CN105991212A - Cell deactivation method and terminal - Google Patents
Cell deactivation method and terminal Download PDFInfo
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- CN105991212A CN105991212A CN201510050871.9A CN201510050871A CN105991212A CN 105991212 A CN105991212 A CN 105991212A CN 201510050871 A CN201510050871 A CN 201510050871A CN 105991212 A CN105991212 A CN 105991212A
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Abstract
The invention discloses a cell deactivation method and a terminal. The method comprises the following steps: acquiring deactivation indication information; and based on the deactivation indication information, deactivating a first auxiliary cell of a PUCCH (Physical Uplink Control Channel) group when the deactivation trigger conditions of the first auxiliary cell are met, wherein the first auxiliary cell is an auxiliary cell configured with a PUCCH, and the PUCCH is used to send the uplink control information of the cells in the PUCCH group.
Description
Technical field
The present invention relates to the communications field, particularly relate to a kind of community anti-activating method and terminal.
Background technology
Development along with communication technology, it is proposed that the technology of carrier aggregation, such a base station can be covered at it
Possible much 32 of the community that the scope of lid can be formed, the community number for same terminal service too increases,
In technology before, generally carried out the transmission of ascending control information by main plot, but an if terminal
Serving cell number a lot of time, will cause the phenomenon of the over loading of main plot, the most just propose employing auxiliary
Community carries out the transmission of ascending control information.But each community is to having state of activation and deexcitation
State, when a secondary cell is for during for the community of the ascending control information of other cell transmission, is somebody's turn to do such as where
Manage its deactivating operation, the most not yet have been resolved.
Summary of the invention
In view of this, embodiment of the present invention expectation provides a kind of community anti-activating method and terminal, with at least portion
The problem of the deexcitation of secondary cell in PUCCH group in decomposition certainly existing technology.
For reaching above-mentioned purpose, the technical scheme is that and be achieved in that:
Embodiment of the present invention first aspect provides a kind of community anti-activating method, and described method includes:
Obtain deexcitation instruction information;
Information is indicated, when meeting the first secondary cell deexcitation trigger condition to PUCCH according to described deexcitation
First secondary cell of group carries out deexcitation process;
Wherein, described first secondary cell is the secondary cell being configured with PUCCH, and described PUCCH is for sending out
Send the ascending control information of described PUCCH Zu Neige community.
Preferably, described acquisition deexcitation instruction information, including:
Receive community deexcitation configuration information;
Wherein, described community deexcitation configuration information includes community deexcitation instruction.
Preferably, described reception community deexcitation configuration information includes:
Described community deexcitation configuration information is received from MAC data bag.
Preferably, the trigger condition of described first secondary cell deexcitation includes:
The deexcitation instruction of described community, indicates described first secondary cell deexcitation.
Preferably, described deexcitation instruction information includes that first kind deexcitation instruction information and/or Equations of The Second Kind deactivate
Instruction information alive.
Preferably, described acquisition deexcitation instruction information includes:
Obtain packet data inactivity timer configuration information;
Described packet data inactivity timer configuration information is used for indicating terminal to be configured to Active Timer.
Preferably, the trigger condition of described first secondary cell deexcitation include with:
Packet data inactivity timer time-out corresponding to described first secondary cell.
Preferably, during described first secondary cell deexcitation, perform to preset deexcitation according to predefined rule and process,
Including following at least one:
Retain the PUCCH resource of described first secondary cell;
Monitor the appointment wireless link of described first secondary cell;
Continue logical with the ascending control information of other communities that described first secondary cell belongs to same PUCCH group
The PUCCH crossing described first secondary cell sends;
Stop the packet data inactivity timer of described first secondary cell;
Empty the HARQ caching of described first secondary cell;
Retain on the PUCCH of described first secondary cell transmission belongs to same with described first secondary cell
The ascending control information of other communities of PUCCH group.
Preferably, during described first secondary cell deexcitation, perform to preset deexcitation according to predefined rule and process,
Also include following at least one:
Stop at transmission detection reference signal in described first secondary cell;
Stop reporting the downlink channel condition information of described first secondary cell;
Stop at the information transmission on the uplink shared channel UL-SCH of described first secondary cell;
Stop at the information transmission on the RACH of described first secondary cell;
Cease listening for the physical downlink control channel PDCCH of described first secondary cell;
Cease listening for the second secondary cell for providing the physical down of service to control information for described first secondary cell
The monitoring of PDCCH.
Preferably, during described first secondary cell deexcitation, perform to preset deexcitation according to predefined rule and process,
Also include following at least one:
In described first secondary cell is described first secondary cell place PUCCH group, only one has up
When the secondary cell of carrier wave and described PUCCH group also have other secondary cells being active, keep institute
State the first secondary cell to be active;
When the dispatching cell that described first secondary cell is other communities, described first secondary cell is kept to be in sharp
The state of living;
When described first secondary cell is instructed to exist uplink grant or downlink allocation, keep described
First secondary cell is active.
Embodiment of the present invention second aspect provides a kind of terminal, and described terminal includes:
Acquiring unit, is used for obtaining deexcitation instruction information;
Performance element, for indicating information according to described deexcitation, triggers meeting the first secondary cell deexcitation
During condition, the first secondary cell to PUCCH group carries out deexcitation process;
Wherein, described first secondary cell is the secondary cell being configured with PUCCH, and described PUCCH is for sending out
Send the ascending control information of described PUCCH Zu Neige community.
Preferably, described acquiring unit, it is used for receiving community deexcitation configuration information;
Wherein, described community deexcitation configuration information includes community deexcitation instruction.
Preferably, described acquiring unit, specifically for receiving the deexcitation of described community from MAC data bag
Configuration information.
Preferably, the trigger condition of described first secondary cell deexcitation includes:
The deexcitation instruction of described community, indicates described first secondary cell deexcitation.
Preferably, described deexcitation instruction information includes that first kind deexcitation instruction information and/or Equations of The Second Kind deactivate
Instruction information alive.
Preferably, described acquiring unit, specifically for obtaining packet data inactivity timer configuration information;
Described packet data inactivity timer configuration information is used for indicating terminal to be configured with packet data inactivity timer.
Preferably, the trigger condition of described first secondary cell deexcitation includes:
Packet data inactivity timer time-out corresponding to described first secondary cell.
Preferably, described performance element, specifically for following at least one:
Retain the PUCCH resource of described first secondary cell;
Monitor the appointment wireless link of described first secondary cell;
Continue logical with the ascending control information of other communities that described first secondary cell belongs to same PUCCH group
The PUCCH crossing described first secondary cell sends;
Stop the packet data inactivity timer of described first secondary cell;
Empty the HARQ caching of described first secondary cell;
Retain on the PUCCH of described first secondary cell transmission belongs to same with described first secondary cell
The ascending control information of other communities of PUCCH group.
Preferably, described performance element, also particularly useful for perform following at least one:
Stop at transmission detection reference signal in described first secondary cell;
Stop reporting the downlink channel condition information of described first secondary cell;
Stop at the information transmission on the uplink shared channel UL-SCH of described first secondary cell;
Stop at the information transmission on the RACH of described first secondary cell;
Cease listening for the physical downlink control channel PDCCH of described first secondary cell;
Cease listening for the second secondary cell for providing the physical down of service to control information for described first secondary cell
The monitoring of PDCCH.
Preferably, described performance element, also particularly useful for perform following at least one:
In described first secondary cell is described first secondary cell place PUCCH group, only one has up
When the secondary cell of carrier wave and described PUCCH group also have other secondary cells being active, keep institute
State the first secondary cell to be active;
When the dispatching cell that described first secondary cell is other communities, described first secondary cell is kept to be in sharp
The state of living;
When described first secondary cell is instructed to exist uplink grant or downlink allocation, keep described
First secondary cell is active.
Anti-activating method described in the embodiment of the present invention and terminal, indicate the acquisition of information by deexcitation and depend on
According to described deexcitation instruction information, the first secondary cell in PUCCH group is carried out deexcitation process, it is possible to very
The problem not knowing in good solution prior art how to process the interior first secondary cell deexcitation of PUCCH group;Real
Show the deexcitation standardization processing of the first secondary cell, it is simple to subsequent communications system can more efficiently and flexibly
Realize Control on Communication to each community.
Accompanying drawing explanation
Fig. 1 is the schematic flow sheet of the community anti-activating method described in the embodiment of the present invention;
Fig. 2 is one of schematic diagram of deexcitation instruction information described in the embodiment of the present invention;
Fig. 3 is the two of the schematic diagram of the deexcitation instruction information described in the embodiment of the present invention;
Fig. 4 is the structural representation of the terminal described in the embodiment of the present invention;
Fig. 5 is the two of the schematic flow sheet of the community deexcitation described in the embodiment of the present invention;
Fig. 6 is the three of the schematic flow sheet of the community deexcitation described in the embodiment of the present invention.
Detailed description of the invention
Below in conjunction with Figure of description and specific embodiment technical scheme done and further explain in detail
State.
The present embodiment aims to provide a kind of community anti-activating method, and this secondary cell is used as in PUCCH group
The first secondary cell in transmitting uplink control information.PUCCH group is the one of the community of same Terminal for service
Plant packet;At least one community is included in one PUCCH group;In PUCCH group described in the present embodiment
At least provided with at least one the first secondary cell, this first secondary cell is configured with PUCCH, described first auxiliary little
The PUCCH in district can be used for as other communities in this PUCCH group to base station transmitting uplink control information.
The state direct correlation of this community whether the community in this PUCCH group can utilize in the first secondary cell
The PUCCH (PUCCH resource that herein, PUCCH refers to) of configuration carries out the biography of ascending control information
Defeated, therefore whether whether the state of this community activate and be related to the communication service of terminal and can continue to, to this end,
Propose a kind of method indicating according to deexcitation based on terminal and carrying out community deexcitation in the present embodiment.This
The method of embodiment, is primarily based on PUCCH group and proposes the anti-activating method of a kind of first secondary cell,
Compensate for existing communication technology and communication protocol in this regulation on the one hand, follow-up facilitate communication system by the
The standardization deactivating activation processing of one secondary cell, and the efficiency of management.And this deexcitation instruction by
Base station sends, and is the current operating conditions according to the first secondary cell by base station, the first secondary cell and PUCCH
The incidence relation of other communities in group determines, such base station can comprehensively control the state of each community,
And can preferably promote the advantages such as message capacity.
Embodiment of the method:
As indicated with 1, the present embodiment provides a kind of community anti-activating method, described method includes:
Step S110: obtain deexcitation instruction information;
Step S120: indicate information according to described deexcitation, in satisfied first secondary cell deexcitation trigger condition
Time the first secondary cell of PUCCH group is carried out deexcitation process;
Wherein, described first secondary cell is the secondary cell being configured with PUCCH, and described PUCCH is for sending out
Send the ascending control information of described PUCCH Zu Neige community.
In the present embodiment, described deexcitation instruction information is to receive from base station, concrete as from LTE base station (e.g.,
ENB) receive.PUCCH group herein can be to carry out dividing according to Timing Advance group TAG,
Usually multiple communities belonged in same TAG of same terminal service are all divided into same PUCCH group
In, a PUCCH group can include the community in one or more TAG group;Can also be base station according to
The PUCCH group that other grouping strategies are formed;The grouping information of this PUCCH group also can be sent to by base station
Terminal, to inform the grouping information for its community serviced that terminal is current.Concrete such as a PUCCH group
Including at least 1 secondary cell, which specify or only a secondary cell is configured with PUCCH, be then configured with
The community of PUCCH is the first secondary cell, and the state of this first secondary cell directly influences whether this PUCCH group
Whether other secondary cells interior can upload ascending control information.This PUCCH Zu Neige community is formed for this
Base station will appreciate that the operation conditions of each community up till now, such that it is able to by according to each in PUCCH group
The operation conditions of community, sends deexcitation instruction information to terminal, so facilitates end side at terminal inner pair
Each community performs deexcitation and processes, and the deexcitation of the especially first secondary cell processes.
Described TAG is the abbreviation of Timing Advance Group.The radio signal propagation of different polymerization carrier waves
The difference of characteristic and propagation path may be relatively big, and the signal that different polymerization carrier wave can be caused to send arrives base station
There is difference in time, causes and interferes with each other.In order to avoid this interference, need different carrier is used difference
Timing Advance (Timing Advance, TA) carry out the adjustment of up transmission time, in order to ensure not
The signal sent in same sub-frame of uplink with carrier wave arrives the time unifying of base station.Determine to this end, introduce
Time lead group (Timing Advance Group, TAG) concept, carrier wave consistent for propagation characteristic is returned
Being a TAG, in same TAG, all of carrier wave uses identical TA.
The most described ascending control information comprises the steps that all PUCCH by the first cell configuration
Send various information, the concrete ACK/NACK feedback such as uplink resource scheduling request, downlink data and
Downlink channel condition information, downlink channel condition information is concrete such as channel quality indication (CQI) information, pre-coding matrix
The information such as instruction, order instruction.
Further, described step S110 comprises the steps that reception community deexcitation configuration information;Wherein, described
Community deexcitation configuration information includes community deexcitation instruction.
During concrete implementation, described community deexcitation configuration information except include the first secondary cell for
The first secondary cell is indicated to carry out the instruction information of deexcitation, it is also possible to include the instruction of the deexcitation of other communities
Information, specifically the deexcitation instruction letter of each secondary cell in the PUCCH group of the first secondary cell as described in include
Breath etc..
Alternatively, described reception community deexcitation configuration information includes: receive described from MAC data bag
Community deexcitation configuration information.
Described MAC is the abbreviation of Media Access Control, and corresponding Chinese is that media get involved control.
Described MAC data bag concretely MAC PDU.Described PDU is Protocol Data Unit, corresponding
Chinese protocol Data Unit, be the type of a kind of packet.
Usual described MAC data includes middle bag MAC control elements (MAC controls information), described
The content of MAC control elements includes the local character set identifier LCID in MAC head, institute
The content stating LCID can be such as table 1 below:
Index | LCID value |
01011-11001 | Retention |
11011 | Activation/deactivation |
Being 11011 for the LCID that the form of secondary cell activation/deactivation is corresponding, corresponding MAC controls
Form is as shown in Figure 2 for unit (Control Elenment, CE)..This MAC CE is the fixing of single byte
Length, is defined as follows:
Ci: if which SCell is this field indicate be activated deexcitation (identical with cell index).Wherein Ci
It is set to 1 expression Cell be activated.CiIt is set to 0 expression Cell be deactivated.Wherein, the value model of described i
Enclose be 1 to 7 integer.R: reservation bit, is set to " 0 ".Therefore deexcitation instruction in described community can be led to
Cross CiIndicate.
Obviously present embodiments provide a kind of the most how to the side of terminal transmission described deexcitation instruction information
Method.
Further, described deexcitation instruction information includes that first kind deexcitation instruction information and/or Equations of The Second Kind go
Activate instruction information.
The number of the Serving cell that ordinary terminal is corresponding is typically limited, concrete such as existing most of terminals
Normally only support 5 Serving cells;But being as the further development of carrier aggregation technology, terminal can be propped up
The Serving cell number of support may be increased to 7 by 5, even up to 32.
Concrete the most such as, as in figure 2 it is shown, correspondence be described first kind deexcitation instruction information, Oct1 in Fig. 3,
Described Equations of The Second Kind deexcitation that what Oct2, Oct3 and Oct4 field was corresponding be instruction information, described Oct2,
Oct3 and Oct4 field includes Ci;CiDefinition may refer to above corresponding associated description, herein,
The value of the described i in Equations of The Second Kind deexcitation instruction information from 1 to 31 integer.
Described first kind deexcitation instruction information and described Equations of The Second Kind deexcitation instruction information are for indicating little
District carries out the instruction information of deexcitation, and different at least can include first kind deexcitation instruction information and Equations of The Second Kind
The information format of deexcitation instruction information is different.
Described first kind deexcitation instruction can be indicated by LCID described in table 1, described Equations of The Second Kind
Deexcitation instruction information can be indicated, such as by taking out a value in the LCID retained in table 1
A value is taken out from LCID 01011-11001.
Step S110 described in the present embodiment also can use following methods to obtain deexcitation instruction information, the most such as
Described step S110 may also include that acquisition packet data inactivity timer configuration information;
Described packet data inactivity timer configuration information is used for indicating terminal to be configured to Active Timer.
Terminal one intervalometer of configuration, the chronometer of usual described packet data inactivity timer sensible to the appointment time time,
Described terminal, under the triggering of the timing of described packet data inactivity timer, carries out deexcitation to described first secondary cell
Process.The most such as, the packet data inactivity timer of one countdown of configuration, when packet data inactivity timer lost efficacy or time-out,
Described terminal carries out deexcitation process to described first secondary cell.
Described packet data inactivity timer configuration information is used for referring to that exemplary terminal is configured to Active Timer and startup deactivates
Active timer, but the timing duration of described packet data inactivity timer, can be according to the duration of packet data inactivity timer
Information is arranged.The duration information of described packet data inactivity timer, can receive together with described configuration information,
Can also individually receive, specifically the duration information such as described packet data inactivity timer can be obtained by RRC information
?.The timing that described packet data inactivity timer time-out is described packet data inactivity timer exceedes described timing duration.
Described RRC information is the abbreviation of Radio Resource Control message, and corresponding Chinese is wireless
Resource Control Message;It is typically to issue the specific messages of counterpart terminal, in this message, carries various message,
In the present embodiment, described packet data inactivity timer duration information is sent to terminal by described RRC information.
During concrete implementation, described RRC information is also possible that the grouping information of described PUCCH group,
This PUCCH grouping information includes the information of PUCCH group and the information of the first secondary cell of PUCCH group,
So while terminal unit knows the cell group of its each Serving cell, also obtain first auxiliary little simultaneously
The duration information that the packet data inactivity timer in district can configure, which reduces the information of terminal and the carrying out of base station
Interaction times, reduces the power consumption of terminal, extends the standby time of terminal.
The trigger condition of described first secondary cell deexcitation include following at least one:
Packet data inactivity timer time-out corresponding to described first secondary cell;The deexcitation instruction of described community, instruction
Described first secondary cell deexcitation.
First kind of way: packet data inactivity timer is for keeping state of activation to carry out timing the first secondary cell
Intervalometer, when the timer times out, then it is assumed that the first secondary cell should be deactivated, and is carried out by intervalometer
The triggering of the deexcitation of the first secondary cell, it is clear that have and realize easy advantage.
Second method: intervalometer need not be set in terminal unit, directly go in the community receiving base station transmission
When activating instruction information, the first secondary cell is carried out deexcitation;This method the most also can realize the of simplicity
The triggering of the deexcitation of one secondary cell.
When implementing, both modes substantially can assist use, specifically when as described in first auxiliary little
When district is activated, terminal opens packet data inactivity timer, and when packet data inactivity timer time-out, terminal carries out described
Deexcitation processes, and when described packet data inactivity timer has not timed out, but described terminal receives terminal to be sent out
During the deexcitation instruction sent, even if described packet data inactivity timer has not timed out, terminal also can perform described deexcitation
Process.
Described step S120 include following at least one:
Retain the PUCCH resource of described first secondary cell;
Monitor the appointment wireless link of described first secondary cell;
Continue logical with the ascending control information of other communities that described first secondary cell belongs to same PUCCH group
The PUCCH crossing described first secondary cell sends;
Stop the packet data inactivity timer of described first secondary cell;
Empty the HARQ caching of described first secondary cell;
Retain on the PUCCH of described first secondary cell transmission belongs to same with described first secondary cell
The ascending control information of other communities of PUCCH group.
Described appointment wireless link can include in uplink radio link and down wireless link wherein one or
Multilink;What specifically the first secondary cell as described in monitoring was corresponding send discovery signal or reference signal wireless
The monitoring of link.
The upload control letter of same PUCCH group other communities interior is belonged to for convenience with described first secondary cell
The transmission of breath, (PUCCH herein is it is believed that PUCCH to remain the PUCCH of described first secondary cell
Resource), so other secondary cells may utilize this PUCCH and proceed the transmission of ascending control information, so
The normal of community that can facilitate other holding state of activation in the first secondary cell place PUCCH group works,
The phenomenon that other communities also cannot normally work is caused after avoiding the first secondary cell deexcitation.
In described HARQ caching, storage carries out generation in information interactive process for terminal and respective cell
The data associated with hybrid automatic repeat-request;Herein, empty described HARQ caching to be regarded as removing this
Data in HARQ caching.
The deexcitation of first secondary cell, deexcitation to described first secondary cell need not carry out timing again,
Therefore in order to save energy consumption further, stop the timing of the packet data inactivity timer to described first secondary cell.
Retain on the PUCCH of described first secondary cell transmission belongs to same with described first secondary cell
The ascending control information of other communities of PUCCH group;Subsequent terminal so can be facilitated little based on using other
It is mutual that district carries out the information with base station, when implementing, generally includes the up control of clear first secondary cell
Information processed.
Further, described step S120 also include following at least one:
Stop at transmission detection reference signal in described first secondary cell;
Stop reporting the downlink channel condition information of described first secondary cell;
Stop at the information transmission on the uplink shared channel UL-SCH of described first secondary cell;
Stop at the information transmission on the RACH of described first secondary cell;
Cease listening for the physical downlink control channel PDCCH of described first secondary cell;
Cease listening for the second secondary cell for providing the physical down of service to control information for described first secondary cell
The monitoring of PDCCH.
Obvious first secondary cell is instructed to deexcitation, and the first secondary cell just stopped the transmission of business datum, for
Saving energy consumption, terminal can stop the detection reference signal that detects described first community, stop to
Include on base station that downlink channel condition information, described downlink channel condition information comprise the steps that channel quality indicates
The instruction of information, pre-coding matrix, order instruction etc..
Described step S120 also include following at least one:
In described first secondary cell is described first secondary cell place PUCCH group, only one has up
When the secondary cell of carrier wave and described PUCCH group also have other secondary cells being active, keep institute
State the first secondary cell to be active;
When the dispatching cell that described first secondary cell is other communities, described first secondary cell is kept to be in sharp
The state of living;When described first secondary cell is instructed to exist uplink grant or downlink allocation, keep
Described first secondary cell is active.
When the dispatching cell that described first secondary cell is other communities, described first secondary cell is kept to be in sharp
The state of living, so that other activation cell can continue to utilize in described first secondary cell place PUCCH group
The PUCCH of described first secondary cell carries out the transmission of ascending control information, and then it is logical to continue as terminal offer
Telecommunications services.
When described first secondary cell is the dispatching cell of other communities, the resource being described first secondary cell is used
In providing communication service for other communities, if the community that is scheduled corresponding to the first secondary cell also keeps state of activation,
Obviously the state of activation of described first secondary cell is also kept in the present embodiment, so it can be avoided that because of first
Other communities dispatched by it that the deexcitation of secondary cell causes can not be again for the problem of Terminal for service.
When described first secondary cell is instructed to exist uplink authorization or descending assignment, such as, auxiliary little by first
District configuration physical downlink control channel PDCCH information indicate described first secondary cell exist uplink authorization or
Downstream assigned, or at the Physical Downlink Control Channel configured by other Serving cells in carrier dispatching
PDCCH information indicates described first secondary cell to there is uplink authorization or downstream assigned, illustrates described first auxiliary little
Also having the transmission demand of up-downgoing data in district, the most described first secondary cell can not be deactivated.
Summary, present embodiments provides the anti-activating method of a kind of first secondary cell, compensate for existing skill
Art do not has the blank of the problem of solution to the deexcitation problem of the first secondary cell in PUCCH group, letter
Just the deexcitation achieving the first secondary cell, when can also ensure that the deexcitation again of the first secondary cell, also simultaneously
Avoid other communities are had a negative impact.
Apparatus embodiments
As shown in Figure 4, the present embodiment provides a kind of terminal, described terminal includes:
Acquiring unit 110, is used for obtaining deexcitation instruction information;
Performance element 120, for indicating information according to described deexcitation, in satisfied first secondary cell deexcitation
During trigger condition, the first secondary cell to PUCCH group carries out deexcitation process;
Wherein, described first secondary cell is the secondary cell being configured with PUCCH, and described PUCCH is for sending out
Send the ascending control information of described PUCCH Zu Neige community.
Terminal described in the present embodiment generally can be mobile phone or panel computer etc. and has the user of radio communication function
Equipment.
The most described acquiring unit 110 is tied according to the difference obtaining described deexcitation instruction information
Structure is different, the most such as, when described acquiring unit 110 by receiving described deexcitation instruction information from base station
Time, described acquiring unit 110 can include communication interface, and this communication interface can correspond to the structures such as reception antenna.
Described performance element 120 can be the structure such as storage medium and processor, and described storage medium stores
There is executable code.Described storage medium is with described processor by the communication interface of the inside of base station such as bus even
Connect.Described processor can be with the function of performance element 120 by performing described executable code.Described process
Device can be with central processor CPU, Micro-processor MCV, digital signal processor DSP or programmable array
PLC etc. have the processor of the information processing function or process chip.
In the present embodiment, described acquiring unit 110, it is used for receiving community deexcitation configuration information.Described
Community deexcitation configuration information includes community deexcitation instruction.Further, described acquiring unit 110, tool
Body is for receiving described community deexcitation configuration information from MAC data bag.
In the present embodiment, described MAC data bag, the content of described deexcitation configuration information and definition,
May refer to embodiment of the method, be just not repeated at this,
Described deexcitation instruction information includes first kind deexcitation instruction information and/or Equations of The Second Kind deexcitation instruction
Information.
As in figure 2 it is shown, described first kind deexcitation indicates field Oct that information possible correspondence base station sends;
As it is shown on figure 3, Equations of The Second Kind deexcitation instruction can corresponding Oct1, Oct2, Oct3 and Oct4.The described first kind
The specific definition of deexcitation instruction information and Equations of The Second Kind deexcitation instruction information may refer to embodiment of the method, then
Secondary also it is not repeated.
Further, described acquiring unit 110, can be also specifically for obtaining packet data inactivity timer configuration letter
Breath;Described packet data inactivity timer configuration information is used for indicating terminal to be configured to Active Timer.
Herein, packet data inactivity timer is the one of timer, therefore also includes packet data inactivity timer in described terminal,
This packet data inactivity timer can be used for triggering described performance element and performs the deexcitation process of the first secondary cell.
Further, the trigger condition of described first secondary cell deexcitation include following at least one:
Packet data inactivity timer time-out corresponding to described first secondary cell;
The deexcitation instruction of described community, indicates described first secondary cell deexcitation.
When implementing, both trigger conditions substantially can assist use, specifically when as described in first
When secondary cell deexcitation processes, terminal opens packet data inactivity timer, when packet data inactivity timer time-out, described
Performance element carries out described deexcitation process, when described packet data inactivity timer has not timed out, but described end
End have receive terminal send deexcitation instruction time, even if described packet data inactivity timer has not timed out, described in hold
Row unit also can perform described deexcitation and process.
Further, described performance element 120, specifically for following at least one: retain described
The PUCCH resource of one secondary cell;Monitor the appointment wireless link of described first secondary cell;With described first
The ascending control information of other communities that secondary cell belongs to same PUCCH group continues through described first auxiliary little
The PUCCH in district sends;Stop the packet data inactivity timer of described first secondary cell;Empty described first auxiliary little
The HARQ caching in district;That retain on the PUCCH of described first secondary cell transmission with described first secondary cell
Belong to the ascending control information of other communities of same PUCCH group.
Improve further as the present embodiment, described performance element 120, following at least also particularly useful for execution
One of them: stop at transmission detection reference signal in described first secondary cell;Stop reporting described first auxiliary
The downlink channel condition information of community;Stop at the uplink shared channel of described first secondary cell
Information transmission on UL-SCH;Stop at the information transmission on the RACH of described first secondary cell;
Cease listening for the physical downlink control channel PDCCH of described first secondary cell;And cease listening for the second secondary cell
For providing the physical down of service to control the monitoring of information PDCCH for described first secondary cell.
Additionally, described performance element 120, it may also be used for perform following at least one: when described first
Secondary cell be in described first secondary cell place PUCCH group only one have up-link carrier secondary cell and
When described PUCCH group also has other secondary cells being active, keep at described first secondary cell
In state of activation;When the dispatching cell that described first secondary cell is other communities, keep described first auxiliary little
District is active;When described first secondary cell is instructed to there is uplink grant or downlink allocation
Time, keep described first secondary cell to be active.So it can be avoided that other communities need utilization described
The resources such as the PUCCH of the first secondary cell provide communication service for terminal, and the other-end caused is because of first
What the deexcitation of secondary cell caused can not be in the problem of Terminal for service.
Below in conjunction with above-described embodiment several concrete examples of offer:
Example one:
Shown in Fig. 5 for based on one of community deexcitation processing method described in the embodiment of the present invention, including:
Step 101:LTE base station is by RRC information deactivating to the Serving cell of terminal configuration carrier aggregation
Active timer configuration information, PUCCH grouping information, the configuration information such as secondary cell information of transmission PUCCH.
Main plot belongs to PUCCH group 1, secondary cell 1 and secondary cell 2 and belongs to PUCCH group 2, and PUCCH
PUCCH in group 2 transmits in secondary cell 1.Herein, secondary cell 2 is secondary cell 1 and secondary cell 2
First secondary cell of the PUCCH group 2 at place.
Step 102: terminal activates described secondary cell 1 according to LTE base station instruction.
Step 103: terminal starts the packet data inactivity timer of secondary cell 1.
Step 104: terminal obtains the packet data inactivity timer configuration of secondary cell 1, i.e. secondary cell 1 is configured with
Active Timer, and the packet data inactivity timer time-out of secondary cell 1, the deexcitation performing secondary cell 1 processes.
Owing to secondary cell 1 is to transmit the community of PUCCH in PUCCH group 2, terminal is carried out according to following rule
The deexcitation of secondary cell 1 processes, including:
A) if there is following condition at least one time, keep secondary cell 1 state of activation:
Not having up-link carrier and secondary cell 2 in secondary cell 2 is to activate;
Secondary cell 1 is the dispatching cell of secondary cell 2;
Secondary cell 1 is instructed to there is uplink authorization or the descending assignment (thing such as, configured by secondary cell 1
There is uplink authorization or downstream assigned in reason downlink control channel information instruction secondary cell 1, or is adjusting across carrier wave
There is up awarding in the Physical Downlink Control Channel information instruction secondary cell 1 configured in degree by other Serving cells
Power or downstream assigned).
The state of activation of described holding secondary cell 1 is described secondary cell 1 and can not be deactivated, and terminal is restarted
The packet data inactivity timer of secondary cell 1;
B) when the conditions set forth above are not met, described secondary cell 1 carries out deexcitation process, institute according to following rule
State to process and at least include one below:
1) monitoring of the downlink of described secondary cell 1 is carried out, for example, it is possible to by described secondary cell 1
Signal intensity measures and monitors downlink.
2) PUCCH resource of described secondary cell 1 is retained;Same PUCCH group is belonged to secondary cell 1
The operation of secondary cell 2 is not worked on by the interference of secondary cell 1 deexcitation, described including being continuing with
PUCCH carries out uplink control information transmission.
3) ascending control information transmitted on this PUCCH is preserved.
4) secondary cell 1 stops operations described below:
Stop at transmission detection reference signal in described secondary cell 1;
Stop reporting the downlink channel condition information of described secondary cell 1;
Stop at the information transmission on the uplink shared channel UL-SCH of described secondary cell 1;
Stop at the information transmission on the RACH of described secondary cell 1;
Cease listening for the physical downlink control channel PDCCH of described secondary cell 1;
Cease listening for other secondary cells for providing the physical down of service to control information for described secondary cell 1
The monitoring of PDCCH.
5) the HARQ caching of secondary cell 1 is emptied.
Example two:
Shown in Fig. 6 for based on one of community deexcitation processing method described in the embodiment of the present invention, including:
Step 201:LTE base station configures the Serving cell of carrier aggregation by RRC information to terminal
PUCCH grouping information, the configuration information such as secondary cell information of transmission PUCCH.
Step 202: terminal is according to described configuration information, it is thus achieved that and preserve following information: main plot belongs to
PUCCH group 1, secondary cell 1 and secondary cell 2 belong in PUCCH group 2, and PUCCH group 2
PUCCH transmits in secondary cell 1.Secondary cell 2 is the first secondary cell in PUCCH group 2.
Step 203, described terminal activates described secondary cell 1 according to the instruction of LTE base station.
Step 204: contain the deexcitation instruction information of secondary cell 1 in the MAC data bag that terminal receives.
Step 205: secondary cell 1 is performed deexcitation and processes;Owing to secondary cell 1 is that PUCCH group 2 is uploaded
The community of defeated PUCCH, terminal carries out deexcitation process according to following rule, including:
If there is following condition at least one time, keep the state of activation of described secondary cell 1.
Not having up-link carrier and secondary cell 2 in secondary cell 2 is to activate;
Secondary cell 1 is the dispatching cell of secondary cell 2;
Secondary cell 1 is instructed to there is uplink authorization or the descending assignment (thing such as, configured by secondary cell 1
There is uplink authorization or downstream assigned in reason downlink control channel information instruction secondary cell 1, or is adjusting across carrier wave
There is up awarding in the Physical Downlink Control Channel information instruction secondary cell 1 configured in degree by other Serving cells
Power or downstream assigned),
The state of activation of the described secondary cell of described holding 1, being described secondary cell 1 can not be deactivated, eventually
End restarts the packet data inactivity timer of secondary cell 1.When the conditions set forth above are not met, described secondary cell 1 according to
Lower rule carries out deexcitation process, and described process at least includes one below:
1) monitoring of downlink is carried out;For example, it is possible to by described secondary cell 1 signal intensity is surveyed
Amount monitors downlink.
2) PUCCH resource of described secondary cell 1 is retained;Same PUCCH group is belonged to secondary cell 1
Secondary cell 2 can continue normally to work, and carries out ascending control information biography including being continuing with described PUCCH
Defeated.
3) ascending control information transmitted on this PUCCH is preserved.
4) secondary cell 1 stops operations described below:
Stop at transmission detection reference signal in described secondary cell 1;
Stop reporting the downlink channel condition information of described secondary cell 1;
Stop at the information transmission on the uplink shared channel UL-SCH of described secondary cell 1;
Stop at the information transmission on the RACH of described secondary cell 1;
Cease listening for the physical downlink control channel PDCCH of described secondary cell 1;
Cease listening for other secondary cells for providing the physical down of service to control information for described secondary cell 1
The monitoring of PDCCH.
5) the HARQ caching of secondary cell 1 is emptied.
In several embodiments provided herein, it should be understood that disclosed equipment and method,
Can realize by another way.Apparatus embodiments described above is only schematically, such as,
The division of described unit, is only a kind of logic function and divides, and actual can have other division when realizing
Mode, such as: multiple unit or assembly can be in conjunction with, or are desirably integrated into another system, or some are special
Levy and can ignore, or do not perform.It addition, the coupling each other of shown or discussed each ingredient,
Or direct-coupling or communication connection can be the INDIRECT COUPLING by some interfaces, equipment or unit or logical
Letter connect, can be electrical, machinery or other form.
The above-mentioned unit illustrated as separating component can be or may not be physically separate, makees
The parts shown for unit can be or may not be physical location, i.e. may be located at a place,
Can also be distributed on multiple NE;Can select according to the actual needs therein partly or entirely
Unit realizes the purpose of the present embodiment scheme.
It addition, each functional unit in various embodiments of the present invention can be fully integrated into a processing module
In, it is also possible to it is that each unit is individually as a unit, it is also possible to two or more unit collection
Become in a unit;Above-mentioned integrated unit both can realize to use the form of hardware, it would however also be possible to employ
Hardware adds the form of SFU software functional unit and realizes.
One of ordinary skill in the art will appreciate that: realize all or part of step of said method embodiment
Can be completed by the hardware that programmed instruction is relevant, aforesaid program can be stored in a computer-readable
Taking in storage medium, this program upon execution, performs to include the step of said method embodiment;And it is aforementioned
Storage medium include: movable storage device, read only memory (ROM, Read-Only Memory),
Random access memory (RAM, Random Access Memory), magnetic disc or CD etc. are various
The medium of program code can be stored.
The above, the only detailed description of the invention of the present invention, but protection scope of the present invention is not limited to
In this, any those familiar with the art, can be easily in the technical scope that the invention discloses
Expect change or replace, all should contain within protection scope of the present invention.Therefore, the protection of the present invention
Scope should be as the criterion with described scope of the claims.
Claims (20)
1. a community anti-activating method, it is characterised in that described method includes:
Obtain deexcitation instruction information;
Information is indicated, when meeting the first secondary cell deexcitation trigger condition to PUCCH according to described deexcitation
First secondary cell of group carries out deexcitation process;
Wherein, described first secondary cell is the secondary cell being configured with PUCCH, and described PUCCH is for sending out
Send the ascending control information of described PUCCH Zu Neige community.
Method the most according to claim 1, it is characterised in that
Described acquisition deexcitation instruction information, including:
Receive community deexcitation configuration information;
Wherein, described community deexcitation configuration information includes community deexcitation instruction.
Method the most according to claim 2, it is characterised in that
Described reception community deexcitation configuration information includes:
Described community deexcitation configuration information is received from MAC data bag.
4. the method according to claim 1, described in 2, it is characterised in that
The trigger condition of described first secondary cell deexcitation includes:
The deexcitation instruction of described community, indicates described first secondary cell deexcitation.
5. according to the method described in any one of Claims 1-4, it is characterised in that
Described deexcitation instruction information includes first kind deexcitation instruction information and/or Equations of The Second Kind deexcitation instruction
Information.
Method the most according to claim 1, it is characterised in that
Described acquisition deexcitation instruction information includes:
Obtain packet data inactivity timer configuration information;
Described packet data inactivity timer configuration information is used for indicating terminal to be configured to Active Timer.
7. according to the method described in claim 1 or 6, it is characterised in that
The trigger condition of described first secondary cell deexcitation include with:
Packet data inactivity timer time-out corresponding to described first secondary cell.
Method the most according to claim 1, it is characterised in that
During described first secondary cell deexcitation, according to predefined rule perform preset deexcitation process, including with
Descend at least one:
Retain the PUCCH resource of described first secondary cell;
Monitor the appointment wireless link of described first secondary cell;
Continue logical with the ascending control information of other communities that described first secondary cell belongs to same PUCCH group
The PUCCH crossing described first secondary cell sends;
Stop the packet data inactivity timer of described first secondary cell;
Empty the HARQ caching of described first secondary cell;
Retain on the PUCCH of described first secondary cell transmission belongs to same with described first secondary cell
The ascending control information of other communities of PUCCH group.
Method the most according to claim 8, it is characterised in that
During described first secondary cell deexcitation, perform to preset deexcitation according to predefined rule and process, also include
Below at least one:
Stop at transmission detection reference signal in described first secondary cell;
Stop reporting the downlink channel condition information of described first secondary cell;
Stop at the information transmission on the uplink shared channel UL-SCH of described first secondary cell;
Stop at the information transmission on the RACH of described first secondary cell;
Cease listening for the physical downlink control channel PDCCH of described first secondary cell;
Cease listening for the second secondary cell for providing the physical down of service to control information for described first secondary cell
The monitoring of PDCCH.
10. according to the method described in claim 1,8 or 9, it is characterised in that
During described first secondary cell deexcitation, perform to preset deexcitation according to predefined rule and process, also include
Below at least one:
In described first secondary cell is described first secondary cell place PUCCH group, only one has up
When the secondary cell of carrier wave and described PUCCH group also have other secondary cells being active, keep institute
State the first secondary cell to be active;
When the dispatching cell that described first secondary cell is other communities, described first secondary cell is kept to be in sharp
The state of living;
When described first secondary cell is instructed to exist uplink grant or downlink allocation, keep described
First secondary cell is active.
11. 1 kinds of terminals, it is characterised in that described terminal includes:
Acquiring unit, is used for obtaining deexcitation instruction information;
Performance element, for indicating information according to described deexcitation, triggers meeting the first secondary cell deexcitation
During condition, the first secondary cell to PUCCH group carries out deexcitation process;
Wherein, described first secondary cell is the secondary cell being configured with PUCCH, and described PUCCH is for sending out
Send the ascending control information of described PUCCH Zu Neige community.
12. terminals according to claim 11, it is characterised in that
Described acquiring unit, is used for receiving community deexcitation configuration information;
Wherein, described community deexcitation configuration information includes community deexcitation instruction.
13. terminals according to claim 12, it is characterised in that
Described acquiring unit, specifically for receiving described community deexcitation configuration information from MAC data bag.
14. terminals according to claim 12, it is characterised in that
The trigger condition of described first secondary cell deexcitation includes:
The deexcitation instruction of described community, indicates described first secondary cell deexcitation.
15. according to the terminal described in any one of claim 11 to 14, it is characterised in that
Described deexcitation instruction information includes first kind deexcitation instruction information and/or Equations of The Second Kind deexcitation instruction
Information.
16. terminals according to claim 11, it is characterised in that
Described acquiring unit, specifically for obtaining packet data inactivity timer configuration information;
Described packet data inactivity timer configuration information is used for indicating terminal to be configured with packet data inactivity timer.
17. terminals according to claim 16, it is characterised in that
The trigger condition of described first secondary cell deexcitation includes:
Packet data inactivity timer time-out corresponding to described first secondary cell.
18. terminals according to claim 11, it is characterised in that
Described performance element, specifically for following at least one:
Retain the PUCCH resource of described first secondary cell;
Monitor the appointment wireless link of described first secondary cell;
Continue logical with the ascending control information of other communities that described first secondary cell belongs to same PUCCH group
The PUCCH crossing described first secondary cell sends;
Stop the packet data inactivity timer of described first secondary cell;
Empty the HARQ caching of described first secondary cell;
Retain on the PUCCH of described first secondary cell transmission belongs to same with described first secondary cell
The ascending control information of other communities of PUCCH group.
19. terminals according to claim 18, it is characterised in that
Described performance element, also particularly useful for perform following at least one:
Stop at transmission detection reference signal in described first secondary cell;
Stop reporting the downlink channel condition information of described first secondary cell;
Stop at the information transmission on the uplink shared channel UL-SCH of described first secondary cell;
Stop at the information transmission on the RACH of described first secondary cell;
Cease listening for the physical downlink control channel PDCCH of described first secondary cell;
Cease listening for the second secondary cell for providing the physical down of service to control information for described first secondary cell
The monitoring of PDCCH.
20. according to the terminal described in claim 18 or 19, it is characterised in that
Described performance element, also particularly useful for perform following at least one:
In described first secondary cell is described first secondary cell place PUCCH group, only one has up
When the secondary cell of carrier wave and described PUCCH group also have other secondary cells being active, keep institute
State the first secondary cell to be active;
When the dispatching cell that described first secondary cell is other communities, described first secondary cell is kept to be in sharp
The state of living;
When described first secondary cell is instructed to exist uplink grant or downlink allocation, keep described
First secondary cell is active.
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