CN104349349B - A kind of determination method, system and the equipment of cell parameter - Google Patents
A kind of determination method, system and the equipment of cell parameter Download PDFInfo
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- CN104349349B CN104349349B CN201310317574.7A CN201310317574A CN104349349B CN 104349349 B CN104349349 B CN 104349349B CN 201310317574 A CN201310317574 A CN 201310317574A CN 104349349 B CN104349349 B CN 104349349B
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- base station
- station equipment
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W24/00—Supervisory, monitoring or testing arrangements
- H04W24/02—Arrangements for optimising operational condition
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W24/00—Supervisory, monitoring or testing arrangements
- H04W24/10—Scheduling measurement reports ; Arrangements for measurement reports
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W52/00—Power management, e.g. TPC [Transmission Power Control], power saving or power classes
- H04W52/04—TPC
- H04W52/30—TPC using constraints in the total amount of available transmission power
- H04W52/36—TPC using constraints in the total amount of available transmission power with a discrete range or set of values, e.g. step size, ramping or offsets
- H04W52/367—Power values between minimum and maximum limits, e.g. dynamic range
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Abstract
The invention discloses determination method, system and the equipment of a kind of cell parameter, this method comprises: Network Management Equipment, which obtains the corresponding reference symbol of base station equipment, receives power RSRP value;The Network Management Equipment determines the corresponding minimum reception level q-RxLevMin of the base station equipment using the corresponding RSRP value of the base station equipment, the transmission power of the base station equipment and the maximum transmission power of user equipment (UE);The corresponding q-RxLevMin of the base station equipment is sent to the base station equipment by the Network Management Equipment, and the corresponding q-RxLevMin of the base station equipment is sent to the UE by the base station equipment.In the embodiment of the present invention, Network Management Equipment adaptively dynamically adjusts the corresponding q-RxLevMin of base station equipment by the maximum transmission power of the corresponding RSRP value of base station equipment, the transmission power of base station equipment and UE, to guarantee that user can obtain better services perception, local resource is made full use of, user's perception is promoted.
Description
Technical field
The present invention relates to determination method, system and the equipment of field of communication technology more particularly to a kind of cell parameter.
Background technique
In LTE(Long Term Evolution, long term evolution) in system, UE(User Equipment, user equipment)
Need to monitor the signal level of current area and adjacent cell at the idling mode at any time, to select best cell to provide service,
Here it is cell reselection process.In cell reselection process, to avoid UE from accessing LTE in the case where received signal level is very low
System after leading to UE access LTE system, the problems such as can not providing customer satisfaction system communication quality, waste radio resource, needs to set
Set q-RxLevMin(minimum and receive level), q-RxLevMin is the cell reselection parameters in cell reselection process, and q-
RxLevMin requires the reception level of UE that can just access LTE system when having to be larger than the q-RxLevMin.
In the prior art, q-RxLevMin can be set as fixed value.Such as: set q-RxLevMin to the reception spirit of UE
Sensitivity (i.e. relatively low value) or relatively high value.
If setting receiving sensitivity for q-RxLevMin, increase in the network load of this cell and adjacent cell
When, it will there is a situation where users can not carry out business in the cell that can be resident, to bring signal to user but cannot
Poor user's perception such as carry out business, influences user's use feeling.
If setting relatively high value for q-RxLevMin, for light loaded cell, premature may carry out
Alien frequencies or different system gravity treatment increase the burden of Target cell so as to cause being unable to fully using source cell resource, or even can be by
The decline of service-aware is brought in the system that user is in different systems.
Summary of the invention
The embodiment of the present invention provides determination method, system and the equipment of a kind of cell parameter, dynamically to adjust base station equipment
Corresponding q-RxLevMin to make full use of local resource, and promotes user's perception.
In order to achieve the above object, the embodiment of the present invention provides a kind of determination method of cell parameter, this method comprises:
Network Management Equipment obtains the corresponding reference symbol of base station equipment and receives power RSRP value;
The Network Management Equipment utilizes the corresponding RSRP value of the base station equipment, the transmission power of the base station equipment and user
The maximum transmission power of equipment UE determines the corresponding minimum reception level q-RxLevMin of the base station equipment;
The corresponding q-RxLevMin of the base station equipment is sent to the base station equipment by the Network Management Equipment, by the base
The corresponding q-RxLevMin of the base station equipment is sent to the UE by station equipment.
The embodiment of the present invention provides a kind of determination system of cell parameter, which includes:
Network Management Equipment is received power RSRP value for obtaining the corresponding reference symbol of base station equipment, is set using the base station
Standby corresponding RSRP value, the transmission power of the base station equipment and the maximum transmission power of user equipment (UE) determine that the base station is set
Standby corresponding minimum reception level q-RxLevMin, and the corresponding q-RxLevMin of the base station equipment is sent to the base station
Equipment;
Base station equipment for receiving the corresponding q-RxLevMin of this base station equipment from the Network Management Equipment, and incite somebody to action this
The corresponding q-RxLevMin of base station equipment is sent to the UE.
The embodiment of the present invention provides a kind of cell parameter locking equipment really, comprising:
Module is obtained, receives power RSRP value for obtaining the corresponding reference symbol of base station equipment;
Determining module, for using the corresponding RSRP value of the base station equipment, the transmission power of the base station equipment and
The maximum transmission power of user equipment (UE) determines the corresponding minimum reception level q-RxLevMin of the base station equipment;
Sending module, for the corresponding q-RxLevMin of the base station equipment to be sent to the base station equipment, by described
The corresponding q-RxLevMin of the base station equipment is sent to the UE by base station equipment.
Compared with prior art, the embodiment of the present invention has at least the following advantages: in the embodiment of the present invention, Network Management Equipment is logical
The corresponding RSRP(Reference Signal Received Power of base station equipment is crossed, reference symbol receives power) value, base station
The transmission power of equipment and the maximum transmission power of UE adaptively dynamically adjust the corresponding q-RxLevMin of base station equipment, thus
Guarantee that user can obtain better services perception, make full use of local resource, promotes user's perception, and it is excellent to reduce network
Change personnel frequently modify the workload of parameter.Based on aforesaid way, it can be avoided and set receiving sensitivity for q-RxLevMin
When caused user the problem of business can not be carried out in the cell that can be resident, then avoid having brought signal to user but cannot
Poor user's perception such as carry out business;Based on aforesaid way, it can be avoided and set relatively high value for q-RxLevMin
When caused the problems such as being unable to fully using source cell resource, increasing Target cell burden, then avoid being in not due to user
The brought service-aware of system with standard declines problem.
Detailed description of the invention
It, below will be to attached drawing needed in embodiment description in order to illustrate more clearly of technical solution of the present invention
It is briefly described, it should be apparent that, drawings in the following description are only some embodiments of the invention, general for this field
For logical technical staff, without creative efforts, it is also possible to obtain other drawings based on these drawings.
Fig. 1 is a kind of determination method flow schematic diagram for cell parameter that the embodiment of the present invention one provides;
Fig. 2 is a kind of cell parameter locking equipment structural schematic diagram really that the embodiment of the present invention three provides.
Specific embodiment
Below in conjunction with the attached drawing in the present invention, the technical solution in the present invention is clearly and completely described, is shown
So, described embodiment is only a part of the embodiments of the present invention, instead of all the embodiments.Based in the present invention
Embodiment, every other embodiment obtained by those of ordinary skill in the art without making creative efforts, all
Belong to the scope of protection of the invention.
Embodiment one
Aiming at the problems existing in the prior art, the embodiment of the present invention one provides a kind of cell parameter (cell parameter tool
Body can be q-RxLevMin, and by cell parameter be q-RxLevMin for) determination method, Network Management Equipment (such as: OMC
(Operation and Maintenance Center, operation and maintenance center) etc.) receiving sensitivity of UE is utilized at the beginning
Base station equipment initially corresponding q-RxLevMin is set, i.e., by the base station equipment, initially corresponding q-RxLevMin is set as UE's
Receiving sensitivity, such as by the base station equipment, initially corresponding q-RxLevMin is set as -125dBm, i.e. q-RxLevMin's is initial
Value is -125dBm.For example, then Network Management Equipment can choose connecing for 4 UE when having 4 UE in the serving cell of base station equipment
The average value of sensitivity is received as the initial corresponding q-RxLevMin of the base station equipment;Alternatively, Network Management Equipment can choose minimum
UE receiving sensitivity as the initial corresponding q-RxLevMin of the base station equipment;Alternatively, Network Management Equipment can choose maximum
UE receiving sensitivity as the initial corresponding q-RxLevMin of the base station equipment;Details are not described herein for corresponding manner.
Later, the corresponding q-RxLevMin of base station equipment is sent to base station equipment (the i.e. service base of UE by Network Management Equipment
It stands);And the corresponding q-RxLevMin of base station equipment is sent to UE by the base station equipment.Specifically, base station equipment can pass through
SIB1(System Information Block1, system information block 1) q-RxLevMin for corresponding to serving cell is sent to
UE;Alternatively, base station equipment can also pass through SIB5(system information block 5) it will be corresponding to the q- of the adjacent cell of serving cell
RxLevMin is sent to UE.
Network Management Equipment is such as schemed after by base station equipment, initially corresponding q-RxLevMin is set as the receiving sensitivity of UE
Shown in 1, the determination method of the cell parameter the following steps are included:
Step 101, Network Management Equipment obtains the corresponding RSRP value of base station equipment.
In the embodiment of the present invention, Network Management Equipment obtains the corresponding RSRP value of base station equipment, specifically includes:
Step A, Network Management Equipment receives the MR(Measurement Report from base station equipment, measurement report), the survey
The RSRP value that UE is measured and is reported to base station equipment is carried in amount report.
Wherein, base station equipment can periodically report the measurement report for carrying RSRP value, and Network Management Equipment meeting to Network Management Equipment
Periodically receive the measurement report of the carrying RSRP value from base station equipment.For example, base station equipment was set every 15 minutes to network management
It is standby to report the measurement report for carrying RSRP value, it is based on this, Network Management Equipment can be received every 15 minutes from base station equipment
Carry the measurement report of RSRP value.
Step B, the RSRP value that Network Management Equipment selects power headroom from measurement report when being 0;Wherein, power headroom 0
When RSRP value be RSRP value of the UE under maximum transmission power.
Specifically, Network Management Equipment is after the measurement report for receiving the carrying RSRP value from base station equipment, it is periodical from this
RSRP value when to select power headroom in measurement report be 0.If Network Management Equipment was every 15 minutes or 15 minutes integral multiples, from survey
RSRP value when selecting the power headroom to be 0 in amount report.
In the embodiment of the present invention, based on the measurement report from base station equipment, need that Network Management Equipment is made to support two dimensional pointer
Measurement makes Network Management Equipment that the two-dimensional measurement amount of power headroom and RSRP value be supported to count.Based on this, Network Management Equipment is received from base
After the measurement report of the carrying RSRP value of station equipment, it can know RSRP value corresponding to every kind of power headroom, can then obtain
Know RSRP value when power headroom is 0.
Step C, Network Management Equipment carries out ascending sequence to the RSRP value of selection.
Specifically, Network Management Equipment is after RSRP value when to select power headroom in measurement report be 0, more than these power
RSRP value when amount is 0 carries out ascending sequence.
Step D, Network Management Equipment chooses n-th RSRP value as the corresponding RSRP value of base station equipment.
In the embodiment of the present invention, the method for determination of N is specifically including but not limited to: as (the quantity * y% of the RSRP value of selection)
When being positive integer, Network Management Equipment determines that the value of N is (the quantity * y% of the RSRP value of selection);When (the number of the RSRP value of selection
Measure * y%) when not being positive integer, Network Management Equipment determines that the value of N is just less than first of (the quantity * y% of the RSRP value of selection)
Integer.
For example, it is assumed that y=5, when the quantity of the RSRP value when the power headroom selected from measurement report is 0 is 60, then
(the quantity * y% of the RSRP value of selection)=3, Network Management Equipment determines that the value of N is 3 at this time, and chooses the 3rd RSRP value (i.e. by small
The 3rd RSRP value to after big sequence) it is used as the corresponding RSRP value of base station equipment;When the power headroom selected from measurement report
When the quantity of RSRP value when being 0 is 50, then (the quantity * y% of the RSRP value of selection)=2.5, Network Management Equipment determines taking for N at this time
Value is first positive integer of the 2(i.e. less than 2.5), and choose the 2nd RSRP value (the 2nd RSRP after i.e. ascending sequence
Value) it is used as the corresponding RSRP value of base station equipment.
In the embodiment of the present invention, the numerical value of y% is CDF(Cumulative Distribution Function, accumulation
Distribution function) the corresponding numerical value of y%, and CDF y% is used to characterize the RSRP value height for having the UE of (1-y%) in the cell of base station equipment
In n-th RSRP value (it is as the corresponding RSRP value of base station equipment).Further, it is covered based on outdoor edge shown in table 1
The corresponding relationship that lid probability and area coverage probability meet, in order to guarantee UE access success rate 95% or more, and since uplink is adopted
It is considered when being emitted with full power in cell edge, therefore dense city suggests that the value of y is between 3~14.
Table 1
Step 102, Network Management Equipment utilizes the corresponding RSRP value of base station equipment, the transmission power of base station equipment and UE most
Big transmission power determines the corresponding q-RxLevMin of base station equipment.
In the embodiment of the present invention, Network Management Equipment using the corresponding RSRP value of base station equipment, the transmission power of base station equipment with
And the maximum transmission power of UE determines the corresponding q-RxLevMin of base station equipment, is specifically including but not limited to such as under type: network management
Equipment determines the corresponding q-RxLevMin of base station equipment specifically: the maximum transmission power-of the transmission power-UE of base station equipment
The corresponding RSRP value of 10.8+ base station equipment.
The generating process of the determination formula of q-RxLevMin is further elaborated below.
It can be met such as based on uplink downlink balance principle since the permission path loss of uplink and downlink is consistent
Lower equation: transmission power-base station equipment of UE receives the reception power of power=base station equipment transmission power-UE;Therefore,
Maximum transmission power-the 10log(12*x of UE) the corresponding RSRP value=base station equipment of-base station equipment transmission power -10*
The RSRP value of log12-UE.Wherein, x is that uplink uses RB(Resource Block, resource block) number, in cell edge in order to protect
Uplink service is held, then minimum schedulable 1RB, therefore x is 1.Therefore, RSRP value=base station equipment transmission power-UE of UE is most
The corresponding RSRP value of transmission power -10.8+ base station equipment greatly;Therefore, q-RxLevMin=base station equipment transmission power-UE
The corresponding RSRP value of maximum transmission power -10.8+ base station equipment.
When uplink interference is more serious, it is assumed that the corresponding RSRP value of base station equipment be -100dBm(its to pass through step
101 determinations), it is assumed that the transmission power of base station equipment is 46dBm, it is assumed that the maximum transmission power of UE is 23dBm, then: q-
The corresponding RSRP value=46dBm of the maximum transmission power -10.8+ base station equipment of RxLevMin=base station equipment transmission power-UE
The maximum transmission power of (transmission power of base station equipment) -23dBm(UE) -10.8-100dBm(-100dBm be base station equipment pair
The RSRP value answered)=- 87.8dBm.
Step 103, the corresponding q-RxLevMin of base station equipment is sent to base station equipment by Network Management Equipment, and by base station equipment
The corresponding q-RxLevMin of base station equipment is sent to UE.
Wherein, the above-mentioned steps 101- step 103 of the embodiment of the present invention is periodical execution.
In the embodiment of the present invention, currently after the corresponding q-RxLevMin of base station equipment has been determined, network management is set Network Management Equipment
It is standby by the corresponding q-RxLevMin of base station equipment adjust the current q-RxLevMin(of base station equipment as by base station equipment initially
Q-RxLevMin(-125dBm) it is adjusted to the q-RxLevMin(-87.8dBm determined in step 102), base station equipment initially corresponds to
Q-RxLevMin be the q-RxLevMin for utilizing the receiving sensitivity of UE to determine), and by the corresponding q- of base station equipment
RxLevMin is sent to base station equipment (i.e. the serving BS of UE);The corresponding q-RxLevMin of base station equipment is passed through by base station equipment
The current q-RxLevMin of base station equipment is adjusted, and the corresponding q-RxLevMin of base station equipment is sent to UE(base station equipment and is led to
It crosses SIB1 and the q-RxLevMin for corresponding to serving cell is sent to UE;Or, by SIB5 that the neighbour for corresponding to serving cell is small
The q-RxLevMin in area is sent to UE);It is current that base station equipment is adjusted by the corresponding q-RxLevMin of base station equipment by UE later
Q-RxLevMin, and the current q-RxLevMin of base station equipment is utilized to carry out the processes such as cell reselection.
In conclusion in the embodiment of the present invention, Network Management Equipment by the way that q-RxLevMin is initially set to receiving sensitivity,
More UE can be linked into LTE system when guaranteeing that network gently loads;With the increase of uplink network load, Network Management Equipment is logical
The maximum transmission power for crossing the corresponding RSRP value of base station equipment, the transmission power of base station equipment and UE adaptively dynamically adjusts base
The q-RxLevMin of station equipment to guarantee to be resident to be consistent substantially with the coverage area that can carry out business, and guarantees to use
Family obtains better services perception, makes full use of local resource, promotes user's perception, and reduce network optimization personnel and frequently modify
The workload of parameter.Based on aforesaid way, it can be avoided caused user when setting receiving sensitivity for q-RxLevMin and exist
It the problem of can not carrying out business in the cell that can be resident, then avoids having brought signal to user but not can be carried out business etc. poor
User perception;Based on aforesaid way, can be avoided caused when setting relatively high value for q-RxLevMin can not fill
The problems such as source cell resource is utilized and is divided, Target cell burden is increased, then avoids the system institute that different systems are in by user
Service-aware is brought to decline problem.
Embodiment two
Based on inventive concept same as the above method, a kind of determination of cell parameter is additionally provided in the embodiment of the present invention
System, the system include:
Network Management Equipment is received power RSRP value for obtaining the corresponding reference symbol of base station equipment, is set using the base station
Standby corresponding RSRP value, the transmission power of the base station equipment and the maximum transmission power of user equipment (UE) determine that the base station is set
Standby corresponding minimum reception level q-RxLevMin, and the corresponding q-RxLevMin of the base station equipment is sent to the base station
Equipment;
Base station equipment for receiving the corresponding q-RxLevMin of this base station equipment from the Network Management Equipment, and incite somebody to action this
The corresponding q-RxLevMin of base station equipment is sent to the UE.
In the embodiment of the present invention, the Network Management Equipment, specifically for receiving the measurement report from the base station equipment, institute
It states and carries the RSRP value that the UE is measured and is reported to the base station equipment in measurement report;It is selected from the measurement report
RSRP value when power headroom is 0, the RSRP value when power headroom is 0 is RSRP of the UE under maximum transmission power
Value;Ascending sequence is carried out to the RSRP value of selection;Selection n-th RSRP value is the corresponding RSRP of the base station equipment
Value.
Wherein, the method for determination of the N specifically: when the quantity * y% of the RSRP value of selection is positive integer, described in determination
The value of N is the quantity * y% of the RSRP value of selection;When the quantity * y% of the RSRP value of selection is not positive integer, the N is determined
Value be less than selection RSRP value quantity * y% first positive integer;The y% is for characterizing the base station equipment
There is the RSRP value of the UE of 1-y% to be higher than the n-th RSRP value in cell, and the value of the y is between 3~14.
In the embodiment of the present invention, the Network Management Equipment is specifically used for determining the corresponding q-RxLevMin of the base station equipment
Specifically: base station equipment described in the maximum transmission power -10.8+ of the transmission power-of the base station equipment UE is corresponding
RSRP value.
In the embodiment of the present invention, the Network Management Equipment is further used for through the corresponding q- of the base station equipment
RxLevMin adjusts the current q-RxLevMin of the base station equipment, and the corresponding q-RxLevMin of the base station equipment is sent
To the base station equipment;
The base station equipment is further used for setting by the base station equipment corresponding q-RxLevMin adjustment base station
Standby current q-RxLevMin, is sent to the UE for the corresponding q-RxLevMin of the base station equipment;Institute is passed through by the UE
It states the corresponding q-RxLevMin of base station equipment and adjusts the current q-RxLevMin of the base station equipment;Wherein, the base station equipment
Initial corresponding q-RxLevMin is the q-RxLevMin determined using the receiving sensitivity of the UE.
Embodiment three
Based on inventive concept same as the above method, a kind of determination of cell parameter is additionally provided in the embodiment of the present invention
Equipment, as shown in Fig. 2, the equipment includes:
Module 11 is obtained, receives power RSRP value for obtaining the corresponding reference symbol of base station equipment;
Determining module 12, for using the corresponding RSRP value of the base station equipment, the transmission power of the base station equipment with
And the maximum transmission power of user equipment (UE) determines the corresponding minimum reception level q-RxLevMin of the base station equipment;
Sending module 13, for the corresponding q-RxLevMin of the base station equipment to be sent to the base station equipment, by institute
It states base station equipment and the corresponding q-RxLevMin of the base station equipment is sent to the UE.
The acquisition module 11, specifically for receiving the measurement report from the base station equipment, in the measurement report
Carry the RSRP value that the UE is measured and is reported to the base station equipment;Select power headroom for 0 from the measurement report
When RSRP value, the RSRP value when power headroom is 0 is RSRP value of the UE under maximum transmission power;To selection
RSRP value carries out ascending sequence;Selection n-th RSRP value is the corresponding RSRP value of the base station equipment.
The acquisition module 11 is further used for being determined as follows the value of the N;When the RSRP value of selection
When quantity * y% is positive integer, determine that the value of the N is the quantity * y% of the RSRP value of selection;When the number of the RSRP value of selection
When amount * y% is not positive integer, determine that the value of the N is first positive integer of the quantity * y% of the RSRP value less than selection;
Wherein, the y%, which is used to characterize, has the RSRP value of the UE of 1-y% to be higher than the N in the cell of the base station equipment
A RSRP value, and the value of the y is between 3~14.
The determining module 12 is specifically used for determining the corresponding q-RxLevMin of the base station equipment specifically: the base
The corresponding RSRP value of base station equipment described in the maximum transmission power -10.8+ of the transmission power-of the station equipment UE.
The sending module 13 is set specifically for adjusting the base station by the corresponding q-RxLevMin of the base station equipment
Standby current q-RxLevMin, is sent to the base station equipment for the corresponding q-RxLevMin of the base station equipment;By the base
Station equipment adjusts the current q-RxLevMin of the base station equipment by the corresponding q-RxLevMin of the base station equipment, will be described
The corresponding q-RxLevMin of base station equipment is sent to the UE;The corresponding q-RxLevMin of the base station equipment is passed through by the UE
Adjust the current q-RxLevMin of the base station equipment;Wherein, initially corresponding q-RxLevMin is to utilize to the base station equipment
The q-RxLevMin that the receiving sensitivity of the UE determines.
Wherein, the modules of apparatus of the present invention can integrate in one, can also be deployed separately.Above-mentioned module can close
And be a module, multiple submodule can also be further split into.
Through the above description of the embodiments, those skilled in the art can be understood that the present invention can be by
Software adds the mode of required general hardware platform to realize, naturally it is also possible to which by hardware, but in many cases, the former is more
Good embodiment.Based on this understanding, technical solution of the present invention substantially in other words contributes to the prior art
Part can be embodied in the form of software products, which is stored in a storage medium, if including
Dry instruction is used so that a computer equipment (can be personal computer, server or the network equipment etc.) executes this hair
Method described in bright each embodiment.
It will be appreciated by those skilled in the art that attached drawing is the schematic diagram of a preferred embodiment, module or stream in attached drawing
Journey is not necessarily implemented necessary to the present invention.
It will be appreciated by those skilled in the art that the module in device in embodiment can describe be divided according to embodiment
It is distributed in the device of embodiment, corresponding change can also be carried out and be located in one or more devices different from the present embodiment.On
The module for stating embodiment can be merged into a module, can also be further split into multiple submodule.
The serial number of the above embodiments of the invention is only for description, does not represent the advantages or disadvantages of the embodiments.
Disclosed above is only several specific embodiments of the invention, and still, the present invention is not limited to this, any ability
What the technical staff in domain can think variation should all fall into protection scope of the present invention.
Claims (7)
1. a kind of determination method of cell parameter characterized by comprising
Network Management Equipment obtains the corresponding reference symbol of base station equipment and receives power RSRP value;
The Network Management Equipment utilizes the corresponding RSRP value of the base station equipment, the transmission power and user equipment of the base station equipment
The maximum transmission power of UE determines the corresponding minimum reception level q-RxLevMin of the base station equipment;
The corresponding q-RxLevMin of the base station equipment is sent to the base station equipment by the Network Management Equipment, is set by the base station
It is standby that the corresponding q-RxLevMin of the base station equipment is sent to the UE;
Wherein, the Network Management Equipment determines the corresponding q-RxLevMin of the base station equipment specifically: the hair of the base station equipment
Penetrate the corresponding RSRP value of maximum transmission power+base station equipment of the power-UE;
The Network Management Equipment obtains the corresponding reference symbol of base station equipment and receives power RSRP value, specifically includes:
The Network Management Equipment receives the measurement report from the base station equipment, and the UE measurement is carried in the measurement report
And it is reported to the RSRP value of the base station equipment;
The RSRP value that the Network Management Equipment selects power headroom from the measurement report when being 0, when the power headroom is 0
RSRP value is RSRP value of the UE under maximum transmission power;
The Network Management Equipment carries out ascending sequence to the RSRP value of selection;
It is the corresponding RSRP value of the base station equipment that the Network Management Equipment, which chooses n-th RSRP value,.
2. the method as described in claim 1, which is characterized in that the method for determination of the N specifically:
When the quantity * y% of the RSRP value of selection is positive integer, the Network Management Equipment determines that the value of the N is selection
The quantity * y% of RSRP value;
When the quantity * y% of the RSRP value of selection is not positive integer, the Network Management Equipment determines that the value of the N is less than choosing
First positive integer of the quantity * y% for the RSRP value selected;
Wherein, the y%, which is used to characterize, has the RSRP value of the UE of 1-y% to be higher than the n-th in the cell of the base station equipment
RSRP value, and the value of the y is between 3~14.
3. the method as described in claim 1, which is characterized in that the Network Management Equipment is by the corresponding q- of the base station equipment
RxLevMin is sent to the base station equipment, specifically includes:
The Network Management Equipment adjusts the current q- of the base station equipment by the corresponding q-RxLevMin of the base station equipment
The corresponding q-RxLevMin of the base station equipment is sent to the base station equipment by RxLevMin;Passed through by the base station equipment
The corresponding q-RxLevMin of the base station equipment adjusts the current q-RxLevMin of the base station equipment, by the base station equipment pair
The q-RxLevMin answered is sent to the UE;The base is adjusted by the corresponding q-RxLevMin of the base station equipment by the UE
The current q-RxLevMin of station equipment;Wherein, initially corresponding q-RxLevMin is connecing using the UE to the base station equipment
Receive the q-RxLevMin that sensitivity determines.
4. a kind of determination system of cell parameter, which is characterized in that the system includes:
Network Management Equipment receives power RSRP value for obtaining the corresponding reference symbol of base station equipment, utilizes the base station equipment pair
RSRP value, the transmission power of the base station equipment and the maximum transmission power of user equipment (UE) answered determine the base station equipment pair
The minimum reception level q-RxLevMin answered, and the corresponding q-RxLevMin of the base station equipment is sent to the base station and is set
It is standby;
Base station equipment, for receiving the corresponding q-RxLevMin of this base station equipment from the Network Management Equipment, and by this base station
The corresponding q-RxLevMin of equipment is sent to the UE;
Wherein, the Network Management Equipment is specifically used for determining the corresponding q-RxLevMin of the base station equipment specifically: the base station
The corresponding RSRP value of the maximum transmission power of the transmission power-of the equipment UE+base station equipment;
The Network Management Equipment carries in the measurement report specifically for receiving the measurement report from the base station equipment
The UE is measured and is reported to the RSRP value of the base station equipment;When to select power headroom from the measurement report be 0
RSRP value, the RSRP value when power headroom is 0 are RSRP value of the UE under maximum transmission power;To the RSRP of selection
Value carries out ascending sequence;Selection n-th RSRP value is the corresponding RSRP value of the base station equipment.
5. a kind of cell parameter locking equipment really characterized by comprising
Module is obtained, receives power RSRP value for obtaining the corresponding reference symbol of base station equipment;
Determining module, for utilizing the corresponding RSRP value of the base station equipment, the transmission power of the base station equipment and user
The maximum transmission power of equipment UE determines the corresponding minimum reception level q-RxLevMin of the base station equipment;
Sending module, for the corresponding q-RxLevMin of the base station equipment to be sent to the base station equipment, by the base station
The corresponding q-RxLevMin of the base station equipment is sent to the UE by equipment;
Wherein, the determining module is specifically used for determining the corresponding q-RxLevMin of the base station equipment specifically: the base station
The corresponding RSRP value of the maximum transmission power of the transmission power-of the equipment UE+base station equipment;
The acquisition module carries in the measurement report specifically for receiving the measurement report from the base station equipment
The UE is measured and is reported to the RSRP value of the base station equipment;When to select power headroom from the measurement report be 0
RSRP value, the RSRP value when power headroom is 0 are RSRP value of the UE under maximum transmission power;To the RSRP of selection
Value carries out ascending sequence;Selection n-th RSRP value is the corresponding RSRP value of the base station equipment.
6. equipment as claimed in claim 5, which is characterized in that
The acquisition module is further used for being determined as follows the value of the N;As the quantity * of the RSRP value of selection
When y% is positive integer, determine that the value of the N is the quantity * y% of the RSRP value of selection;As the quantity * of the RSRP value of selection
When y% is not positive integer, determine that the value of the N is first positive integer of the quantity * y% of the RSRP value less than selection;
Wherein, the y%, which is used to characterize, has the RSRP value of the UE of 1-y% to be higher than the n-th in the cell of the base station equipment
RSRP value, and the value of the y is between 3~14.
7. equipment as claimed in claim 5, which is characterized in that
The sending module is specifically used for current by the base station equipment corresponding q-RxLevMin adjustment base station equipment
Q-RxLevMin, the corresponding q-RxLevMin of the base station equipment is sent to the base station equipment;By the base station equipment
The current q-RxLevMin of the base station equipment is adjusted by the corresponding q-RxLevMin of the base station equipment, the base station is set
Standby corresponding q-RxLevMin is sent to the UE;Institute is adjusted by the corresponding q-RxLevMin of the base station equipment by the UE
State the current q-RxLevMin of base station equipment;Wherein, initially corresponding q-RxLevMin is to utilize the UE to the base station equipment
Receiving sensitivity determine q-RxLevMin.
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CN108632856B (en) * | 2017-03-24 | 2021-06-11 | ***通信集团广东有限公司 | Processing method for determining target neighbor cell and server |
CN110875786B (en) * | 2018-09-04 | 2022-04-29 | ***通信有限公司研究院 | Method for acquiring RSRP and network side equipment |
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