Individual 8th class time-domain resource unit.
K time-domain resource unit, Mei Geshi are spaced between first kind time-domain resource unit and the 8th class time-domain resource unit
The structure of each time-domain resource unit is indicated by the network equipment in the sets of resource units of domain.K can be equal to 0, or big
In 0 integer.
Alternatively, the network equipment instruction K, M1And M2Value, terminal can determine the K time domain by way of calculating
The position of resource unit, the POS INT of the K time-domain resource unit is in M1After+1 time-domain resource unit.
Alternatively, the network equipment indicates the first polymerization time-domain resource list by the 6th mode to the terminal
The number of the data transfer direction of each time-domain resource unit and the time-domain resource unit where first configured information in member
According to transmission direction;Wherein, the 6th mode is:Indicate the data of the time-domain resource unit where first configured information
Transmission direction.
Because the data transfer direction of each time-domain resource unit and the first instruction are believed in the first polymerization time-domain resource unit
The data transfer direction of time-domain resource unit where ceasing is consistent, thus present terminal determine where the first configured information when
During the data transfer direction of domain resource unit, that is, determine the number of each time-domain resource unit in the first polymerization time-domain resource unit
According to transmission direction.
Alternatively, the network equipment indicates the first polymerization time-domain resource list by second method to the terminal
Shared by the quantity of continuous symbol in member in each time-domain resource unit shared by descending control area, upload control region
Continuous symbol quantity and data transmission region shared by continuous symbol quantity, wherein, each time-domain resource list
The quantity of continuous symbol shared by the quantity of continuous symbol in member shared by descending control area, upload control region
It is identical with the quantity of the continuous symbol shared by data transmission region;Wherein, the second method is:Indicate described first
It polymerize the quantity, up of the continuous symbol in time-domain resource unit in a time-domain resource unit shared by descending control area
The quantity of continuous symbol shared by the quantity of continuous symbol shared by control area and data transmission region.
Alternatively, the network equipment indicates the second polymerization time-domain resource list by Third Way to the terminal
The data transfer direction of each time-domain resource unit in member;Wherein, the Third Way is:Indicate the second polymerization time domain
The transmission direction of a time-domain resource unit in resource unit.Due to each time-domain resource list in the second polymerization time-domain resource unit
The data transfer direction all same of member, therefore can be by only indicating a time-domain resource unit in the second polymerization time-domain resource unit
The mode of transmission direction indicate the data transfer direction of each time-domain resource unit in the second polymerization time-domain resource unit,
That is only it can indicate that each time domain provides in the second polymerization time-domain resource unit with a data transfer direction indication field
The data transfer direction of source unit.
Alternatively, the network equipment indicates the second polymerization time-domain resource list by fourth way to the terminal
Company in member in the data transfer direction of each time-domain resource unit and each time-domain resource unit shared by descending control area
It is continuous shared by the quantity of continuous symbol shared by the quantity of continuous symbol, upload control region and data transmission region
Symbol quantity;Wherein, the fourth way is:Indicate a time-domain resource in the second polymerization time-domain resource unit
The data transfer direction of unit, and shared by the quantity of continuous symbol shared by descending control area, upload control region
The quantity of continuous symbol shared by the quantity of continuous symbol and data transmission region.
That is, in the embodiment of the present invention, the network equipment can be indicated by a data transfer direction indication field
M in second polymerization time-domain resource unit2The data transfer direction of individual time-domain resource unit;Indicated by a pointer to structure section
Go out M in the first polymerization time-domain resource unit1The structure of individual time-domain resource unit;Can be indicated by a pointer to structure section
M in dimerization time-domain resource unit2The structure of individual time-domain resource unit, so as to reduce the signaling consumption of configured information.
The situation for being 0 for K shown in Fig. 2 r, the number of two time-domain resource units in a time-domain resource unit set
Can be different according to transmission direction.
5th kind of situation, several time-domain resource unit sets are preset in the embodiment of the present invention between the network equipment and terminal
Structure type, and be structure type index value corresponding to the structure type setting of every kind of time-domain resource unit set, in this way, when eventually
When termination receives the structure type index value of network equipment transmission, it may be determined that go out time domain corresponding to the structure type index value and provide
The structure type of the set of source unit.
Alternatively, first configured information is used to indicate:The time-domain resource that the time-domain resource unit set includes
The quantity N of unit;The structure type index value of the time-domain resource unit set;And the descending control of each time-domain resource unit
The quantity and data transfer of continuous symbol shared by the quantity of continuous symbol shared by region processed, upload control region
The quantity of continuous symbol shared by region.Wherein, time-domain resource unit includes the 3rd group of time-domain resource unit and/or the 4th
Group time-domain resource unit.In the embodiment of the present invention, the 3rd group of time-domain resource unit includes at least two time-domain resource units, and the 3rd
The transmission direction for each time-domain resource unit that group time-domain resource unit includes, and it is continuous shared by descending control area
The quantity of symbol, the quantity of continuous symbol shared by upload control region and continuous shared by data transmission region
The quantity of symbol is identical.Alternatively, the 3rd group of time-domain resource unit includes continuous time-domain resource unit.4th group of time-domain resource
Unit is the time-domain resource unit in addition to the 3rd group of time-domain resource unit in the time-domain resource unit set.This kind of side
Case reduces the signaling consumption of configured information.
It is the quantity of the continuous symbol shared by the descending control area of each time-domain resource unit, up in the program
The quantity of continuous symbol shared by the quantity of continuous symbol shared by control area and data transmission region by with
Under type is indicated:
, can be by only indicating that the 3rd group of time domain provides for each time-domain resource unit in the 3rd group of time-domain resource unit
The quantity of continuous symbol in source unit shared by the descending control area of a time-domain resource unit, upload control region institute
The mode of the quantity of continuous symbol shared by the quantity of the continuous symbol taken and data transmission region indicates the 3rd
The quantity of continuous symbol in group time-domain resource unit shared by the descending control area of each time-domain resource unit, up control
The quantity of continuous symbol shared by the quantity of continuous symbol shared by region processed and data transmission region, so as to reduce
Indicate the signaling consumption of the configured information of the 3rd group of time-domain resource unit;
For each time-domain resource unit in the 4th group of time-domain resource unit, indicate every in the 4th group of time-domain resource unit
It is continuous shared by the quantity of continuous symbol shared by the descending control area of individual time-domain resource unit, upload control region
Symbol quantity and data transmission region shared by continuous symbol quantity.
The structure type of time-domain resource unit set includes time-domain resource in the time-domain resource unit in the embodiment of the present invention
The data transfer direction of cell type, time-domain resource unit, and the sequence of time-domain resource unit.In the embodiment of the present invention, when
The structure type index value of domain sets of resource units can indicate that the time-domain resource unit that the time-domain resource unit set includes
The data transfer direction of type, time-domain resource unit, and the sequence of time-domain resource unit;And combine time-domain resource element number
N can indicate that the quantity of every a kind of time-domain resource unit.Time-domain resource unit can have been pre-defined in the embodiment of the present invention
Corresponding relation between the structure type of set and the structure type index value of time-domain resource unit set.
Further, the structure type of time-domain resource unit set also includes the time-domain resource unit collection in the embodiment of the present invention
Close quantity, the upload control region of the continuous symbol in the every a kind of time-domain resource unit included shared by descending control area
The quantity of continuous symbol shared by the quantity of shared continuous symbol and data transmission region.That is, time domain
The structure type index value of sets of resource units can indicate that every a kind of time domain money that the time-domain resource unit set includes
Continuous symbol shared by the quantity of continuous symbol in source unit shared by descending control area, upload control region
The quantity of continuous symbol shared by quantity and data transmission region.Pass through structure type index value in the embodiment of the present invention
The structure type of time-domain resource unit is defined, also predefines the symbol for the regional that each time-domain resource unit includes
Quantity, such first configured information includes the quantity N for the time-domain resource unit that the time-domain resource unit set includes
With the structure type index value of the time-domain resource unit set, the instruction overhead of the first configured information is reduced.
It is illustrated with reference to Figure of description, for example Fig. 2 e structure type index value is 001, Fig. 2 f knot
Configuration formula index value is 002, Fig. 2 g structure type index value is 003, Fig. 2 j structure type index value is 004, Fig. 2 k
Structure type index value is 005, Fig. 2 m structure type index value is 006.
As shown in Figure 2 e, when the structure type index value of network equipment instruction time-domain resource unit set is 001, and net
When network equipment indicates N value to terminal, when terminal can determine the structure of the time-domain resource unit set by a first kind
Domain resource unit and N-1 the second class time-domain resources unit are formed, it is determined that the data transfer direction of each time-domain resource unit, such as
Shown in Fig. 2 e.3rd group of time-domain resource unit includes N-1 the second class time-domain resource units, and the 4th group of time-domain resource unit includes
One first kind time-domain resource unit.Except N value and structure type rope in the first configured information that the network equipment is sent
Draw value for outside 001, quantity only including the continuous symbol shared by descending control area in first kind time-domain resource unit,
The quantity of continuous symbol shared by the quantity of continuous symbol shared by upload control region and data transmission region is
Can.Terminal can determine the structure shape of each time-domain resource unit in N-1 the second class time-domain resource units according only to these information
Formula, and the structure type of first kind time-domain resource unit, and the data transfer direction of each time-domain resource unit, it is seen that significantly
Reduce the signaling consumption of the first configured information.
Alternatively, common control information described in the embodiment of the present invention is carried on any one in lower channel or appointed several
It is individual:DCCH;Resource distribution control channel is carried out by static or semi-static mode;Physical Downlink Control Channel.Can
See there are a variety of bearing mode carrying common control informations in the embodiment of the present invention, so as to improve common control information loading side
The flexibility of formula.Alternatively, DCCH can be special definition, a kind of new can be used in the carrying embodiment of the present invention
Common control information.Alternatively, the common control information in the embodiment of the present invention can or semi-static mode static by some
Resource distribution control channel is carried out, can also carry out the control channel of resource distribution by dynamical fashion by some.Alternatively,
Can by some down control channels carry common control information, such as Physical Downlink Control Channel (example, in LTE protocol
For Physical Downlink Control Channel, abbreviation PDCCH) or enhancing Physical Downlink Control Channel (example
, abbreviation ePDCCH in LTE protocol).Alternatively, common control information can be by for carrying L1/L2 in the embodiment of the present invention
The channel of control signaling (Layer 1/Layer 2control signaling) is carried.
In the embodiment of the present invention, alternatively, multiple channels can be mapped on each symbol, by taking PDCCH as an example, it searches for empty
Between include public search space (Common Search Space) and the specific search space (Terminal-Specific of terminal
Search Space), all identical control information can be mapped in common search for all terminals in a cell
Space (Common Search Space), i.e., the common control information in the embodiment of the present invention can be mapped in public search space
(Common Search Space).And for for terminal, the specific information of terminal can be mapped in the specific search space of terminal
(Terminal-Specific Search Space), i.e. the specific control information of terminal in the embodiment of the present invention can be mapped in
The specific search space of terminal (Terminal-Specific Search Space).
In the embodiment of the present invention, due to descending control area size and data transfer direction (upstream or downstream) the two
Parameter information pair determines that the structure of each time-domain resource unit in time-domain resource unit set has the function that key, therefore, one
Alternatively in embodiment, common control information or the specific control information of terminal including data transfer direction can be mapped in kind
On the more forward symbol of time-domain resource unit set, such as on first symbol of descending control area.
In the embodiment of the present invention, common control information can have a variety of transmission means, such as the DCI described in the above
Format 1C are transmitted.Or transmitted by the mode described in the following manner d1, mode d2 or mode d3.
Mode d1, common control information can be by new instruction channel bearings, and new instruction channel is used to carry L1/L2 controls
The channel of signaling.The new instruction channel can be configured by static mode or semi-static mode.Wherein, static mode or
Semi-static mode, which configures, means that this indicates that the running time-frequency resource of channel is that static mode or semi-static mode configure.Can
Selection of land, static mode configuration running time-frequency resource refer to the running time-frequency resource of fixation, such as physical control frame format instruction channel
The running time-frequency resource of (Physical Control Format Indicator Channel, abbreviation PCFICH);When being semi-statically configured
Frequency resource refers to configures running time-frequency resource by system information and RRC signaling etc..
Illustrated by taking the first configured information as an example, the physical layer process flow of new instruction channel is that the first instruction is believed
The bit of breath carries out channel coding, and is scrambled, modulated and time-frequency resource maps successively, obtains the first configured information.
Mode d2, common control information by existing static mode or can be semi-statically configured channel (such as in LTE
PCFICH common control information is carried after) strengthening.Wherein, enhanced mean of channel needs to move to the increase of original channel
The information bit that state issues.
Illustrated by taking the first configured information as an example, the enhanced physical layer process flow of channel is to the first configured information
Bit and PCFICH original information bit carry out channel coding, and scrambled, modulated and time-frequency resource maps successively,
Obtain the first configured information.
Mode d3, corresponding down control channel can be used to be carried for common control information, such as common control information
Carried by common downlink control information (such as DCI format 1C in LTE), common control information then can be used in LTE
PDCCH/EPDCCH is carried.
Alternatively, certain predefined mark scrambling, such as X-RNTI can be increased in common downlink control information.With
Exemplified by one configured information, the predefined mark can be used for identifying in the common downlink control information whether carry the first instruction
Information, that is to say, that the common downlink control information includes the predefined mark, then is taken in the common downlink control information
The configured information of band first, vice versa.
By taking the first configured information as an example, the physical layer process flow of down control channel is the bit to the first configured information
CRC (Cyclic Redundancy Check, abbreviation CRC) is carried out, and increases predefined mark X-RNTI, it
Carry out channel coding, rate-matched, scrambling, modulation, precoding and time-frequency resource maps successively afterwards, obtain the first configured information.
By taking the first configured information as an example, the embodiment of the present invention provides another alternatively physical treatment flow, refers to first
Show that the bit of information carries out CRC (Cyclic Redundancy Check, abbreviation CRC), and increase predefined
X-RNTI is identified, channel coding, rate-matched is carried out successively afterwards, PDCCH multiplexings, scrambling, modulation, interweaves and cell is specific follows
Ring shifts, and obtains the first configured information.
Based on same idea, Fig. 3 illustrates one kind provided in an embodiment of the present invention and is used for time-domain resource unit collection
The structural representation of the network equipment of structure is closed, network equipment that this is used for time-domain resource unit set structure is above-mentioned for performing
Embodiment of the method, suitable for the time-domain resource unit set including N number of time-domain resource unit;N is whole more than or equal to 1
Number.As shown in figure 3, the network equipment 300 for being used for time-domain resource unit set structure includes processing unit 301 and transmitting element
302, wherein:
Processing unit, for generating the first configured information;Wherein, first configured information is used to indicate the time domain money
Quantity, the upload control of continuous symbol in each time-domain resource unit in source unit set shared by descending control area
The quantity of continuous symbol shared by the quantity of continuous symbol shared by region and data transmission region, time-domain resource list
Total symbol numbers that member includes, and the data transfer direction of each time-domain resource unit;Transmitting element, for by described
The specific control information of common control information or terminal in time-domain resource unit set sends first configured information to terminal;
Wherein, the common control information and the specific control information of the terminal are carried on first of the time-domain resource unit set
On continuous symbol shared by the descending control area of time-domain resource unit.
Alternatively, the time-domain resource unit set includes polymerizeing time-domain resource unit, the polymerization time-domain resource unit
Time-domain resource unit is continuous and data transfer direction is identical with described first;Wherein, the M is more than or equal to 0 and is less than
Integer equal to N-1;First configured information is additionally operable to indicate the time-domain resource that the polymerization time-domain resource unit includes
The quantity M of unit.
Alternatively, the processing unit, for indicating the polymerization time-domain resource to the terminal by the 5th mode
The data transfer direction of each time-domain resource unit and the time-domain resource unit where first configured information in unit
Data transfer direction;Wherein, the 5th mode is:Indicate the number of the time-domain resource unit where first configured information
According to transmission direction.
Alternatively, the processing unit, for indicating the polymerization time-domain resource to the terminal by first method
Shared by the quantity of continuous symbol in unit in each time-domain resource unit shared by descending control area, upload control region
The quantity of continuous symbol shared by the quantity of continuous symbol and data transmission region;Wherein, the first method
For:Indicate the continuous symbol in a time-domain resource unit shared by descending control area in the polymerization time-domain resource unit
Number quantity, the quantity of continuous symbol shared by upload control region and the continuous symbol shared by data transmission region
Quantity.
Alternatively, the processing unit, it is additionally operable to generate the second configured information;Wherein, second configured information is used for
Indicate the quantity of the continuous symbol in the time-domain resource unit set shared by protection interval GP regions.Alternatively, it is described
Transmitting element, it is additionally operable to send described the to the terminal by the common control information or the specific control information of the terminal
Two configured informations.
Alternatively, the processing unit, it is additionally operable to generate the 3rd configured information;Wherein, the 3rd configured information is used for
Indicate time span corresponding to a symbol in the time-domain resource unit set.Alternatively, transmitting element, it is additionally operable to pass through institute
State common control information or the specific control information of the terminal and send the 3rd configured information to the terminal.It can be seen that this hair
The scheme that bright embodiment is provided can also flexibly determine the length of time shared by each symbol, further increase time domain money
The flexibility of the structure of each time-domain resource unit in source unit set.
Alternatively, the processing unit, it is additionally operable to generate the 4th configured information;Wherein, the 4th configured information is used for
Indicate the quantity of total symbol that each time-domain resource unit includes in N number of time-domain resource unit;The transmitting element, also
For sending the 4th configured information to the terminal by the common control information or the specific control information of the terminal.
In this way, the network equipment can flexibly determine that the data transfer direction of each time-domain resource unit set improves data up-downgoing biography
Defeated flexibility.
Alternatively, the transmission side data of at least one time-domain resource unit in N number of time-domain resource unit be present
The network equipment described in Xiang Weicong to the terminal downlink transmission direction when, the processing unit, be additionally operable to generation the 5th instruction
Information;Wherein, the 5th configured information be used for indicate the data transfer direction be descending time-domain resource unit in when
Between continuous symbol shared by offset area quantity;The time migration region is used to carry out cross jamming measurement;It is described
Transmitting element, it is additionally operable to send described the to the terminal by the common control information or the specific control information of the terminal
Five configured informations.This kind of situation is applied to dynamic sensing (sensing) scene, and the measurement signal of correlation is had under the scene
Send and receive process, thus descending control (DL Ctrl) region under the scene and downlink data (DL Data) region it
Between add time migration (offset) region.
Alternatively, the time-domain resource unit set includes first group of time-domain resource unit, first group of time-domain resource list
Member include first time-domain resource unit and first polymerization time-domain resource unit, first polymerization time-domain resource unit with it is described
First time-domain resource unit is continuous and data transfer direction is identical.Alternatively, first group of time-domain resource unit with it is described
K time-domain resource unit is spaced between another group of time-domain resource unit in time-domain resource unit set, wherein the K time domain
Resource unit is located in other time-domain resource unit sets;K is more than or equal to 0;Another group of time-domain resource unit includes at least one
Individual time-domain resource unit.
Alternatively, first configured information is additionally operable to indicate the time domain that the first polymerization time-domain resource unit includes
The quantity M of resource unit1With the quantity K of the time-domain resource unit at interval;Wherein, the M1For the integer more than or equal to 0.Can
Selection of land, another group of time-domain resource unit include the second polymerization time-domain resource unit, and first configured information is additionally operable to refer to
Show the quantity M for the time-domain resource unit that the second polymerization time-domain resource unit includes2, M2For the integer more than or equal to 0.
Alternatively, the processing unit, for indicating the first polymerization time domain to the terminal by the 6th mode
The data transfer direction of each time-domain resource unit and the time-domain resource list where first configured information in resource unit
The data transfer direction of member;Wherein, the 6th mode is:Indicate the time-domain resource unit where first configured information
Data transfer direction.
Alternatively, the processing unit, for indicating the first polymerization time domain to the terminal by second method
The quantity of continuous symbol in resource unit in each time-domain resource unit shared by descending control area, upload control region
The quantity of continuous symbol shared by the quantity of shared continuous symbol and data transmission region;Wherein, described second
Mode is:Indicate that described first polymerize in time-domain resource unit in a time-domain resource unit shared by descending control area
Company shared by the quantity of continuous symbol shared by the quantity of continuous symbol, upload control region and data transmission region
The quantity of continuous symbol.
Alternatively, the processing unit, for indicating the M to the terminal by Third Way2Individual first polymerization
The data transfer direction of each time-domain resource unit in time-domain resource unit;Wherein, the Third Way is:Indicate described
The data transfer direction of a time-domain resource unit in dimerization time-domain resource unit.
Alternatively, the processing unit, for indicating the second polymerization time domain to the terminal by fourth way
Descending control area institute in the data transfer direction of each time-domain resource unit and each time-domain resource unit in resource unit
Shared by the quantity of continuous symbol shared by the quantity of continuous symbol that takes, upload control region and data transmission region
The quantity of continuous symbol;Wherein, the fourth way is:One is indicated in the second polymerization time-domain resource unit
The data transfer direction of time-domain resource unit and in continuous symbol shared by descending control area quantity, upload control
The quantity of continuous symbol shared by the quantity of continuous symbol shared by region and data transmission region.
Alternatively some further features in the embodiment of the present invention are identical with above method embodiment, reference can be made to above-mentioned
Discussion in embodiment of the method, will not be repeated here.
Based on same idea, Fig. 4 illustrates one kind provided in an embodiment of the present invention and is used for time-domain resource unit collection
The structural representation of the terminal of structure is closed, the terminal for being used for time-domain resource unit set structure is used to perform above method implementation
Example, suitable for the time-domain resource unit set including N number of time-domain resource unit;N is the integer more than or equal to 1.Such as Fig. 4
Shown, the terminal 400 for being used for time-domain resource unit set structure includes processing unit 401 and receiving unit 402, wherein:
Receiving unit, pass through for receiving the network equipment by the common control information in the time-domain resource unit set
Or the first configured information that the specific control information of terminal is sent;Wherein, first configured information is used to indicate the time domain money
Quantity, the upload control of continuous symbol in each time-domain resource unit in source unit set shared by descending control area
The quantity of continuous symbol shared by the quantity of continuous symbol shared by region and data transmission region, and it is each when
The data transfer direction of domain resource unit;Processing unit, for according at least to the time-domain resource unit set made an appointment
Each time-domain resource unit in sequence between regional, and first configured information determines the time-domain resource
The structure of each time-domain resource unit in unit set;Wherein, the common control information and the specific control information of the terminal
It is carried on continuous shared by the descending control area of first time-domain resource unit of the time-domain resource unit set
Symbol on.
Because the time-domain resource unit set includes N number of time-domain resource unit, N number of time-domain resource in the embodiment of the present invention
The data transfer direction of unit is same, and N is the integer more than or equal to 1, and the network equipment is that terminal once only indicates one
The structure of individual time-domain resource unit, equivalent to subframe rank of the prior art, that is to say, that provided in the embodiment of the present invention
Method indicate each time-domain resource unit in each time-domain resource unit set equivalent to subframe rank in the prior art
Structure, in this way, the network equipment can be made flexibly to distribute the data transfer direction of each time-domain resource unit, it is existing without sticking to
There is seven kinds of downstream transmission resources proportioning fixed in technology, improve flexibility, more adapt to changeable service environment.
Alternatively, the time-domain resource unit set includes polymerizeing time-domain resource unit, the polymerization time-domain resource unit
Time-domain resource unit is continuous and data transfer direction is identical with described first;Wherein, the M is more than or equal to 0 and is less than
Integer equal to N-1;First configured information is additionally operable to indicate the time-domain resource that the polymerization time-domain resource unit includes
The quantity M of unit.
Alternatively, the processing unit, for by the 5th mode determine that the network equipment indicates it is described poly-
Close the data transfer direction of each time-domain resource unit in time-domain resource unit and the time domain where first configured information
The data transfer direction of resource unit;Wherein, the 5th mode is:Indicate the time domain money where first configured information
The data transfer direction of source unit.
Alternatively, the processing unit, for by first method determine that the network equipment indicates it is described poly-
Close the quantity of the continuous symbol in time-domain resource unit in each time-domain resource unit shared by descending control area, up control
The quantity of continuous symbol shared by the quantity of continuous symbol shared by region processed and data transmission region;Wherein, institute
Stating first method is:Indicate described polymerize in time-domain resource unit in a time-domain resource unit shared by descending control area
The quantity of continuous symbol, shared by the quantity of continuous symbol shared by upload control region and data transmission region
The quantity of continuous symbol.
Alternatively, the receiving unit, is additionally operable to receive the network equipment and passes through the common control information or described
Second configured information that the specific control information of terminal is sent;Wherein, second configured information is used to indicate the time domain
The quantity of continuous symbol in sets of resource units shared by protection interval GP regions.
Alternatively, the receiving unit, is additionally operable to receive the network equipment and passes through the common control information or described
The 3rd configured information that the specific control information of terminal is sent;Wherein, the 3rd configured information is used to indicate the time domain
Time span corresponding to a symbol in sets of resource units.It can be seen that the scheme that the embodiment of the present invention is provided can also be flexible
It is determined that the length of time shared by each symbol, further increases each time-domain resource unit in time-domain resource unit set
The flexibility of structure.
Alternatively, the receiving unit, is additionally operable to receive the network equipment and passes through the common control information or described
The 4th configured information that the specific control information of terminal is sent;Wherein, when the 4th configured information is used to indicate described N number of
The quantity for total symbol that each time-domain resource unit includes in the resource unit of domain;The processing unit, for according at least to pre-
Sorting between regional, described first refer in each time-domain resource unit for the time-domain resource unit set first arranged
Show information, and the 4th configured information, determine the structure of each time-domain resource unit in the time-domain resource unit set.
Alternatively, the transmission side data of at least one time-domain resource unit in N number of time-domain resource unit be present
The network equipment described in Xiang Weicong to the terminal downlink transmission direction when, the receiving unit, be additionally operable to receive the network
The 5th configured information that equipment is sent by the common control information or the specific control information of the terminal;Wherein,
5th configured information is used to indicate that the data transfer direction is the time migration region in descending time-domain resource unit
The quantity of shared continuous symbol;The time migration region is used to carry out cross jamming measurement;The processing unit, use
Row in each time-domain resource unit according at least to the time-domain resource unit set made an appointment between regional
Sequence, first configured information, and the 5th configured information, determine each time domain money in the time-domain resource unit set
The structure of source unit.This kind of situation is applied to dynamic sensing (sensing) scene, and the measurement signal of correlation is had under the scene
Send and receive process, therefore descending control (DL Ctrl) region and downlink data (DL Data) region under the scene
Between add time migration (offset) region.
Alternatively, the time-domain resource unit set includes first group of time-domain resource unit, first group of time-domain resource list
Member include first time-domain resource unit and first polymerization time-domain resource unit, first polymerization time-domain resource unit with it is described
First time-domain resource unit is continuous and data transfer direction is identical.Alternatively, first group of time-domain resource unit with it is described
K time-domain resource unit is spaced between another group of time-domain resource unit in time-domain resource unit set, wherein the K time domain
Resource unit is located in other time-domain resource unit sets;K is more than or equal to 0;Another group of time-domain resource unit includes at least one
Individual time-domain resource unit.
Alternatively, first configured information is additionally operable to indicate the time domain that the first polymerization time-domain resource unit includes
The quantity M of resource unit1With the quantity K of the time-domain resource unit at interval;Wherein, the M1For the integer more than or equal to 0.Can
Selection of land, another group of time-domain resource unit include the second polymerization time-domain resource unit, and first configured information is additionally operable to refer to
Show the quantity M for the time-domain resource unit that the second polymerization time-domain resource unit includes2, M2For the integer more than or equal to 0.
Alternatively, the processing unit, determine that the network equipment indicates by the 6th mode for the terminal
The first polymerization time-domain resource unit in each time-domain resource unit data transfer direction and the first instruction letter
The data transfer direction of time-domain resource unit where ceasing;Wherein, the 6th mode is:Indicate first configured information
The data transfer direction of the time-domain resource unit at place.
Alternatively, the processing unit, determine that the network equipment indicates by second method for the terminal
The first polymerization time-domain resource unit in continuous symbol in each time-domain resource unit shared by descending control area
Quantity, the quantity of continuous symbol shared by upload control region and the continuous symbol shared by data transmission region
Quantity;Wherein, the second method is:Under indicating in the first polymerization time-domain resource unit in a time-domain resource unit
The quantity and data of continuous symbol shared by the quantity of continuous symbol shared by row control area, upload control region
The quantity of continuous symbol shared by transmission region.
Alternatively, the processing unit, determine that the network equipment indicates by Third Way for the terminal
The M2The data transfer direction of each time-domain resource unit in individual first polymerization time-domain resource unit;Wherein, the described 3rd
Mode is:Indicate the data transfer direction of a time-domain resource unit in the second polymerization time-domain resource unit.
Alternatively, the processing unit, determine that the network equipment indicates by fourth way for the terminal
The second polymerization time-domain resource unit in each time-domain resource unit data transfer direction and each time-domain resource list
The quantity of continuous symbol shared by the quantity of continuous symbol in member shared by descending control area, upload control region
With the quantity of the continuous symbol shared by data transmission region;Wherein, the fourth way is:Indicate second polymerization
The data transfer direction of time-domain resource unit and the continuous symbol shared by descending control area in time-domain resource unit
Number quantity, the quantity of continuous symbol shared by upload control region and the continuous symbol shared by data transmission region
Quantity.
Alternatively some further features in the embodiment of the present invention are identical with above method embodiment, reference can be made to above-mentioned
Discussion in embodiment of the method, will not be repeated here.
Based on same idea, Fig. 5 illustrates another kind provided in an embodiment of the present invention and is used for time-domain resource unit
The structural representation of the network equipment of collecting structure, the network equipment for being used for time-domain resource unit set structure are used to perform
Embodiment of the method is stated, suitable for the time-domain resource unit set including N number of time-domain resource unit;N is more than or equal to 1
Integer.As shown in figure 5, the network equipment 500 for being used for time-domain resource unit set structure includes processor 501 and transceiver
505, alternatively, in addition to memory 502 and communication interface 503, wherein, processor 501, memory 502, communication interface 503
It is connected with each other with transceiver 505 by bus 504;Memory can be integrated in the processor, can also be independently of described
Processor.
Bus can be Peripheral Component Interconnect standard (peripheral component interconnect, abbreviation PCI)
Bus or EISA (extended industry standard architecture, abbreviation EISA) bus
Deng.Bus can be divided into address bus, data/address bus, controlling bus etc..For ease of representing, only represented in Fig. 5 with a thick line,
It is not intended that only a bus or a type of bus.
Memory can include volatile memory (volatile memory), such as random access memory
(random-access memory, abbreviation RAM);Memory can also include nonvolatile memory (non-volatile
), such as flash memory (flash memory), hard disk (hard disk drive, abbreviation HDD) or solid state hard disc memory
(solid-state drive, abbreviation SSD);Memory 502 can also include the combination of the memory of mentioned kind.
Communication interface can be wire communication access port, wireless communication interface or its combination, wherein, wired communication interface example
It such as can be Ethernet interface.Ethernet interface can be optical interface, electrical interface or its combination.Wireless communication interface can be
WLAN interface.
Processor can be central processing unit (central processing unit, abbreviation CPU), network processing unit
(network processor, abbreviation NP) or CPU and NP combination.
Processor can further include hardware chip.Above-mentioned hardware chip can be application specific integrated circuit
(application-specific integrated circuit, abbreviation ASIC), PLD
(programmable logic device, abbreviation PLD) or its combination.Above-mentioned PLD can be CPLD
(complex programmable logic device, abbreviation CPLD), field programmable gate array (field-
Programmable gate array, abbreviation FPGA), GAL (generic array logic, abbreviation GAL) or
It is combined.
Processor, for generating the first configured information;Wherein, first configured information is used to indicate the time-domain resource
The quantity of continuous symbol in each time-domain resource unit in unit set shared by descending control area, upload control area
The quantity of continuous symbol shared by the quantity of continuous symbol shared by domain and data transmission region, and each time domain
The data transfer direction of resource unit;Transceiver, for by the common control information in the time-domain resource unit set or
The specific control information of terminal sends first configured information to terminal;
Wherein, the common control information and the specific control information of the terminal are carried on the time-domain resource unit set
First time-domain resource unit the descending control area shared by continuous symbol on.
Alternatively, the time-domain resource unit set includes polymerizeing time-domain resource unit, the polymerization time-domain resource unit
Time-domain resource unit is continuous and data transfer direction is identical with described first;Wherein, the M is more than or equal to 0 and is less than
Integer equal to N-1;First configured information is additionally operable to indicate the time-domain resource that the polymerization time-domain resource unit includes
The quantity M of unit.
Alternatively, the processor, for indicating the polymerization time-domain resource list to the terminal by the 5th mode
The number of the data transfer direction of each time-domain resource unit and the time-domain resource unit where first configured information in member
According to transmission direction;Wherein, the 5th mode is:Indicate the data of the time-domain resource unit where first configured information
Transmission direction.
Alternatively, the processor, for indicating the polymerization time-domain resource list to the terminal by first method
Shared by the quantity of continuous symbol in member in each time-domain resource unit shared by descending control area, upload control region
Continuous symbol quantity and data transmission region shared by continuous symbol quantity;Wherein, the first method is:
Indicate the continuous symbol in a time-domain resource unit shared by descending control area in the polymerization time-domain resource unit
Quantity, the quantity of continuous symbol shared by upload control region and the continuous symbol shared by data transmission region
Quantity.
Alternatively, memory can be also used for storage program instruction, and processor calls the program stored in the memory to refer to
Order, can perform the scheme in above method embodiment, than scheme as shown in Figure 2.
Alternatively, the processor, it is additionally operable to generate the second configured information;Wherein, second configured information is used to refer to
Show the quantity of the continuous symbol in the time-domain resource unit set shared by protection interval GP regions.Alternatively, the receipts
Device is sent out, is additionally operable to send second finger to the terminal by the common control information or the specific control information of the terminal
Show information.
Alternatively, the processor, it is additionally operable to generate the 3rd configured information;Wherein, the 3rd configured information is used to refer to
Show time span corresponding to a symbol in the time-domain resource unit set.Alternatively, transceiver, it is additionally operable to by the public affairs
Control information or the specific control information of the terminal send the 3rd configured information to the terminal altogether.It can be seen that the present invention is real
Applying the scheme that example is provided can also flexibly determine the length of time shared by each symbol, further increase time-domain resource list
The flexibility of the structure of each time-domain resource unit in member set.
Alternatively, the processor, it is additionally operable to generate the 4th configured information;Wherein, the 4th configured information is used to refer to
Show the quantity of total symbol that each time-domain resource unit includes in N number of time-domain resource unit;The transceiver, is additionally operable to
4th configured information is sent to the terminal by the common control information or the specific control information of the terminal.
Alternatively, the transmission side data of at least one time-domain resource unit in N number of time-domain resource unit be present
The network equipment described in Xiang Weicong to the terminal downlink transmission direction when, the processor, be additionally operable to generation the 5th instruction letter
Breath;Wherein, the 5th configured information is used to indicate that the data transfer direction is the time in descending time-domain resource unit
The quantity of continuous symbol shared by offset area;The time migration region is used to carry out cross jamming measurement;The receipts
Device is sent out, is additionally operable to send the five fingers to the terminal by the common control information or the specific control information of the terminal
Show information.This kind of situation is applied to dynamic sensing (sensing) scene, and the transmission of the measurement signal of correlation is had under the scene
And receive process, therefore increase between descending control (DL Ctrl) region and downlink data (DL Data) region under the scene
Time migration (offset) region is added.
Alternatively, the time-domain resource unit set includes first group of time-domain resource unit, first group of time-domain resource list
Member include first time-domain resource unit and first polymerization time-domain resource unit, first polymerization time-domain resource unit with it is described
First time-domain resource unit is continuous and data transfer direction is identical.Alternatively, first group of time-domain resource unit with it is described
K time-domain resource unit is spaced between another group of time-domain resource unit in time-domain resource unit set, wherein the K time domain
Resource unit is located in other time-domain resource unit sets;K is more than or equal to 0;Another group of time-domain resource unit includes at least one
Individual time-domain resource unit.
Alternatively, first configured information is additionally operable to indicate the time domain that the first polymerization time-domain resource unit includes
The quantity M of resource unit1With the quantity K of the time-domain resource unit at interval;Wherein, the M1For the integer more than or equal to 0.Can
Selection of land, another group of time-domain resource unit include the second polymerization time-domain resource unit, and first configured information is additionally operable to refer to
Show the quantity M for the time-domain resource unit that the second polymerization time-domain resource unit includes2, M2For the integer more than or equal to 0.
Alternatively, the processor, for indicating that the first polymerization time domain provides to the terminal by the 6th mode
The data transfer direction of each time-domain resource unit and the time-domain resource unit where first configured information in source unit
Data transfer direction;Wherein, the 6th mode is:Indicate the time-domain resource unit where first configured information
Data transfer direction.
Alternatively, the processor, for indicating that the first polymerization time domain provides to the terminal by second method
The quantity of continuous symbol in source unit in each time-domain resource unit shared by descending control area, upload control region institute
The quantity of continuous symbol shared by the quantity of the continuous symbol taken and data transmission region;Wherein, the second party
Formula is:Indicate the company in a time-domain resource unit shared by descending control area in the first polymerization time-domain resource unit
It is continuous shared by the quantity of continuous symbol shared by the quantity of continuous symbol, upload control region and data transmission region
Symbol quantity.
Alternatively, the processor, for indicating the M to the terminal by Third Way2During individual first polymerization
The data transfer direction of each time-domain resource unit in the resource unit of domain;Wherein, the Third Way is:Indicate described second
It polymerize the data transfer direction of a time-domain resource unit in time-domain resource unit;
Alternatively, the processor, for indicating that the second polymerization time domain provides to the terminal by fourth way
In source unit in the data transfer direction of each time-domain resource unit and each time-domain resource unit shared by descending control area
Shared by the quantity of continuous symbol shared by the quantity of continuous symbol, upload control region and data transmission region
Continuous symbol quantity;Wherein, the fourth way is:When indicating in the second polymerization time-domain resource unit one
The quantity of continuous symbol shared by the data transfer direction of domain resource unit and descending control area, upload control region
The quantity of continuous symbol shared by the quantity of shared continuous symbol and data transmission region.
Alternatively some further features in the embodiment of the present invention are identical with above method embodiment, reference can be made to above-mentioned
Discussion in embodiment of the method, will not be repeated here.
Based on same idea, Fig. 6 illustrates another kind provided in an embodiment of the present invention and is used for time-domain resource unit
The structural representation of the terminal of collecting structure, the terminal for being used for time-domain resource unit set structure are used to perform above method reality
Example is applied, suitable for the time-domain resource unit set including N number of time-domain resource unit;N is the integer more than or equal to 1.Such as
Shown in Fig. 6, the network equipment 600 for being used for time-domain resource unit set structure includes processor 601 and transceiver 605, optional
Ground, in addition to memory 602 and communication interface 603, wherein, processor 601, memory 602, communication interface 603 and transceiver
605 are connected with each other by bus 604;
Bus can be Peripheral Component Interconnect standard (peripheral component interconnect, abbreviation PCI)
Bus or EISA (extended industry standard architecture, abbreviation EISA) bus
Deng.Bus can be divided into address bus, data/address bus, controlling bus etc..For ease of representing, only represented in Fig. 6 with a thick line,
It is not intended that only a bus or a type of bus.
Memory can include volatile memory (volatile memory), such as random access memory
(random-access memory, abbreviation RAM);Memory can also include nonvolatile memory (non-volatile
), such as flash memory (flash memory), hard disk (hard disk drive, abbreviation HDD) or solid state hard disc memory
(solid-state drive, abbreviation SSD);Memory 502 can also include the combination of the memory of mentioned kind.
Communication interface can be wire communication access port, wireless communication interface or its combination, wherein, wired communication interface example
It such as can be Ethernet interface.Ethernet interface can be optical interface, electrical interface or its combination.Wireless communication interface can be
WLAN interface.
Processor can be central processing unit (central processing unit, abbreviation CPU), network processing unit
(network processor, abbreviation NP) or CPU and NP combination.
Processor can further include hardware chip.Above-mentioned hardware chip can be application specific integrated circuit
(application-specific integrated circuit, abbreviation ASIC), PLD
(programmable logic device, abbreviation PLD) or its combination.Above-mentioned PLD can be CPLD
(complex programmable logic device, abbreviation CPLD), field programmable gate array (field-
Programmable gate array, abbreviation FPGA), GAL (generic array logic, abbreviation GAL) or
It is combined.
Processor, for generating the first configured information;Wherein, first configured information is used to indicate the time-domain resource
The quantity of continuous symbol in each time-domain resource unit in unit set shared by descending control area, upload control area
The quantity of continuous symbol shared by the quantity of continuous symbol shared by domain and data transmission region, and each time domain
The data transfer direction of resource unit;Transceiver, for by the common control information in the time-domain resource unit set or
The specific control information of terminal sends first configured information to terminal;
Wherein, the common control information and the specific control information of the terminal are carried on the time-domain resource unit set
First time-domain resource unit the descending control area shared by continuous symbol on.
Alternatively, memory can be also used for storage program instruction, and processor calls the program stored in the memory to refer to
Order, can perform the scheme in above method embodiment, than scheme as shown in Figure 2.
Alternatively, the time-domain resource unit set includes polymerizeing time-domain resource unit, the polymerization time-domain resource unit
Time-domain resource unit is continuous and data transfer direction is identical with described first;Wherein, the M is more than or equal to 0 and is less than
Integer equal to N-1;First configured information is additionally operable to indicate the time-domain resource that the polymerization time-domain resource unit includes
The quantity M of unit.
Alternatively, the processor, for determining the polymerization that the network equipment indicates by the 5th mode
The data transfer direction of each time-domain resource unit and the time domain money where first configured information in time-domain resource unit
The data transfer direction of source unit;Wherein, the 5th mode is:Indicate the time-domain resource where first configured information
The data transfer direction of unit.
Alternatively, the processor, for determining the polymerization that the network equipment indicates by first method
Quantity, the upload control of continuous symbol in time-domain resource unit in each time-domain resource unit shared by descending control area
The quantity of continuous symbol shared by the quantity of continuous symbol shared by region and data transmission region;Wherein, it is described
First method is:Indicate described polymerize in time-domain resource unit in a time-domain resource unit shared by descending control area
Company shared by the quantity of continuous symbol shared by the quantity of continuous symbol, upload control region and data transmission region
The quantity of continuous symbol.
Transceiver, for receive the network equipment by by the common control information in the time-domain resource unit set or
The first configured information that the specific control information of terminal is sent;Wherein, first configured information is used to indicate the time-domain resource
The quantity of continuous symbol in each time-domain resource unit in unit set shared by descending control area, upload control area
The quantity of continuous symbol shared by the quantity of continuous symbol shared by domain and data transmission region, and each time domain
The data transfer direction of resource unit;Processor, for according at least to the every of the time-domain resource unit set made an appointment
Sequence in individual time-domain resource unit between regional, and first configured information, determine the time-domain resource unit
The structure of each time-domain resource unit in set;Wherein, the common control information and the specific control information carrying of the terminal
In the continuous symbol shared by the descending control area of first time-domain resource unit of the time-domain resource unit set
On number.
Alternatively, the transceiver, is additionally operable to receive the network equipment and passes through the common control information or the end
Second configured information for holding specific control information to send;Wherein, second configured information is used to indicate the time domain money
The quantity of continuous symbol in source unit set shared by protection interval GP regions.
Alternatively, the transceiver, is additionally operable to receive the network equipment and passes through the common control information or the end
The 3rd configured information for holding specific control information to send;Wherein, the 3rd configured information is used to indicate the time domain money
Time span corresponding to a symbol in source unit set.It can be seen that the scheme that the embodiment of the present invention is provided can also flexibly really
The length of time shared by fixed each symbol, further increase the knot of each time-domain resource unit in time-domain resource unit set
The flexibility of structure.
Alternatively, the transceiver, is additionally operable to receive the network equipment and passes through the common control information or the end
The 4th configured information for holding specific control information to send;Wherein, the 4th configured information is used to indicate N number of time domain
The quantity for total symbol that each time-domain resource unit includes in resource unit;The processor, for according at least to appointing in advance
Sorting between regional, the first instruction letter in each time-domain resource unit of the fixed time-domain resource unit set
Breath, and the 4th configured information, determine the structure of each time-domain resource unit in the time-domain resource unit set.
Alternatively, the transmission side data of at least one time-domain resource unit in N number of time-domain resource unit be present
The network equipment described in Xiang Weicong to the terminal downlink transmission direction when, the transceiver is additionally operable to receive the network and set
Standby the 5th configured information sent by the common control information or the specific control information of the terminal;Wherein, institute
The 5th configured information is stated to be used to indicate the data transfer direction for the time migration region institute in descending time-domain resource unit
The quantity of the continuous symbol taken;The time migration region is used to carry out cross jamming measurement;The processor, for extremely
Sequence, institute in few each time-domain resource unit according to the time-domain resource unit set made an appointment between regional
The first configured information, and the 5th configured information are stated, determines each time-domain resource list in the time-domain resource unit set
The structure of member.This kind of situation is applied to dynamic sensing (sensing) scene, and the hair of the measurement signal of correlation is had under the scene
Send and receive process, therefore between descending control (DL Ctrl) region and downlink data (DL Data) region under the scene
Add time migration (offset) region.
Alternatively, the time-domain resource unit set includes first group of time-domain resource unit, first group of time-domain resource list
Member include first time-domain resource unit and first polymerization time-domain resource unit, first polymerization time-domain resource unit with it is described
First time-domain resource unit is continuous and data transfer direction is identical.Alternatively, first group of time-domain resource unit with it is described
K time-domain resource unit is spaced between another group of time-domain resource unit in time-domain resource unit set, wherein the K time domain
Resource unit is located in other time-domain resource unit sets;K is more than or equal to 0;Another group of time-domain resource unit includes at least one
Individual time-domain resource unit.
Alternatively, first configured information is additionally operable to indicate the time domain that the first polymerization time-domain resource unit includes
The quantity M of resource unit1With the quantity K of the time-domain resource unit at interval;Wherein, the M1For the integer more than or equal to 0.Can
Selection of land, another group of time-domain resource unit include the second polymerization time-domain resource unit, and first configured information is additionally operable to refer to
Show the quantity M for the time-domain resource unit that the second polymerization time-domain resource unit includes2, M2For the integer more than or equal to 0.
Alternatively, the processor, for determine that the network equipment indicates by the 6th mode described first
Polymerize the data transfer direction of each time-domain resource unit in time-domain resource unit and where first configured information when
The data transfer direction of domain resource unit;Wherein, the 6th mode is:Indicate the time domain where first configured information
The data transfer direction of resource unit.
Alternatively, the processor, for determine that the network equipment indicates by second method described first
It polymerize the quantity, up of the continuous symbol in time-domain resource unit in each time-domain resource unit shared by descending control area
The quantity of continuous symbol shared by the quantity of continuous symbol shared by control area and data transmission region;Wherein,
The second method is:Indicate that described first polymerize in time-domain resource unit descending control area in a time-domain resource unit
The quantity of continuous symbol shared by the quantity of shared continuous symbol, upload control region and data transmission region institute
The quantity of the continuous symbol taken.
Alternatively, the processor, for determining the M that the network equipment indicates by Third Way2It is individual
The data transfer direction of each time-domain resource unit in first polymerization time-domain resource unit;Wherein, the Third Way is:Instruction
Go out the data transfer direction of a time-domain resource unit in the second polymerization time-domain resource unit.
Alternatively, the processor, for determine that the network equipment indicates by fourth way described second
It polymerize in time-domain resource unit descending control in each data transfer direction of time-domain resource unit and each time-domain resource unit
The quantity and data transfer of continuous symbol shared by the quantity of continuous symbol shared by region processed, upload control region
The quantity of continuous symbol shared by region;Wherein, the fourth way is:Indicate the second polymerization time-domain resource list
The quantity of the data transfer direction of time-domain resource unit and the continuous symbol shared by descending control area in member, on
The quantity of continuous symbol shared by the quantity of continuous symbol shared by row control area and data transmission region.
Alternatively some further features in the embodiment of the present invention are identical with above method embodiment, reference can be made to above-mentioned
Discussion in embodiment of the method, will not be repeated here.
It should be understood by those skilled in the art that, embodiments of the invention can be provided as method or computer program product.
Therefore, the present invention can be using the embodiment in terms of complete hardware embodiment, complete software embodiment or combination software and hardware
Form.Deposited moreover, the present invention can use to can use in one or more computers for wherein including computer usable program code
The shape for the computer program product that storage media is implemented on (including but is not limited to magnetic disk storage, CD-ROM, optical memory etc.)
Formula.
The present invention is the flow with reference to method according to embodiments of the present invention, equipment (system) and computer program product
Figure and/or block diagram describe.It should be understood that can be by every first-class in computer program instructions implementation process figure and/or block diagram
Journey and/or the flow in square frame and flow chart and/or block diagram and/or the combination of square frame.These computer programs can be provided
The processors of all-purpose computer, special-purpose computer, Embedded Processor or other programmable data processing devices is instructed to produce
A raw machine so that produced by the instruction of computer or the computing device of other programmable data processing devices for real
The device for the function of being specified in present one flow of flow chart or one square frame of multiple flows and/or block diagram or multiple square frames.
These computer program instructions, which may be alternatively stored in, can guide computer or other programmable data processing devices with spy
Determine in the computer-readable memory that mode works so that the instruction being stored in the computer-readable memory, which produces, to be included referring to
Make the manufacture of device, the command device realize in one flow of flow chart or multiple flows and/or one square frame of block diagram or
The function of being specified in multiple square frames.
These computer program instructions can be also loaded into computer or other programmable data processing devices so that counted
Series of operation steps is performed on calculation machine or other programmable devices to produce computer implemented processing, so as in computer or
The instruction performed on other programmable devices is provided for realizing in one flow of flow chart or multiple flows and/or block diagram one
The step of function of being specified in individual square frame or multiple square frames.
Although preferred embodiments of the present invention have been described, but those skilled in the art once know basic creation
Property concept, then can make other change and modification to these embodiments.So appended claims be intended to be construed to include it is excellent
Select embodiment and fall into having altered and changing for the scope of the invention.
Obviously, those skilled in the art can carry out the model of various changes and modification without departing from the present invention to the present invention
Enclose.So, if these modifications and variations of the present invention belong within the scope of the claims in the present invention and its equivalent technologies, then
The present invention is also intended to comprising including these changes and modification.
Claims (30)
- A kind of 1. determination method of time-domain resource unit set structure, it is characterised in that the time-domain resource unit set includes N Individual time-domain resource unit;N is the integer more than or equal to 1;Methods described includes:The network equipment generates the first configured information;Wherein, first configured information is used to indicate the time-domain resource unit collection Shared by the quantity of continuous symbol in each time-domain resource unit in conjunction shared by descending control area, upload control region The quantity of continuous symbol shared by the quantity of continuous symbol and data transmission region, and each time-domain resource list The data transfer direction of member;The network equipment by the common control information in the time-domain resource unit set or the specific control information of terminal to Terminal sends first configured information;Wherein, the common control information and the specific control information of the terminal are carried on institute State on the continuous symbol shared by the descending control area of first time-domain resource unit of time-domain resource unit set.
- 2. the method as described in claim 1, it is characterised in that the time-domain resource unit set includes polymerizeing time-domain resource Unit, the polymerization time-domain resource unit with described first time-domain resource unit is continuous and data transfer direction is identical;Described One configured information is additionally operable to indicate the quantity M of time-domain resource unit in the polymerization time-domain resource unit;The M is to be more than or wait In 0 and less than or equal to N-1 integer;The network equipment indicates that each time domain provides in the polymerization time-domain resource unit by first method to the terminal Continuous symbol shared by the quantity of continuous symbol in source unit shared by descending control area, upload control region The quantity of continuous symbol shared by quantity and data transmission region;Wherein, the first method is:Indicate descending control in a time-domain resource unit in the polymerization time-domain resource unit The quantity and data transfer of continuous symbol shared by the quantity of continuous symbol shared by region processed, upload control region The quantity of continuous symbol shared by region.
- 3. method as claimed in claim 1 or 2, it is characterised in that also include:The network equipment generates the second configured information;Wherein, second configured information is used to indicate the time-domain resource list The quantity of continuous symbol in member set shared by protection interval GP regions;The network equipment passes through described in the common control information or the specific control information of the terminal to terminal transmission Second configured information.
- 4. the method as described in claims 1 to 3 any claim, it is characterised in that also include:The network equipment generates the 3rd configured information;Wherein, the 3rd configured information is used to indicate the time-domain resource list Time span corresponding to a symbol in member set;The network equipment passes through described in the common control information or the specific control information of the terminal to terminal transmission 3rd configured information.
- 5. the method as described in Claims 1-4 any claim, it is characterised in that also include:The network equipment generates the 4th configured information;Wherein, the 4th configured information is used to indicate N number of time-domain resource The quantity for total symbol that each time-domain resource unit includes in unit;The network equipment passes through described in the common control information or the specific control information of the terminal to terminal transmission 4th configured information.
- 6. the method as described in claim 1 to 5 any claim, it is characterised in that deposited in N number of time-domain resource unit It is from the network equipment to the downlink transfer of the terminal in the data transfer direction of at least one time-domain resource unit During direction, in addition to:The network equipment generates the 5th configured information;Wherein, the 5th configured information is used to indicate the transmission side data The quantity of the continuous symbol shared by time migration region in for descending time-domain resource unit;The network equipment passes through described in the common control information or the specific control information of the terminal to terminal transmission 5th configured information.
- 7. the method as described in claim 1, it is characterised in that the time-domain resource unit set includes first group of time-domain resource Unit, first group of time-domain resource unit include first time-domain resource unit and the first polymerization time-domain resource unit, the One polymerization time-domain resource unit with described first time-domain resource unit is continuous and data transfer direction is identical;Between between another group of time-domain resource unit in first group of time-domain resource unit and the time-domain resource unit set Every K time-domain resource unit, wherein the K time-domain resource unit is located in other time-domain resource unit sets;K is more than or waited In 0;Another group of time-domain resource unit includes at least one time-domain resource unit.
- 8. method as claimed in claim 7, it is characterised in that first configured information is additionally operable to indicate first polymerization The quantity M for the time-domain resource unit that time-domain resource unit includes1With the quantity K of the time-domain resource unit at interval;Wherein, it is described M1For the integer more than or equal to 0.
- 9. method as claimed in claim 8, it is characterised in that another group of time-domain resource unit includes the second polymerization time domain Resource unit, first configured information are additionally operable to the time-domain resource unit that the polymerization time-domain resource unit of instruction second includes Quantity M2, M2For the integer more than or equal to 0.
- 10. the method as described in claim 7 to 9 any claim, it is characterised in that the network equipment passes through second party Formula indicates that described first polymerize in time-domain resource unit descending control area institute in each time-domain resource unit to the terminal Shared by the quantity of continuous symbol shared by the quantity of continuous symbol that takes, upload control region and data transmission region The quantity of continuous symbol;Wherein, the second method is:Under indicating in the first polymerization time-domain resource unit in a time-domain resource unit The quantity and data of continuous symbol shared by the quantity of continuous symbol shared by row control area, upload control region The quantity of continuous symbol shared by transmission region.
- 11. method as claimed in claim 9, it is characterised in that the network equipment is referred to by Third Way to the terminal The data transfer direction of each time-domain resource unit in the second polymerization time-domain resource unit is shown;Wherein, the third party Formula is:Indicate the transmission direction of a time-domain resource unit in the second polymerization time-domain resource unit;Or;The network equipment by fourth way to the terminal indicate it is described second polymerization time-domain resource unit in it is each when Continuous symbol in the data transfer direction of domain resource unit and each time-domain resource unit shared by descending control area The number of continuous symbol shared by the quantity of continuous symbol shared by quantity, upload control region and data transmission region Amount;Wherein, the fourth way is:Indicate the data of a time-domain resource unit in the second polymerization time-domain resource unit Transmission direction, and it is continuous shared by the quantity of continuous symbol shared by descending control area, upload control region The quantity of continuous symbol shared by the quantity of symbol and data transmission region.
- 12. the method as described in claim 1 to 11 any claim, it is characterised in that the common control information carrying Any one in lower channel:DCCH;Resource distribution control channel is carried out by static or semi-static mode;Physical Downlink Control Channel.
- 13. the method as described in claim 1 to 12 any claim, it is characterised in that the data transfer direction be from During the uplink direction that the terminal is transmitted to the network equipment, transmission direction is the time-domain resource list in uplink direction Sequence in member between regional meets following condition:Along time domain direction, the descending control area is followed successively by, the GP regions, the data transfer direction are up described Data transmission region, the upload control region.
- 14. the method as described in claim 1 to 13 any claim, it is characterised in that the data transfer direction be from Downlink transmission direction from the network equipment to the terminal transmission when, transmission direction be downlink transmission direction time-domain resource list Sequence in member between regional meets following condition:Along time domain direction, the descending control area is followed successively by, the data transfer direction is the descending data transfer area Domain, the GP regions and the upload control region;Or;Along time domain direction, the descending control area is followed successively by, time migration region, the data transfer direction are descending institute State data transmission region, the GP regions and the upload control region.
- A kind of 15. determination method of time-domain resource unit set structure, it is characterised in that the time-domain resource unit set includes N number of time-domain resource unit;N is the integer more than or equal to 1;Methods described includes:Terminal receives the network equipment and believed by the specific control of the common control information in the time-domain resource unit set or terminal Cease the first configured information sent;Wherein, first configured information is every in the time-domain resource unit set for indicating It is continuous shared by the quantity of continuous symbol in individual time-domain resource unit shared by descending control area, upload control region Symbol quantity and data transmission region shared by continuous symbol quantity, and data of each time-domain resource unit Transmission direction;The terminal is according at least to each area in each time-domain resource unit for the time-domain resource unit set made an appointment Sequence between domain, and first configured information, determine each time-domain resource unit in the time-domain resource unit set Structure;Wherein, the common control information and the specific control information of the terminal are carried on the time-domain resource unit set First time-domain resource unit the descending control area shared by continuous symbol on.
- 16. method as claimed in claim 15, it is characterised in that the time-domain resource unit set includes polymerizeing time domain money Source unit, the polymerization time-domain resource unit with described first time-domain resource unit is continuous and data transfer direction is identical;Wherein, The M is the integer more than or equal to 0 and less than or equal to N-1;First configured information is additionally operable to indicate the polymerization time domain The quantity M for the time-domain resource unit that resource unit includes;The terminal is determined each in the polymerization time-domain resource unit that the network equipment indicates by first method It is continuous shared by the quantity of continuous symbol in time-domain resource unit shared by descending control area, upload control region The quantity of continuous symbol shared by the quantity of symbol and data transmission region;Wherein, the first method is:Indicate descending control in a time-domain resource unit in the polymerization time-domain resource unit The quantity and data transfer of continuous symbol shared by the quantity of continuous symbol shared by region processed, upload control region The quantity of continuous symbol shared by region.
- 17. the method as described in claim 15 or 16, it is characterised in that the terminal according at least to make an appointment it is described when Sequence in each time-domain resource unit of domain sets of resource units between regional, and first configured information, really In the fixed time-domain resource unit set before the structure of each time-domain resource unit, in addition to:The terminal receives what the network equipment was sent by the common control information or the specific control information of the terminal Second configured information;Wherein, second configured information is used to indicate protection interval in the time-domain resource unit set The quantity of continuous symbol shared by GP regions;The terminal is according at least to each area in each time-domain resource unit for the time-domain resource unit set made an appointment Sequence between domain, and first configured information, determine each time-domain resource unit in the time-domain resource unit set Structure, including:The terminal is according at least to each area in each time-domain resource unit for the time-domain resource unit set made an appointment Sequence between domain, and first configured information and second configured information, determine the time-domain resource unit set In each time-domain resource unit structure.
- 18. the method as described in claim 15 to 17 any claim, it is characterised in that the terminal is according at least to advance Sequence in each time-domain resource unit of the time-domain resource unit set of agreement between regional, and described first Configured information, determine in the time-domain resource unit set before the structure of each time-domain resource unit, in addition to:The terminal receives what the network equipment was sent by the common control information or the specific control information of the terminal 3rd configured information;Wherein, the 3rd configured information is used to indicate a symbol in the time-domain resource unit set Corresponding time span;The terminal is according at least to each area in each time-domain resource unit for the time-domain resource unit set made an appointment Sequence between domain, and first configured information, determine each time-domain resource unit in the time-domain resource unit set Structure, including:The terminal is according at least to each area in each time-domain resource unit for the time-domain resource unit set made an appointment Sequence between domain, and first configured information and the 3rd configured information, determine the time-domain resource unit set In each time-domain resource unit structure.
- 19. the method as described in claim 15 to 18 any claim, it is characterised in that the terminal is according at least to advance Sequence in each time-domain resource unit of the time-domain resource unit set of agreement between regional, and described first Configured information, determine in the time-domain resource unit set before the structure of each time-domain resource unit, in addition to:The terminal receives what the network equipment was sent by the common control information or the specific control information of the terminal 4th configured information;Wherein, the 4th configured information is used to indicate each time domain money in N number of time-domain resource unit The quantity for total symbol that source unit includes;The terminal is according at least to each area in each time-domain resource unit for the time-domain resource unit set made an appointment Sequence between domain, and first configured information, determine each time-domain resource unit in the time-domain resource unit set Structure, including:The terminal is according at least to each area in each time-domain resource unit for the time-domain resource unit set made an appointment Sorting between domain, first configured information, and the 4th configured information, are determined in the time-domain resource unit set The structure of each time-domain resource unit.
- 20. the method as described in claim 15 to 19 any claim, it is characterised in that N number of time-domain resource unit The middle data transfer direction that at least one time-domain resource unit be present is descending from the network equipment to the terminal During transmission direction, the terminal is according at least in each time-domain resource unit for the time-domain resource unit set made an appointment Sequence between regional, and first configured information, determine each time domain money in the time-domain resource unit set Before the structure of source unit, in addition to:The terminal receives the network equipment and sent by the common control information or the specific control information of the terminal The 5th configured information;Wherein, the 5th configured information is used to indicate that the data transfer direction is descending time domain The quantity of the continuous symbol shared by time migration region in resource unit;The terminal is according at least to each area in each time-domain resource unit for the time-domain resource unit set made an appointment Sequence between domain, and first configured information, determine each time-domain resource unit in the time-domain resource unit set Structure, including:The terminal is according at least to each area in each time-domain resource unit for the time-domain resource unit set made an appointment Sorting between domain, first configured information, and the 5th configured information, are determined in the time-domain resource unit set The structure of each time-domain resource unit.
- 21. method as claimed in claim 15, it is characterised in that the time-domain resource unit set includes first group of time domain and provided Source unit, first group of time-domain resource unit include first time-domain resource unit and the first polymerization time-domain resource unit, First polymerization time-domain resource unit with described first time-domain resource unit is continuous and data transfer direction is identical;Between between another group of time-domain resource unit in first group of time-domain resource unit and the time-domain resource unit set Every K time-domain resource unit, wherein the K time-domain resource unit is located in other time-domain resource unit sets;K is more than or waited In 0;Another group of time-domain resource unit includes at least one time-domain resource unit.
- 22. method as claimed in claim 21, it is characterised in that first configured information is additionally operable to indicate that described first is poly- Close the quantity M for the time-domain resource unit that time-domain resource unit includes1With the quantity K of the time-domain resource unit at interval;Wherein, institute State M1For the integer more than or equal to 0.
- 23. method as claimed in claim 22, it is characterised in that when another group of time-domain resource unit includes the second polymerization Domain resource unit, first configured information are additionally operable to the time-domain resource unit that the polymerization time-domain resource unit of instruction second includes Quantity M2, M2For the integer more than or equal to 0.
- 24. the method as described in claim 21 to 23 any claim, it is characterised in that the terminal passes through second method Determine descending control in each time-domain resource unit in the first polymerization time-domain resource unit that the network equipment indicates The quantity and data transfer of continuous symbol shared by the quantity of continuous symbol shared by region processed, upload control region The quantity of continuous symbol shared by region;Wherein, the second method is:Under indicating in the first polymerization time-domain resource unit in a time-domain resource unit The quantity and data of continuous symbol shared by the quantity of continuous symbol shared by row control area, upload control region The quantity of continuous symbol shared by transmission region.
- 25. method as claimed in claim 23, it is characterised in that the terminal determines that the network is set by Third Way The standby M indicated2The data transfer direction of each time-domain resource unit and institute in individual first polymerization time-domain resource unit State the data transfer direction of the time-domain resource unit where the first configured information;Wherein, the Third Way is:Indicate described The data transfer direction of time-domain resource unit where first configured information;Or;The terminal is determined by fourth way in the second polymerization time-domain resource unit that the network equipment indicates It is continuous shared by descending control area in the data transfer direction and each time-domain resource unit of each time-domain resource unit The quantity of symbol, the quantity of continuous symbol shared by upload control region and continuous shared by data transmission region The quantity of symbol;Wherein, the fourth way is:Indicate a time-domain resource list in the second polymerization time-domain resource unit The data transfer direction of member and in the quantity of continuous symbol shared by descending control area, shared by upload control region Continuous symbol quantity and data transmission region shared by continuous symbol quantity.
- 26. the method as described in claim 15 to 25 any claim, it is characterised in that the common control information carrying In with lower channel any one or appoint it is several:With any one in lower channel:DCCH;Resource distribution control channel is carried out by static or semi-static mode;Physical Downlink Control Channel.
- 27. the method as described in claim 15 to 26 any claim, it is characterised in that the data transfer direction be from During the uplink direction that the terminal is transmitted to the network equipment, transmission direction is the time-domain resource list in uplink direction Sequence in member between regional meets following condition:Along time domain direction, the descending control area is followed successively by, the GP regions, the data transfer direction are up described Data transmission region, the upload control region.
- 28. the method as described in claim 15 to 27 any claim, it is characterised in that characterized in that, the data When transmission direction is from the network equipment to the downlink transmission direction of the terminal transmission, transmission direction is downlink transmission direction Time-domain resource unit in sequence between regional meet following condition:Along time domain direction, the descending control area is followed successively by, the data transfer direction is the descending data transfer area Domain, the GP regions and the upload control region;Or;Along time domain direction, the descending control area is followed successively by, time migration region, the data transfer direction are descending institute State data transmission region, the GP regions and the upload control region.
- 29. a kind of network equipment for time-domain resource unit set structure, it is characterised in that suitable for being provided including N number of time domain The time-domain resource unit set of source unit;N is the integer more than or equal to 1;The network equipment includes processor, transmitting-receiving Device and memory;The memory is used for store instruction, and the processor is used for the instruction according to the execution memory storage, and controls The transceiver carries out signal reception and signal is sent, described when the instruction of memory storage described in the computing device Communication equipment is used to perform the method as described in claim 1-14 is any.
- 30. a kind of terminal for time-domain resource unit set structure, it is characterised in that suitable for including N number of time-domain resource list The time-domain resource unit set of member;N is the integer more than or equal to 1;The terminal includes processor, transceiver and storage Device;The memory is used for store instruction, and the processor is used for the instruction according to the execution memory storage, and controls The transceiver carries out signal reception and signal is sent, described when the instruction of memory storage described in the computing device Communication equipment is used to perform the method as described in claim 15-28 is any.
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Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110601733A (en) * | 2018-06-12 | 2019-12-20 | 华为技术有限公司 | Configuration method and device of precoding matrix |
WO2020087456A1 (en) * | 2018-11-01 | 2020-05-07 | 富士通株式会社 | Resource indication method and apparatus as well as communication system |
CN111757479A (en) * | 2019-03-29 | 2020-10-09 | 华为技术有限公司 | Communication method and device |
CN112119600A (en) * | 2018-05-18 | 2020-12-22 | 华为技术有限公司 | Network access node and client device for content type indication |
WO2021023038A1 (en) * | 2019-08-02 | 2021-02-11 | 上海朗桦通信技术有限公司 | Method and device used in wireless communication nodes |
CN112423324A (en) * | 2021-01-22 | 2021-02-26 | 深圳市科思科技股份有限公司 | Wireless intelligent decision communication method, device and system |
WO2021164129A1 (en) * | 2020-02-19 | 2021-08-26 | 华为技术有限公司 | Communication method and device |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20050276339A1 (en) * | 2004-06-09 | 2005-12-15 | Hong Kong Applied Science and Technology Research Institute Company Limited | Training sequence for symbol boundary detection in a multicarrier data transmission system |
CN101483916A (en) * | 2008-01-07 | 2009-07-15 | 大唐移动通信设备有限公司 | Method and apparatus for resource allocation |
CN101695193A (en) * | 2009-09-27 | 2010-04-14 | 上海华为技术有限公司 | Method for sending and receiving downstream data and device thereof |
WO2015068039A3 (en) * | 2013-11-05 | 2015-08-27 | Alcatel Lucent | Method and apparatus for transmitting and obtaining power headroom report |
-
2016
- 2016-09-30 CN CN201610879294.9A patent/CN107889251B/en active Active
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20050276339A1 (en) * | 2004-06-09 | 2005-12-15 | Hong Kong Applied Science and Technology Research Institute Company Limited | Training sequence for symbol boundary detection in a multicarrier data transmission system |
CN101483916A (en) * | 2008-01-07 | 2009-07-15 | 大唐移动通信设备有限公司 | Method and apparatus for resource allocation |
CN101695193A (en) * | 2009-09-27 | 2010-04-14 | 上海华为技术有限公司 | Method for sending and receiving downstream data and device thereof |
WO2015068039A3 (en) * | 2013-11-05 | 2015-08-27 | Alcatel Lucent | Method and apparatus for transmitting and obtaining power headroom report |
Non-Patent Citations (1)
Title |
---|
HUAWEI, HISILICON: "Uplink Power Control", 《3GPP TSG RAN WG1 MEETING #86 R1-167226》 * |
Cited By (14)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112119600B (en) * | 2018-05-18 | 2022-05-24 | 华为技术有限公司 | Network access node and client device for content type indication |
CN112119600A (en) * | 2018-05-18 | 2020-12-22 | 华为技术有限公司 | Network access node and client device for content type indication |
US11558874B2 (en) | 2018-05-18 | 2023-01-17 | Huawei Technologies Co., Ltd. | Network access node and a client device for content type indication |
CN110601733B (en) * | 2018-06-12 | 2021-01-15 | 华为技术有限公司 | Configuration method and device of precoding matrix and computer readable storage medium |
US12021592B2 (en) | 2018-06-12 | 2024-06-25 | Huawei Technologies Co., Ltd. | Precoding matrix configuration method and apparatus |
CN110601733A (en) * | 2018-06-12 | 2019-12-20 | 华为技术有限公司 | Configuration method and device of precoding matrix |
CN112910522A (en) * | 2018-06-12 | 2021-06-04 | 华为技术有限公司 | Configuration method and device of precoding matrix |
CN112910522B (en) * | 2018-06-12 | 2024-03-01 | 华为技术有限公司 | Configuration method and device of precoding matrix |
US11997655B2 (en) | 2018-11-01 | 2024-05-28 | Fujitsu Limited | Resource indication method and apparatus and communication system |
WO2020087456A1 (en) * | 2018-11-01 | 2020-05-07 | 富士通株式会社 | Resource indication method and apparatus as well as communication system |
CN111757479A (en) * | 2019-03-29 | 2020-10-09 | 华为技术有限公司 | Communication method and device |
WO2021023038A1 (en) * | 2019-08-02 | 2021-02-11 | 上海朗桦通信技术有限公司 | Method and device used in wireless communication nodes |
WO2021164129A1 (en) * | 2020-02-19 | 2021-08-26 | 华为技术有限公司 | Communication method and device |
CN112423324A (en) * | 2021-01-22 | 2021-02-26 | 深圳市科思科技股份有限公司 | Wireless intelligent decision communication method, device and system |
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