CN101795461A

CN101795461A - Carrier sensing method, terminal device, base station and mobility management entity

Info

Publication number: CN101795461A
Application number: CN200910143162A
Authority: CN
Inventors: 常俊仁; 李亚娟; 冯淑兰
Original assignee: Huawei Technologies Co Ltd
Current assignee: Huawei Technologies Co Ltd
Priority date: 2009-02-02
Filing date: 2009-05-18
Publication date: 2010-08-04
Anticipated expiration: 2029-05-18
Also published as: CN101795461B

Abstract

The embodiment of the invention discloses a carrier sensing method, a terminal device, a base station and a mobility management entity, belonging to the technical field of mobile communication. The invention solves the problems in the prior art that the UE power consumption is high and the standby time is short. The carrier sensing method provided by the embodiment of the invention comprises that a composition carrier is determined and is used as a sensing carrier; and the determined sensing carrier is sensed when user equipment is in idle state. By adopting the invention, the power consumption of the user equipment is reduced and the standby time is increased.

Description

A kind of carrier sensing method, terminal equipment, base station and Mobility Management Entity

Technical field

The present invention relates to the mobile communication technology field, relate in particular to a kind of carrier sensing method, terminal equipment, base station and Mobility Management Entity.

Background technology

LTE-Advanced (Long Term Evolution Advanced, the further enhancing of long evolving system) is the further enhancing of LTE (Long Term Evolution, Long Term Evolution) technology.Require in the demand of LTE-Advanced system at present: the UE of LTE (User Equipment, subscriber equipment) can normally move in the LTE-Advanced system; Simultaneously, the UE of LTE-Advanced also requirement can in the system of LTE, move.In addition, in order to satisfy IMT-Advanced (International MobileTelecommunication Advanced, the further enhancing of international mobile communication system) requirement, support is up to the peak data rate of 1G, 3GPP (3rd Generation Partnership Program, third generation partner program) LTE-Advanced system has converged carrier wave the method for technology as its expanding system bandwidth at present.Above-described carrier wave converges exactly a plurality of composition carrier waves is pooled a carrier wave that is higher than 20M, to support high data rate.For example shown in Figure 1, downlink bandwidth is converged by the carrier wave of 5 20M and forms.When UE was in Idle (free time) state, UE need monitor the carrier wave of system, to such an extent as to when network had service needed paging UE, UE can in time receive corresponding beep-page message.

In realizing process of the present invention, the inventor finds that there are the following problems at least in the prior art: in present LTE system, when being in the Idle state, UE need monitor descending PDCCH channel, to confirm whether to have its beep-page message, perhaps whether monitoring system message changes.But, because in the LTE-Advanced system, downlink bandwidth is converged by a plurality of carrier waves and forms, if UE monitors all PDCCH channels of forming carrier waves when coming paging receiving message or monitoring system message, UE need expend a large amount of electric energy, thereby has increased the UE power consumption, has reduced stand-by time.

Summary of the invention

The embodiment of the invention provides a kind of carrier sensing method, terminal equipment, base station and Mobility Management Entity, to realize reducing power consumption of user equipment in the LTE-Advanced system.

According to an aspect of the present invention, provide a kind of carrier sensing method, comprising:

Determine that one is formed carrier wave as monitoring carrier wave;

When subscriber equipment is in idle condition, monitor described definite monitoring carrier wave.

According to a further aspect in the invention, also provide a kind of terminal equipment, comprising:

The monitoring carrier wave determining unit is used for determining that one is formed carrier wave as monitoring carrier wave;

Monitoring unit is used for when terminal equipment is in idle condition, monitors described definite monitoring carrier wave.

According to a further aspect in the invention, also provide a kind of base station, comprising:

The monitoring carrier wave determining unit is used to terminal equipment to determine that a carrier wave is as monitoring carrier wave;

The information interaction unit is used for carrying out information interaction with described terminal equipment, so that described terminal equipment is monitored described definite monitoring carrier wave when being in idle condition.

According to a further aspect in the invention, also provide a kind of Mobility Management Entity, comprising:

The monitoring carrier wave determining unit is used to subscriber equipment to select one to form carrier wave as monitoring carrier wave;

The information interaction unit is used for carrying out information interaction with described base station, makes and monitors described definite monitoring carrier wave when described subscriber equipment is in idle condition.

A kind of carrier sensing method, terminal equipment, base station and Mobility Management Entity that the embodiment of the invention provides are by determining that a conduct in a plurality of composition carrier waves of LTE-Advanced system is a monitoring carrier wave; When subscriber equipment during, only monitor described definite monitoring carrier wave, thereby reduce the monitoring power consumption of subscriber equipment greatly in idle condition.In prior art, subscriber equipment is when idle condition, and all carrier waves are compared in the needs monitoring LTE-Advanced system, and subscriber equipment of the present invention only need be monitored a monitoring carrier wave, thereby make power consumption of user equipment reduce greatly, increased the stand-by time of subscriber equipment.

Description of drawings

In order to be illustrated more clearly in the embodiment of the invention or technical scheme of the prior art, to do to introduce simply to the accompanying drawing of required use in embodiment or the description of the Prior Art below, apparently, accompanying drawing in describing below only is some embodiments of the present invention, for those of ordinary skills, under the prerequisite of not paying creative work, can also obtain other accompanying drawing according to these accompanying drawings.

Fig. 1 is that the downlink bandwidth of the further enhanced system of long evolving system is formed schematic diagram;

A kind of carrier sensing method flow chart that Fig. 2 provides for the embodiment of the invention;

Fig. 3 for the embodiment of the invention provide a kind of be that UE distributes the carrier sensing method flow chart treat monitoring carrier wave by eNodeB;

A kind of carrier sensing method flow chart of selecting monitoring carrier wave by UE self that Fig. 4 provides for the embodiment of the invention;

The another kind that Fig. 5 provides for the embodiment of the invention is selected the carrier sensing method flow chart of monitoring carrier wave by UE self;

Fig. 6 upgrades flow chart for a kind of position that the embodiment of the invention provides;

A kind of carrier sensing method flow chart that Fig. 7 provides for the embodiment of the invention by UE and eNodeB pre-defined algorithm;

Fig. 8 for the embodiment of the invention provide a kind of be the carrier sensing method flow chart of the monitoring carrier wave under the Idle state, monitored of UE by the minimum or the highest carrier wave of UE and eNodeB acquiescence LTE-A all carrier wave medium frequencys of system;

The another kind of carrier sensing method flow chart that Fig. 9 provides for the embodiment of the invention;

The terminal equipment structural representation that Figure 10 provides for the embodiment of the invention;

Monitoring carrier wave determining unit 1001 structural representations in the terminal equipment that Figure 11 provides for the embodiment of the invention;

The structural representation of monitoring carrier wave determining unit 1001 in the terminal equipment that Figure 12 provides for the embodiment of the invention;

Monitoring carrier wave determining unit 1001 structural representations in the terminal equipment that Figure 13 provides for the embodiment of the invention;

The structural representation of the base station that Figure 14 provides for the embodiment of the invention;

The structural representation of the monitoring carrier wave determining unit in the base station that Figure 15 provides for the embodiment of the invention;

The structural representation of the information interaction unit in the base station that Figure 16 provides for the embodiment of the invention;

A kind of carrier sensing method flow chart of determining the monitoring carrier wave of UE by MME that Figure 17 provides for the embodiment of the invention;

A kind of Mobility Management Entity structural representation that Figure 18 provides for the embodiment of the invention.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the invention, the technical scheme in the embodiment of the invention is clearly and completely described, obviously, described embodiment only is the present invention's part embodiment, rather than whole embodiment.Based on the embodiment among the present invention, those of ordinary skills belong to the scope of protection of the invention not making the every other embodiment that is obtained under the creative work prerequisite.

Below in conjunction with accompanying drawing a kind of carrier sensing method and the device that the embodiment of the invention provides is described in detail.

As shown in Figure 2, a kind of carrier sensing method that provides for the embodiment of the invention; This method comprises:

201: determine that one is formed carrier wave as monitoring carrier wave; A described definite composition carrier wave has four kinds of modes as monitoring carrier wave: first kind of mode can be that UE distributes monitoring carrier wave by base station eNodeB; The second way can be selected one as monitoring carrier wave by UE self from many groups carrier wave; The third mode is that UE can hold consultation with the base station and selects the mode of monitoring carrier wave; The 4th kind of mode can be that UE selects monitoring carrier wave by MME.Wherein, it can be the algorithm that UE and base station consult in advance that the mode of monitoring carrier wave is selected in described negotiation, and UE can go out the relevant information of its monitoring carrier wave by this algorithm computation; The mode of monitoring carrier wave is selected in described negotiation, also can be that UE and base station consult to monitor the minimum carrier wave of all carrier wave medium frequencys in advance, and just that frequency is minimum carrier wave is as monitoring carrier wave.

202: when subscriber equipment is in idle condition, monitor described definite monitoring carrier wave.

It should be noted that, when adopting first kind to determine monitoring carrier wave with the second way, need the system message of UE according to Current Serving BTS and the transmission of neighbours base station, judge whether Current Serving BTS is identical with the configuration of neighbours' base station carrier, that is to say, when UE carries out cell selecting/gravity treatment, need UE to judge whether the carrier wave of selected neighbours base station comprises the current composition carrier wave of monitoring in disposing, if do not comprise, then UE needs more new technological process of trigger position, makes UE can reselect definite monitoring carrier wave.

A kind of carrier sensing method that the embodiment of the invention provides is by determining that a conduct in a plurality of composition carrier waves of LTE-Advanced system is a monitoring carrier wave; When subscriber equipment during, only monitor described definite monitoring carrier wave, thereby reduce the monitoring power consumption of subscriber equipment greatly in idle condition.In prior art, subscriber equipment is when idle condition, and all carrier waves are compared in the needs monitoring LTE-Advanced system, and subscriber equipment of the present invention only need be monitored a monitoring carrier wave, thereby make power consumption of user equipment reduce greatly, increased the stand-by time of subscriber equipment.

As shown in Figure 3, a kind of carrier sensing method that provides for the embodiment of the invention; This method is that UE distribution carrier wave to be monitored is a monitoring carrier wave by eNodeB.Its concrete realization flow is as described below:

301, when UE from Active (activation) state during to Idle (free time) state-transition, eNodeB is that UE selects a carrier wave to enter monitoring carrier wave behind the Idle state as UE; Utilize RRC (RadioResource Control, Radio Resource control) connection release (release of Radio Resource control connection) message with described monitoring carrier wave information notice UE then.Wherein, described monitoring carrier wave information can be meant the sequence number of this monitoring carrier wave or the frequency information of this monitoring carrier wave; Wherein, the LTE-A system is numbered all composition carrier waves or current available composition carrier wave, and perhaps an eNodeB is numbered its composition carrier wave, is selected as the composition carrier index of monitoring carrier wave, is called the sequence number of described monitoring carrier wave.In the system broadcast message of LTE-A system, can broadcast the numbering of described each composition carrier wave.

It should be noted that, eNodeB can also pass through MAC (Medium Access Control, the medium access control) control PDU (Protocol Data Unit, protocol Data Unit) or other signalings for example: physical layer signaling sends to UE with described monitoring carrier wave information.When UE received the RRC message of carrying monitoring carrier wave information or other signalings of carrying described monitoring carrier wave, UE stored described monitoring carrier wave information; Monitor described monitoring carrier wave.

It is also to be noted that described monitoring carrier wave information also can be carried in idle Mode Mobility Control Info (idle mode mobility control information) field in the RRC connection release message and send to UE.

302, eNodeB sends it for the selected monitoring carrier wave information of UE to network side entity; If described network side entity is MME (Mobile management entity, a Mobility Management Entity), then MME arrives this monitoring carrier wave information stores in MM (Mobile Management, the mobile management) context.

It should be noted that described network side entity can be MME or paging controller etc.

303, when network side entity has service needed paging UE, MME or the paging controller eNodeBs in TAs (Tracking Area (s), tracking area) sends PAGING (beep-page message), and this message is carried the carrier information that UE is monitoring.Wherein, described eNodeBs is meant at least one base station in the tracking area.

It is also to be noted that, when not carrying monitoring carrier wave information or eNodeBs in the PAGING message that eNodeBs finds to receive and know that the UE that needs paging is the UE of LTE system, eNodeBs sends the indication information of beep-page message on the composition carrier wave that its all LTE UE can use, this indication is used to notify the carrier wave of UE paging receiving message; Particularly, can send paging indication information by the PDCCH channel.Then, eNodeBs sends beep-page message to UE on the composition carrier wave that all LTE UE can use.Perhaps, eNodeBs sends the beep-page message indication information on the composition carrier wave that its all LTE UE can use, notice UE paging receiving message, and be included as the information of the composition carrier wave of the specific paging receiving message that UE distributes in this paging indication information.Then, eNodeB sends beep-page message on described specific composition carrier wave, and UE above-mentioned paging indication information of paging receiving message on described specific composition carrier wave can send by the PDCCH channel.

304, eNodeB notifies UE paging receiving message on the PDCCH of UE monitoring carrier wave (Physical Downlink ControlChannel, Physical Downlink Control Channel) channel, and sends beep-page message to UE on described monitoring carrier wave.

It should be noted that eNodeB also can need form paging receiving message on the carrier wave at which at notice UE on the monitoring carrier wave, then, eNodeB is transferred to UE with the beep-page message scheduling on this composition carrier wave.

A kind of carrier sensing method that the embodiment of the invention provides determines that by the base station conduct in a plurality of composition carrier waves of LTE-Advanced system is a monitoring carrier wave; When subscriber equipment during, only monitor described definite monitoring carrier wave, thereby reduce the monitoring power consumption of subscriber equipment greatly in idle condition.In prior art, subscriber equipment is when idle condition, and all carrier waves are compared in the needs monitoring LTE-Advanced system, and subscriber equipment of the present invention only need be monitored a monitoring carrier wave, thereby make power consumption of user equipment reduce greatly, increased the stand-by time of subscriber equipment.Meanwhile, the base station can also be by sending beep-page message on the composition carrier wave of appointment or on definite monitoring carrier wave, thereby saved the interface-free resources between subscriber equipment and base station greatly, improved the utilance of system.

As shown in Figure 4, be the another kind of carrier sensing method that the embodiment of the invention provides, this method is selected one by UE self and is formed carrier wave as the monitoring carrier wave under its Idle state.Its concrete realization flow is as described below:

401, UE selects a composition carrier wave to enter the monitoring carrier wave of monitoring behind the Idle state as it from a plurality of composition carrier waves; UE sends selected monitoring carrier wave information to current service eNodeB;

402, after eNodeB receives the monitoring carrier wave information that UE selects, if the composition carrier wave that eNodeB confirms UE is selected as monitoring carrier wave, then eNodeB sends monitoring carrier wave validation of information message to UE; It should be noted that if consulting with the selected composition carrier wave of UE between UE and the eNodeB in advance is monitoring carrier wave promptly composition carrier wave that UE is selected can be given tacit consent to as monitoring carrier wave by system, then eNodeB can not send the affirmation message of described monitoring carrier wave information.Meanwhile, eNodeB sends described monitoring carrier wave information to network side entity MME; MME should form carrier information and store in the MM context.

403, when network side entity has service needed paging UE, MME or the paging controller eNodeBs in TAs sends PAGING message, and this message is carried the composition carrier information that UE is monitoring.

It is also to be noted that, when not carrying monitoring carrier wave information or eNodeBs in the PAGING message that eNodeBs finds to receive and know that the UE that needs paging is the UE of LTE system, eNodeBs sends the indication information that passes beep-page message on the carrier wave that its all LTE UE can use, this indication information is used to notify the composition carrier wave of UE paging receiving message; Particularly, can send paging indication information by the PDCCH channel.Then, eNodeBs sends beep-page message to UE on the composition carrier wave that all LTE UE can use.Perhaps, eNodeBs sends the beep-page message indication information on the composition carrier wave that its all LTE UE can use, notice UE paging receiving message, and be included as the information of the composition carrier wave of the specific paging receiving message that UE distributes in this paging indication information; Then, eNodeB sends beep-page message on described specific composition carrier wave, and UE is paging receiving message on described specific composition carrier wave, and above-mentioned paging indication information can send by the PDCCH channel.

404, eNodeB notifies UE paging receiving message on the PDCCH of UE monitoring carrier wave (Physical Downlink ControlChannel, Physical Downlink Control Channel) channel, and sends beep-page message to UE on described monitoring carrier wave.

It is also to be noted that, save the UE power consumption, increase the purpose of UE stand-by time in order to reach.The embodiment of the invention also provides a kind of carrier sensing method as shown in Figure 5, and this method is selected monitoring carrier wave by UE, monitors on this composition carrier wave.When network side entity had service needed paging UE, the eNodeBs of network side entity in TAs sent beep-page message; When eNodeB had service needed paging UE, eNodeB sent the beep-page message indication information on the composition carrier wave of all or part, sent out beep-page message on one or more composition carrier waves.Wherein, described part composition carrier wave is meant the composition carrier wave that subscriber equipment can be used; Its specific implementation process is as follows:

501:UE selects one arbitrarily as the monitoring carrier wave under its Idle pattern from a plurality of composition carrier waves;

502, when network side entity has service needed paging UE, MME or the paging controller eNodeBs in TAs sends PAGING message.Can select, this PAGING message is carried the composition carrier wave receiving ability information of paged UE.Here this UE of composition carrier wave receiving ability information representation of so-called UE can receive the composition carrier wave of which frequency range.This information can be on UE once RRC connect when discharging and report to network side entity by service eNodeB, as MME or paging controller.

503, eNodeBs is when receiving the PAGING message of MME or paging controller transmission, and the eNodeBs in this TAs sends paging indication information to UE on its whole composition carrier wave, notice UE paging receiving message.Perhaps eNodeBs judges the carrier wave receiving ability of current UE according to the ability information of UE, and sends paging indication information to UE on the composition carrier wave that UE can receive based on this ability information.Particularly, eNodeBs can send paging indication information on its PDCCH channel.Then, these eNodeBs send beep-page message to UE on its all or part composition carrier wave of (referring to the composition carrier wave that UE can use in all composition carrier waves).For example, the 20M that it is 2GHz that the 20M that the composition carrier wave of eNodeB is 800MHz by 2 frequencies forms carrier wave and two frequencies forms carrier wave and forms jointly, then when UE only has the ability of composition carrier wave of the frequency that receives 800MHz, eNodeBs just only needs 2 at 800MHz to form on the carrier waves when sending paging indication information and beep-page message to send.

Perhaps eNodeBs paging indication information on the composition carrier wave of its all or part (refer to all form the composition carrier wave that UE can use in carrier waves) is given UE, and is included as the information of the composition carrier wave of the specific paging receiving message that UE distributes in this paging indication information.ENodeBs only sends beep-page message on selected composition carrier wave then, and UE preserves the information of the specific composition carrier wave of indicating in the paging indication information, and on this specific composition carrier wave paging receiving message.

In the process that UE moves, when UE carries out in the process of cell selecting/gravity treatment, when finding that the current composition carrier wave of monitoring of UE does not exist in neighbours eNodeB, UE is for the above-described composition carrier sense of realization that can be correct, need carry out position new technological process more as shown in Figure 6;

For example: when UE when the hot spot region of 5x20M moves to the normal areas of 3x20M, the monitoring carrier wave that UE monitors in the hot spot region does not exist under common regional eNodeB.At this moment, UE need trigger the position updating process of UE, reselects new monitoring carrier wave.The eNodeB1 that focus covers disposes 5 and forms carrier wave.And the eNodeB2 of normal areas disposes 3 composition carrier waves.Like this, when UE when eNodeB1 enters the coverage of eNodeB2, the monitoring carrier wave of monitoring under eNodeB1 does not exist at eNodeB2, then this moment, UE need carry out the position to be upgraded, and reselects monitoring carrier wave.Its specific implementation process is as follows:

601:UE receives the system message of current eNodeB and neighbours eNodeB;

602:, judge whether current eNodeB is identical with the composition carrier wave configuration of neighbours eNodeB according to the described system message that receives;

603: if the configuration of the carrier wave of described current eNodeB and neighbours eNodeB is inequality, and current monitoring carrier wave does not exist in the composition carrier wave of neighbours eNodeB, when perhaps UE monitored less than current monitoring carrier wave in continuous time T under selected eNodeB, this moment, UE needed trigger position TA renewal process.

As shown in Figure 7, the another kind of carrier sensing method that provides for the embodiment of the invention, this method, is selected one by UE self and is formed carrier wave as the monitoring carrier wave under its Idle state when UE enters the Idle state by the algorithm that UE and eNodeB consult monitoring carrier wave in advance.When eNodeB received the beep-page message of network side entity transmission, eNodeB self can be according to selecting one to form carrier wave as the monitoring carrier wave of UE under the Idle state with the algorithm of UE negotiation; Below be concrete implementation process:

UE utilizes algorithm to obtain monitoring carrier wave information; Wherein said UE obtains monitoring carrier wave information and can obtain by following algorithm: monitoring carrier wave sequence number (monitoring carrier wave ID)=(UE indications) mod (number of the number of descending composition carrier wave or current available descending composition carrier wave); Wherein, described UE identifier can be any sequence number that can represent this UE, such as IMSI (International Mobile SubscriberIdentity, international mobile subscriber identifier) etc.Herein, the identifier of UE is the UE identifier in the UE context that MME preserved.For this reason, eNodeB need broadcast its number of forming carrier wave in its system message.

701, when network side entity has service needed paging UE, network side entity MME or the paging controller eNodeBs in TAs sends PAGING message.

702, when eNodeBs when receiving the PAGING message that MME sends, eNodeBs is according to algorithm: monitoring carrier wave ID=(UE identifier) mod (number of the number of descending composition carrier wave or current available descending composition carrier wave) decision sends the composition carrier wave of paging indication information and beep-page message;

703, eNodeBs on the composition carrier wave that is calculated, send notice UE paging receiving message indication information to UE, eNodeBs sends beep-page message to UE on described monitoring carrier wave then.The indication information of above-mentioned beep-page message can send at the PDCCH channel.

In addition, eNodeBs knows when the UE that needs paging is the UE of LTE system that eNodeBs sends notice UE beep-page message indication information on the composition carrier wave that its all LTE UE can use, particularly, can send paging indication information by the PDCCH channel.On the composition carrier wave that all LTE UE can use, send beep-page message then to UE.Perhaps eNodeBs sends the beep-page message indication information on the composition carrier wave that its all LTE UE can use, be included as the information of the composition carrier wave of the specific paging receiving message that UE distributes in this paging indication information, eNodeB sends beep-page message on selected specific composition carrier wave then, UE is paging receiving message on this specific composition carrier wave, and above-mentioned paging indication information can send by the PDCCH channel.

A kind of carrier sensing method that the embodiment of the invention provides, subscriber equipment and base station determine that by algorithm a conduct in a plurality of composition carrier waves of LTE-Advanced system is a monitoring carrier wave; When subscriber equipment during, only monitor described definite monitoring carrier wave, thereby reduce the monitoring power consumption of subscriber equipment greatly in idle condition.In prior art, subscriber equipment is when idle condition, and all carrier waves are compared in the needs monitoring LTE-Advanced system, and subscriber equipment of the present invention only need be monitored a monitoring carrier wave, thereby make power consumption of user equipment reduce greatly, increased the stand-by time of subscriber equipment.Meanwhile, the base station can also be by sending beep-page message on the composition carrier wave of appointment or on definite monitoring carrier wave, thereby saved the interface-free resources between subscriber equipment and base station greatly, improved the utilance of system.

As shown in Figure 8, the another kind of carrier sensing method that provides for the embodiment of the invention, this method by UE and eNodeB consult acquiescence LTE-A system all to form the individual composition carrier wave of N in the carrier wave (N=1...M, wherein M is the composition carrier wave number of eNodeB) be the monitoring carrier wave that UE monitors under the Idle state.ENodeB broadcasts its information of forming carrier wave in its system message, the information of described composition carrier wave comprises the number of forming carrier wave and/or forms carrier index.When eNodeB needed paging UE, eNodeB sent beep-page message on its N composition carrier wave.

The monitoring carrier wave that composition carrier wave that preferably can frequency is minimum or the highest is monitored under the Idle state as UE.Its concrete realization flow is as described below:

801, when UE from the Active state behind the idle state, UE monitors the minimum or the highest composition carrier wave of all carrier wave medium frequencys; For this reason, in the system message that eNodeB sends, eNodeB should broadcast to minimum or the highest composition carrier information or the sequence number of all carrier wave medium frequencys of major general;

802, when UE when the idle state is moved to other sub-districts, based on the measurement mechanism of neighbours eNodeB, UE reads the system message of this neighbours eNodeB;

803, UE confirms according to the system message that receives whether the composition carrier wave that current eNodeB monitors down also is the minimum or the highest carrier wave of frequency under this neighbours eNodeB; In this way, then continue to monitor this carrier wave; If not,, switch on the carrier wave of new minimum or highest frequency, monitor this carrier wave then according to the carrier information of the minimum or highest frequency of indicating in the system message;

It should be noted that when eNodeB needs paging UE eNodeB sends beep-page message on the minimum or the highest carrier wave of its carrier wave medium frequency.

It is also to be noted that, eNodeBs is known when the UE that needs paging is the UE of LTE system, eNodeBs sends the beep-page message indication information on the carrier wave that its all LTE UE can use, this indication is used to notify the carrier wave of UE paging receiving message, particularly, can send paging indication information by the PDCCH channel; Then, eNodeBs sends beep-page message to UE on the carrier wave that all LTE UE can use.Perhaps, eNodeBs sends the beep-page message indication information on the carrier wave that its all LTE UE can use, notice UE paging receiving message, and in this paging indication information, be included as the information of the composition carrier wave of the specific paging receiving message that UE distributes; Then, eNodeB sends beep-page message on described particular carrier wave, and UE is paging receiving message on this specific composition carrier wave, and above-mentioned paging indication information can send by the PDCCH channel.

A kind of carrier sensing method that the embodiment of the invention provides is a monitoring carrier wave by a conduct that pre-determines in a plurality of composition carrier waves of LTE-Advanced system; When subscriber equipment during, only monitor described definite monitoring carrier wave, thereby reduce the monitoring power consumption of subscriber equipment greatly in idle condition.In prior art, subscriber equipment is when idle condition, and all carrier waves are compared in the needs monitoring LTE-Advanced system, and subscriber equipment of the present invention only need be monitored a monitoring carrier wave, thereby make power consumption of user equipment reduce greatly, increased the stand-by time of subscriber equipment.Meanwhile, the base station can also be by sending beep-page message on the composition carrier wave of appointment or on definite monitoring carrier wave, thereby saved the interface-free resources between subscriber equipment and base station greatly, improved the utilance of system.

To save the UE power consumption in order reaching, to increase the purpose of UE stand-by time, also form the load of carrier wave simultaneously for balanced each.The embodiment of the invention also provides a kind of carrier sensing method as shown in Figure 9, and this method is monitored on this carrier wave by the monitoring carrier wave of system configuration main carrier/engine carrier wave as UE.When network side entity had service needed paging UE, the eNodeBs of network side entity in TAs sent beep-page message; ENodeBs then sends paging indication information on main carrier/engine carrier wave, send beep-page message on main carrier or other carrier waves.Its specific implementation process is as follows:

901, eNodeB broadcasts the information of its main carrier/engine carrier wave in the system message of its broadcasting;

902, under the Idle pattern, UE obtains the information of the main carrier of eNodeB by system message, monitors main carrier/engine carrier wave;

903, when network side entity has service needed paging UE, MME or the paging controller eNodeBs in TAs sends PAGING message.

904, the eNodeBs in the TAs is when receiving the PAGING message of MME or paging controller transmission, and eNodeBs sends paging indication information to UE on its main carrier/engine carrier wave, notice UE paging receiving message.Particularly, eNodeBs sends paging indication information on its PDCCH channel.And comprise eNodeB in this paging indication information and be the information of the composition carrier wave of the specific paging receiving message that UE distributes.ENodeBs only sends beep-page message on this specific composition carrier wave then, and UE preserves the information of the specific composition carrier wave of indicating in the paging indication information, and on this specific composition carrier wave paging receiving message.This specific composition carrier wave also can be main carrier/engine carrier wave.

As shown in figure 17, a kind of carrier sensing method that provides for the embodiment of the invention; This method is that UE distribution carrier wave to be monitored is a monitoring carrier wave by MME.When UE when enable mode enters idle pulley, under the situation about discharging for the UE context of being initiated by eNodeB, its concrete realization flow is as described below:

1701, service eNodeB sends UE context release request message to MME.

1702, receive UE context that the service eNodeB of UE sends when discharging request message as MME, then MME is according to the composition carrier wave tenability of UE, and following the tracks of the configuration of the composition carrier wave of each sub-district in the territory and/or the factors such as load of each carrier wave is that UE selects one to form carrier wave as monitoring carrier wave.

1703, MME will send to service eNodeB for the monitoring carrier wave information that UE selects; Preferably, MME can carry the monitoring carrier wave information of selecting into UE in UE context release command message, sends it to service eNodeB.

It should be noted that, the situation that the UE context of initiating for MME discharges, then MME is before sending the release command of UE context, MME is according to the composition carrier wave tenability of UE, following the tracks of the configuration of the composition carrier wave of each sub-district in the territory and/or the factors such as load of each carrier wave is that UE selects one to form carrier wave as monitoring carrier wave, and MME will send to service eNodeB for the monitoring carrier wave information that UE selects then.Preferably, MME can carry the monitoring carrier wave information of selecting into UE in UE context release command message, sends it to service eNodeB.

1704, after service eNodeB received the monitoring carrier wave information for the UE selection of MME transmission, service eNodeB was with the monitoring carrier wave information notice UE of UE.Preferably, service eNodeB can be with monitoring carrier wave information notice UE in the RRC connection release message.

1705, UE monitors the monitoring carrier wave that MME is the UE selection.

1706, when service needed paging UE, MME or the paging controller eNodeBs in TAs sends PAGING message, it is monitoring carrier wave information that this message is carried the composition carrier information that UE monitoring, and perhaps MME also can send to eNodeBs with the monitoring carrier wave information of UE with other message.

1707, eNodeBs is after notice UE receives PAGING message on the composition carrier wave that UE monitored, and eNodeB sends beep-page message PAGING to UE on described composition carrier wave.

In addition, the information of not carrying specific composition carrier wave in eNodeBs discovery PAGING beep-page message is monitoring carrier wave information, perhaps eNodeBs is known when the UE that needs paging is the UE of LTE system, eNodeBs sends notice UE beep-page message indication information on the composition carrier wave that its all LTE UE can use, particularly, can send paging indication information by the PDCCH channel.On the composition carrier wave that all LTE UE can use, send beep-page message then to UE.Perhaps eNodeBs sends the beep-page message indication information on the composition carrier wave that its all LTE UE can use, be included as the information of the composition carrier wave of the specific paging receiving message that UE distributes in this paging indication information, eNodeB sends beep-page message on selected specific composition carrier wave then, UE is paging receiving message on this specific composition carrier wave, and above-mentioned paging indication information can send by the PDCCH channel.

A kind of carrier sensing method that the embodiment of the invention provides determines that by MME a conduct in a plurality of composition carrier waves of LTE-Advanced system is a monitoring carrier wave; When subscriber equipment during, only monitor described definite monitoring carrier wave, thereby reduce the monitoring power consumption of subscriber equipment greatly in idle condition.In prior art, subscriber equipment is when idle condition, and all carrier waves are compared in the needs monitoring LTE-Advanced system, and subscriber equipment of the present invention only need be monitored a monitoring carrier wave, thereby make power consumption of user equipment reduce greatly, increased the stand-by time of subscriber equipment.Meanwhile, the base station can also be by sending beep-page message on the composition carrier wave of appointment or on definite monitoring carrier wave, thereby saved the interface-free resources between subscriber equipment and base station greatly, improved the utilance of system.

As shown in figure 10, a kind of terminal equipment for the embodiment of the invention provides is used for monitoring carrier wave, comprising:

Monitoring carrier wave determining unit 1001 is used for determining that one is formed carrier wave as monitoring carrier wave;

Monitoring unit 1002 is used for when terminal equipment is in idle condition, monitors described definite monitoring carrier wave.In the present embodiment, terminal equipment can be subscriber equipment.

In the present embodiment, when it should be noted that the base station calling terminal equipment, also comprise:

Paging indication information receiving element 1003 is used on this monitoring carrier wave receiving first paging indication information that the base station sends, first paging indication information of this moment be used to indicate terminal equipment need on which concrete running time-frequency resource paging receiving message.

Beep-page message receiving element 1004 is used for the first paging indication information paging receiving message that receives according to described.

In other embodiments, paging indication information receiving element 1003 also is used for receiving the base station on all composition carrier waves or the spendable composition carrier wave of described terminal equipment and sends second paging indication information, and second paging indication information of this moment is used for sending to terminal equipment indication base station the composition carrier wave of beep-page message.Beep-page message receiving element 1004 also is used for paging receiving message on the composition carrier wave of the base station transmission beep-page message that described second paging indication information is indicated.

It is also to be noted that, when terminal equipment, also comprises when regional mobile different:

System message receiving element 1005 is used to receive the system message of base station;

Carrier wave configuration determination unit 1006, be used for the system message that receives according to described, the base station of judgement current region disposes different with the carrier wave of neighbours base station and the monitoring carrier wave current monitoring of terminal equipment does not exist in the neighbours base station, and then trigger position updating block 1007 carries out the position renewal of subscriber equipment.

Described position updating block 1007, the position that is used for triggering terminal equipment is upgraded.

As shown in figure 11, the structural representation of monitoring carrier wave determining unit 1001 in a kind of terminal equipment that provides for the embodiment of the invention, this unit comprises:

Signaling receives subelement 1101, is used to the affirmation message that receives the signaling that carries monitoring carrier wave information of base station transmission and receive the monitoring carrier wave of base station transmission;

Information stores subelement 1102 is used to store described monitoring carrier wave information; Wherein, the described signaling that carries monitoring carrier wave information is a radio resource control information, perhaps media access control protocol data unit, perhaps physical layer signaling; Described monitoring carrier wave information comprises: monitoring carrier wave sequence number, and/or monitoring carrier wave frequency information; Described radio resource control information comprises: Radio Resource control connection release message.

As shown in figure 12, in a kind of terminal equipment that provides for the embodiment of the invention when described monitoring carrier wave be when determining by UE, described monitoring carrier wave determining unit 1001 comprises:

Monitoring carrier wave chooser unit 1201 is used to select one to form carrier wave as monitoring carrier wave;

Signaling sends subelement 1202, is used for sending the signaling that carries monitoring carrier wave information to the base station.

As shown in figure 13, when determining monitoring carrier wave according to terminal equipment and base station predetermined algorithm in a kind of terminal equipment that provides for the embodiment of the invention, described monitoring carrier wave determining unit 1001 comprises:

Monitoring carrier wave is determined subelement 1301, is used for determining monitoring carrier wave according to terminal equipment and base station predetermined algorithm; Wherein, described predetermined algorithm comprises: the number according to the number of Terminal Equipment Identifier and descending composition carrier wave or current available descending composition carrier wave is determined monitoring carrier wave, perhaps determines monitoring carrier wave according to the frequency of forming carrier wave.

It should be noted that described monitoring carrier wave determining unit 1001 also comprises when determining monitoring carrier wave according to terminal equipment and base station predetermined algorithm:

Frequency judgment sub-unit 1302 is used to judge whether the monitoring carrier wave frequency of current monitoring is the frequency of the determined monitoring carrier wave of pre-defined algorithm in the neighbours base station;

If the monitoring carrier wave frequency of determining in the pre-defined algorithm then continues to monitor this monitoring carrier wave;

Switch subelement 1303, be used for then the monitoring carrier wave of current monitoring being switched to the monitoring carrier wave of neighbours base station if not the definite monitoring carrier wave frequency of pre-defined algorithm.

As shown in figure 14, the base station for the embodiment of the invention provides comprises:

Monitoring carrier wave determining unit 1401 is used to terminal equipment to determine that a carrier wave is as monitoring carrier wave;

Information interaction unit 1402 is used for carrying out information interaction with terminal equipment, so that terminal equipment is monitored described definite monitoring carrier wave when being in idle condition.

As shown in figure 15, monitoring carrier wave determining unit 1401 structural representations described in the base station that provides for the embodiment of the invention, this unit comprises:

Signaling sends subelement 14010, be used to send the signaling that carries monitoring carrier wave information to terminal equipment and the affirmation message that sends monitoring carrier wave to terminal equipment;

And/or signaling receives subelement 14012, is used for the signaling that carries monitoring carrier wave information that receiving terminal apparatus sends.

It should be noted that described monitoring carrier wave determining unit 1401, can also comprise:

Monitoring carrier wave is determined subelement 14014, is used for determining monitoring carrier wave according to terminal equipment and base station predetermined algorithm; Wherein, described predetermined algorithm comprises: the number according to the number of Terminal Equipment Identifier and descending composition carrier wave or current available descending composition carrier wave is determined monitoring carrier wave, perhaps determines monitoring carrier wave according to the frequency of forming carrier wave.

As shown in figure 16, information interaction unit 1402 structural representations described in the base station that provides for the embodiment of the invention, this unit comprises:

With the mutual subelement 14020 of network side, be used to send carry monitoring carrier wave information signaling to network side entity; And when described network side entity has service needed call terminal equipment, receive the beep-page message that described network side entity sends, and determine whether described beep-page message carries terminal equipment monitoring carrier wave information;

With mutual first subelement 14022 of end side, be used for when determining that with the mutual subelement 14020 of network side described beep-page message carries terminal equipment monitoring carrier wave information, the monitoring carrier wave information of the terminal equipment that carries according to beep-page message, on described monitoring carrier wave, send first paging indication information and beep-page message to terminal equipment, at this moment, first paging indication information be used to indicate terminal equipment need on which concrete running time-frequency resource paging receiving message.

It should be noted that when the base station is determined not have the monitoring carrier wave information of carried terminal equipment in the described beep-page message, also comprise:

With mutual second subelement 14024 of end side, be used for when determining that with the mutual subelement 14020 of network side described beep-page message does not have the monitoring carrier wave information of carried terminal equipment, form transmission second paging indication information on carrier wave or the spendable composition carrier wave of described terminal equipment at all, at this moment, second paging indication information is used for sending to terminal equipment indication base station the composition carrier wave of beep-page message; And send beep-page message to terminal equipment on the composition carrier wave of the base station of in described second paging indication information, indicating transmission beep-page message.

As shown in figure 18, be a kind of Mobility Management Entity that the embodiment of the invention provides, this entity comprises:

Monitoring carrier wave determining unit 1801 is used to subscriber equipment to select one to form carrier wave as monitoring carrier wave;

Information interaction unit 1802 is used for carrying out information interaction with described base station, makes and monitors described definite monitoring carrier wave when described subscriber equipment is in idle condition.

Wherein, described information interaction unit further comprises:

Message sends subelement, is used for sending the message that carries monitoring carrier wave information to described base station, so that described base station sends the signaling that carries monitoring carrier wave information; Wherein, the message of the monitoring carrier wave information of described Mobility Management Entity transmission can be: the customer equipment context release command message.

A kind of carrier sense device that the embodiment of the invention provides is by determining that a conduct in a plurality of composition carrier waves of LTE-Advanced system is a monitoring carrier wave; When terminal equipment during, only monitor described definite monitoring carrier wave, thereby reduce the monitoring power consumption of terminal equipment greatly in idle condition.In prior art, when idle condition, all carrier waves are compared in the needs monitoring LTE-Advanced system, and terminal equipment of the present invention only need be monitored a monitoring carrier wave, thereby make power consumption of terminal equipment reduce greatly, increased the stand-by time of terminal equipment.Meanwhile, the base station can also be by sending beep-page message on the composition carrier wave of appointment or on definite monitoring carrier wave, thereby saved the interface-free resources between terminal equipment and base station greatly, improved the utilance of system.

Through the above description of the embodiments, one of ordinary skill in the art will appreciate that: realize that all or part of step in the foregoing description method is to instruct relevant hardware to finish by program, described program can be stored in the computer read/write memory medium, this program is when carrying out, comprise step as above-mentioned method embodiment, described storage medium, as: ROM/RAM, magnetic disc, CD etc.

The above; only be the specific embodiment of the present invention, but protection scope of the present invention is not limited thereto, anyly is familiar with those skilled in the art in the technical scope that the present invention discloses; can expect easily changing or replacing, all should be encompassed within protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with the protection range of claim.

Claims

1. a carrier sensing method is characterized in that, comprising:

Determine that one is formed carrier wave as monitoring carrier wave;

2. carrier sensing method according to claim 1 is characterized in that, the described step of determining a composition carrier wave as monitoring carrier wave comprises:

Receive the signaling that carries monitoring carrier wave information that the base station sends;

Store described monitoring carrier wave information;

Wherein, the described signaling that carries monitoring carrier wave information is a radio resource control information, perhaps media access control protocol data unit, perhaps physical layer signaling; Described monitoring carrier wave information comprises: monitoring carrier wave sequence number, and/or monitoring carrier wave frequency information; Described radio resource control information comprises: Radio Resource control connection release message.

3. carrier sensing method according to claim 2 is characterized in that, before the signaling that carries monitoring carrier wave information that described reception base station sends, also comprises:

Mobility Management Entity is that subscriber equipment selects one to form carrier wave as monitoring carrier wave;

Mobility Management Entity sends the message that carries monitoring carrier wave information to described base station, so that described base station sends the signaling that carries monitoring carrier wave information.

4. carrier sensing method according to claim 3 is characterized in that, the message of the monitoring carrier wave information that described Mobility Management Entity sends is: the customer equipment context release command message.

5. carrier sensing method according to claim 1 and 2 is characterized in that, the described step of determining a composition carrier wave as monitoring carrier wave comprises:

Select one to form carrier wave as monitoring carrier wave;

Send the signaling that carries monitoring carrier wave information to described base station.

6. carrier sensing method according to claim 5 is characterized in that, after described monitoring carrier wave is determined in described base station, also comprises:

Receive the affirmation message of the monitoring carrier wave of described base station transmission.

7. carrier sensing method according to claim 1 is characterized in that, the described step of determining a composition carrier wave as monitoring carrier wave comprises:

Determine monitoring carrier wave according to described subscriber equipment and base station predetermined algorithm; Wherein, described predetermined algorithm comprises: the number according to the number of described customer equipment identification and descending composition carrier wave or current available descending composition carrier wave is determined monitoring carrier wave, perhaps determines monitoring carrier wave according to the frequency of forming carrier wave.

8. carrier sensing method according to claim 7 is characterized in that, determines monitoring carrier wave according to the frequency of forming carrier wave, comprising:

Determine that all form the highest composition carrier wave of the minimum composition carrier wave of carrier wave medium frequencys or frequency or the main carrier of system is a monitoring carrier wave.

9. carrier sensing method according to claim 7 is characterized in that, determines also to comprise before the monitoring carrier wave step according to the number of the number of described customer equipment identification and descending composition carrier wave or current available descending composition carrier wave:

Receive the system message that described base station sends; Wherein, described system message comprises: the number information of the composition carrier wave of base station.

10. according to claim 7 or 8 described carrier sensing methods, it is characterized in that, if the predetermined algorithm that described subscriber equipment adopts for determining monitoring carrier wave according to the frequency of forming carrier wave, when described subscriber equipment from current base station when move the neighbours base station,

Whether the monitoring carrier wave frequency of judging current monitoring is the frequency of the determined monitoring carrier wave of pre-defined algorithm in described neighbours base station;

The monitoring carrier wave frequency of determining in the pre-defined algorithm then switches to the monitoring carrier wave of current monitoring the monitoring carrier wave of neighbours base station.

11. according to claim 1 or 2 or 3 or 4 or 6 or 7 or 8 or 9 described carrier sensing methods, it is characterized in that, also comprise:

On described monitoring carrier wave, receive paging indication information and the beep-page message that described base station sends.

12. according to claim 1 or 2 or 3 or 4 or 6 or 7 or 8 or 9 described carrier sensing methods, it is characterized in that, also comprise:

Receive described base station and form the paging indication information that sends on carrier wave or the spendable composition carrier wave of described subscriber equipment at all, described paging indication information is used to notify the composition carrier wave of described subscriber equipment paging receiving message;

According to the described paging indication information that receives, receive described base station according to the beep-page message that sends on the composition carrier wave of indicating in the described paging indication information.

13., it is characterized in that described subscriber equipment also comprises when different move between base stations according to claim 1 or 2 or 3 or 4 or 6 or 7 or 8 or 9 described carrier sensing methods:

Receive the system message of base station;

According to the described system message that receives, when the monitoring carrier wave of judging current monitoring does not exist, upgrade the position of described subscriber equipment in the neighbours base station.

14. a terminal equipment is characterized in that, comprising:

15. terminal equipment according to claim 14 is characterized in that, described monitoring carrier wave determining unit comprises:

Signaling receives subelement, is used to the affirmation message that receives the signaling that carries monitoring carrier wave information of base station transmission and receive the monitoring carrier wave of base station transmission;

The information stores subelement is used to store described monitoring carrier wave information;

16., it is characterized in that described monitoring carrier wave determining unit comprises according to claim 14 or 15 described terminal equipments:

Monitoring carrier wave chooser unit is used to select one to form carrier wave as monitoring carrier wave;

Signaling sends subelement, is used for sending the signaling that carries monitoring carrier wave information to the base station.

17. terminal equipment according to claim 14 is characterized in that, described monitoring carrier wave determining unit comprises:

Monitoring carrier wave is determined subelement, is used for determining monitoring carrier wave according to described terminal equipment and base station predetermined algorithm; Wherein, described predetermined algorithm comprises: the number according to the number of customer equipment identification and descending composition carrier wave or current available descending composition carrier wave is determined monitoring carrier wave, perhaps determines monitoring carrier wave according to the frequency of forming carrier wave.

18. terminal equipment according to claim 17 is characterized in that, if the predetermined algorithm that adopts for determining monitoring carrier wave according to the frequency of forming carrier wave, when described terminal equipment from current base station when move the neighbours base station, also comprise:

The frequency judgment sub-unit is used to judge whether the monitoring carrier wave frequency of current monitoring is the frequency of the determined monitoring carrier wave of pre-defined algorithm in the neighbours base station;

Switch subelement, be used for then the monitoring carrier wave of current monitoring being switched to the monitoring carrier wave of neighbours base station if not the definite monitoring carrier wave frequency of pre-defined algorithm.

19. according to claim 14 or 15 or 17 described terminal equipments, it is characterized in that, during the base station calling subscriber equipment, also comprise:

The indication information receiving element is used for receiving first paging indication information that described base station sends on described monitoring carrier wave;

The beep-page message receiving element is used for the first paging indication information paging receiving message that receives according to described.

20. according to claim 14 or 15 or 17 described terminal equipments, it is characterized in that, during the base station calling subscriber equipment, also comprise:

Described indication information receiving element also is used to receive second paging indication information that described base station sends, and described second paging indication information is used to notify the composition carrier wave of described terminal equipment paging receiving message; Wherein, described second paging indication information is formed carrier wave or described terminal equipment sends spendable the composition on carrier wave or the described monitoring carrier wave by described base station at all;

The beep-page message receiving element is used for second paging indication information that receives according to described, receives the beep-page message that transmits on the described composition carrier wave; Wherein, described beep-page message by the base station according to forming of indicating in described second paging indication information sending on the carrier wave.

21., it is characterized in that terminal equipment also comprises according to claim 14 or 15 or 17 described terminal equipments when different move between base stations:

The system message receiving element is used to receive the system message of base station;

Carrier wave configuration determination unit is used for the system message that receives according to described, judges that the monitoring carrier wave of current monitoring does not exist in the neighbours base station;

The position updating block is used to upgrade the position of described terminal equipment.

22. a base station is characterized in that, comprising:

23. base station according to claim 22 is characterized in that, described information interaction unit comprises:

With the mutual subelement of network side, be used to send carry monitoring carrier wave information signaling to network side entity; And when described network side entity has service needed call terminal equipment, receive the beep-page message that described network side entity sends, and determine whether described beep-page message carries terminal equipment monitoring carrier wave information;

With mutual first subelement of end side, be used for when described and the mutual subelement of network side determine that described beep-page message carries described terminal equipment monitoring carrier wave information, the monitoring carrier wave information of the terminal equipment that carries according to described beep-page message sends first paging indication information and described beep-page message to described terminal equipment on described monitoring carrier wave.

24. base station according to claim 23 is characterized in that, described information interaction unit also comprises:

With mutual second subelement of end side, be used for when described and the mutual subelement of network side determine that described beep-page message does not have the monitoring carrier wave information of carried terminal equipment, form transmission second paging indication information on carrier wave or the spendable composition carrier wave of described terminal equipment at all, described second paging indication information is used for sending to terminal equipment indication base station the composition carrier wave of beep-page message; And send described beep-page message to terminal equipment on the composition carrier wave of the base station of in described second paging indication information, indicating transmission beep-page message.

25. a Mobility Management Entity is characterized in that, comprising:

26. Mobility Management Entity according to claim 25 is characterized in that, described information interaction unit further comprises:

Message sends subelement, is used for sending the message that carries monitoring carrier wave information to described base station, so that described base station sends the signaling that carries monitoring carrier wave information; Wherein, the message of the monitoring carrier wave information of described Mobility Management Entity transmission is: the customer equipment context release command message.