CN104521295A - Authorization allocation method, apparatus and system - Google Patents

Abstract

Disclosed in an embodiment of the present invention are an authorization allocation method, apparatus and system, which relate to the field of communications and are used to reduce authorization signaling and signaling overhead. The method provided in the embodiment of the present invention is applied to an uplink multi-carrier mechanism comprising at least one secondary carrier; the method comprising: in the case that at least one process on the secondary carrier is in a state of activation and/or service authorization on the secondary carrier is larger than zero authorization, user equipment sending to a base station indication information regarding a secondary carrier inactivation process or indication information that the service authorization on the secondary carrier is set as the zero authorization if UPH (UE Power Headroom) of the user equipment is not more than a first threshold value and/or TEBS (Total E-DCH Buffer Status) cached in the user equipment is not more than a second threshold value; and the user equipment inactivating the process on the secondary carrier or setting the service authorization on the secondary carrier as the zero authorization.

Description

Authorization allocation method, apparatus and system

A kind of methods, devices and systems technical field of authorized appropriation

The present invention relates to the communications field, more particularly to a kind of methods, devices and systems of authorized appropriation.Background technology

In HSUPA (High Speed Uplink Packet Access, High Speed Uplink Packet access）In mechanism, typically distribution is authorized in the following manner：Base station passes through E-AGCH

(E-DCH Absolute Grant Channel, Enhanced-DedicatedChannel absolute grant channel）To UE (User Equipment, user equipment）Authorization signaling is sent, wherein, authorization signaling includes：The scope of authority, SG (Serving Grant, authorization of service）；The scope of authority is：Current process or whole processes（ALL HARQ), SG includes：Zero authorizes

(Zero-Grant), the mandate more than zero, INACTIVITY (are deactivated and indicated）；UE activates or deactivated current HARQ (Hybrid Automatic Repeat Request, hybrid automatic repeat request according to SG）Process (Process) or whole HARQ processes, and determine authorization of service.

In order to reduce the interference between user and lift higher uplink bit rate, the up configuration main carriers of UE and at least one secondary carrier, wherein, main carrier is used to transmit low speed data, and secondary carrier is used for transmitting high speed data.In order to reduce TTI (a Transmission Time Interval, Transmission Time Interval in the interference between user, secondary carrier）It is interior to allow a highspeed user to send E-DCH (Enhanced Dedicated Channel, Enhanced-DedicatedChannel）Data.For the more users of equity dispatching, it is necessary to pass through TDM (Time Division Multiplex, time division multiplexing）Mode dispatches user.It should be noted that it is a kind of optional scheduling mode that a TTI, which dispatches a user, in secondary carrier, the number of users of scheduling in a TTI is not intended to limit in actual realization. During stating distribution mandate in realization, inventor has found that at least there are the following problems in the prior art：The activation and deactivation of process need two authorization signalings, under TDM modes, cause larger signaling consumption；Or, every authorization signaling can only activate or deactivate a process or whole processes, when simultaneously needs activate at least two processes（Not all process）When, it is necessary to which a plurality of authorization signaling, causes larger signaling consumption.

The content of the invention

Embodiments of the invention provide a kind of methods, devices and systems of authorized appropriation, to reduce authorization signaling, reduce signaling consumption.

To reach above-mentioned purpose, embodiments of the invention are adopted the following technical scheme that：First aspect is there is provided a kind of method of authorized appropriation, applied to uplink multi-carrier mechanism, and the uplink multi-carrier mechanism includes at least one secondary carrier, and methods described includes：

At least one process in the secondary carrier be active and/or the secondary carrier on authorization of service be more than zero authorize in the case of, if the power headroom UPH of user equipment is not more than the data volume TEBS that the first threshold values and/or the user equipment Slow deposit and is not more than the second threshold values, the user equipment sends the configured information for deactivating the configured information of the secondary carrier process or the authorization of service in the secondary carrier being set to zero mandate to base station；The user equipment deactivates the process in the secondary carrier or the authorization of service in the secondary carrier is set into zero mandate.

With reference in a first aspect, in a kind of possible implementation, the user equipment sends the configured information for deactivating the configured information of the secondary carrier process or the authorization of service in the secondary carrier being set to zero mandate to base station, including：

The user equipment sends scheduling message SI, the SI to the base station and includes the configured information for deactivating the process in the secondary carrier or the configured information that the authorization of service in the secondary carrier is set to zero mandate；

Or, the user equipment sends up enhancing protocol Data Unit MAC-I PDU to the base station, and the MAC-I PDU include the process deactivated in the secondary carrier Configured information or the configured information that the authorization of service in described secondary carrier is set to zero mandate.

With reference to the first possible implementation of first aspect, in second of possible implementation, before in the process of the deactivation in the secondary carrier or the authorization of service in the secondary carrier is set into zero mandate, methods described also includes：

In the case where the user equipment sends the SI to the base station, the positive confirmation ACK for receiving the SI that the base station is sent is indicated；

Or, in the case where the user equipment sends the MAC-I PDU to the base station, the positive confirmation ACK for receiving the MAC-I PDU that the base station is sent is indicated.

With reference to the first possible implementation or second of possible implementation of first aspect, in the third possible implementation, the SI includes：The TEBS, high priority logic channel Slow deposit state HLBS, high priority Logic Channel Identifier HLID;In the case where the user equipment sends the SI to the base station, the configured information that the instruction for deactivating the secondary carrier process or the authorization of service by the secondary carrier are set to zero mandate includes：

The TEBS is set to null value, the HLBS is set to nonzero value；Or, it is nonzero value by the TEBS, the HLBS is set to null value；Or, the TEBS is set to null value, the HLID is set to nonzero value；Or, the HLID is set to 1111.

With reference to the first possible implementation or second of possible implementation of first aspect, in the 4th kind of possible implementation, the MAC-I PDU include：Length Indication, Logic Channel Identifier LCH-ID;In the case where the user equipment sends the MAC-I PDU to the base station, the configured information that the instruction for deactivating the secondary carrier process or the authorization of service by the secondary carrier are set to zero mandate includes：

The LCH-ID is set to 1111;

Or, the LCH-ID is set to the prewired value of a disabling； Or, the Length Indication is set to null value.

Second aspect is there is provided a kind of method of authorized appropriation, applied to uplink multi-carrier mechanism, and the uplink multi-carrier mechanism includes at least one secondary carrier, and methods described includes：

Base station receives the configured information for the deactivation secondary carrier process that user equipment is sent or the authorization of service in the secondary carrier is set to the configured information of zero mandate；

The configured information of zero mandate is set to according to the configured information or the authorization of service by the secondary carrier for deactivating the secondary carrier process, process of the user equipment in the secondary carrier is deactivated or the authorization of service in the secondary carrier is set to zero mandate.

With reference to second aspect, in a kind of possible implementation, the base station receives the configured information for the deactivation secondary carrier process that user equipment is sent or the authorization of service in the secondary carrier is set to the configured information of zero mandate, including：

The scheduling message SI, the SI that the base station receives the user equipment transmission include the configured information for deactivating the process in the secondary carrier or the configured information that the authorization of service in the secondary carrier is set to zero mandate；

Or, the base station receives the up enhancing protocol Data Unit MAC-I PDU that the user equipment is sent, and the MAC-I PDU include the configured information for deactivating the process in the secondary carrier or the configured information that the authorization of service in described secondary carrier is set to zero mandate.

With reference to the first possible implementation of second aspect, in second of possible implementation, the instruction for the deactivation secondary carrier process that user equipment is sent is received in the base station or is set to the authorization of service in the secondary carrier after the configured information of zero mandate, methods described also includes：

In the case of the scheduling message SI that the user equipment is sent is received in the base station, the positive confirmation ACK for sending the SI to the user equipment is indicated；

Or, in the case of the MAC-I PDU that the user equipment is sent are received in the base station, the positive confirmation ACK for sending the MAC-I PDU to the user equipment is indicated. With reference to the first possible implementation or second of possible implementation of second aspect, in the third possible implementation, the SI includes：Data volume TEBS, the high priority logic channel Slow that the user equipment Slow is deposited deposit state HLBS, high priority Logic Channel Identifier HLID;In the case of the SI that the user equipment is sent is received in the base station, the configured information that the instruction for deactivating the secondary carrier process or the authorization of service by the secondary carrier are set to zero mandate includes：

The TEBS is null value, and the HLBS is nonzero value；

Or, the TEBS is nonzero value, and the HLBS is null value；

Or, the TEBS is null value, and the HLID is nonzero value；

Or, the HLID is 1111.

With reference to the first possible implementation or second of possible implementation of second aspect, in the 4th kind of possible implementation, the MAC-I PDU include：Length Indication, Logic Channel Identifier LCH-ID;In the case of the MAC-I PDU that the user equipment is sent are received in base station, the configured information that the configured information or the authorization of service by the secondary carrier for deactivating the secondary carrier process is set to zero mandate includes：

The LCH-ID is 1111;

Or, the LCH-ID is the prewired value of a disabling；

Or, the Length Indication is null value.

The third aspect there is provided a kind of method of authorized appropriation, including：

User equipment receives the authorization signaling that base station is sent, and the authorization signaling includes authorizing the period；

Process according to corresponding to the authorization signaling activates the mandate period.

With reference to the third aspect, in the first possible implementation, after the activation process authorized corresponding to the period, methods described also includes：

When the mandate period cut-off, deactivate the process of the user equipment and/or the authorization of service of the user equipment is set to zero mandate. With reference to the first possible implementation of first aspect and first aspect, in second of possible implementation, the mandate period includes very first time domain and the second time-domain.

With reference to second of possible implementation of first aspect, in the third possible implementation, the very first time domain is the Transmission Time Interval in a round-trip delay RTT

TTI number, second time-domain is the number of the RTT；

The activation process authorized corresponding to the period, including：

In each RTT of second time-domain, the process corresponding to the very first time domain is activated.

Fourth aspect there is provided a kind of method of authorized appropriation, including：

Base station determines authorization signaling, and the authorization signaling includes authorizing the period；

The authorization signaling is sent to user equipment, to cause process of the user equipment according to corresponding to authorization signaling activation in the mandate period.

With reference to fourth aspect, in the first possible implementation, the mandate period includes very first time domain and the second time-domain.

With reference to the first possible implementation of first aspect, in second of possible implementation, the very first time domain is the Transmission Time Interval in a round-trip delay RTT

TTI number, second time-domain is the number of the RTT.

There is provided a kind of method of authorized appropriation in terms of 5th, including：

User equipment receives the authorization signaling that base station is sent, and the authorization signaling includes：First service mandate, process number and activation indicate mapping relations；

Indicate that mapping relations determine the process of activation according to the process number and activation；The corresponding authorization of service of the process of the activation is set to the first service mandate.With reference to the 5th aspect, in the first possible implementation, the process number indicates that mapping relations include with activation：The process number indicates that mapping relations are represented with bitmap with activation.

There is provided a kind of method of authorized appropriation in terms of 6th, including： Base station determines authorization signaling, and the authorization signaling includes：First service mandate, process number and activation indicate mapping relations；

The authorization signaling is sent to user equipment；To cause the user equipment to indicate that mapping relations determine the process of activation according to the process number and activation, and the corresponding authorization of service of the process of the activation is set to the first service mandate.

With reference to the 6th aspect, in the first possible implementation, the process number indicates that mapping relations include with activation：The process number indicates that mapping relations are represented with bitmap with activation.

7th aspect is there is provided a kind of user equipment, applied to uplink multi-carrier mechanism, and the uplink multi-carrier mechanism includes at least one secondary carrier, and the user equipment includes：

Transmitting element, for at least one process in the secondary carrier be active and/or the secondary carrier on authorization of service be more than zero authorize in the case of, if the power headroom UPH of the user equipment is not more than the data volume TEBS that the first threshold values and/or the user equipment Slow deposit and is not more than the second threshold values, the configured information for deactivating the configured information of the secondary carrier process or the authorization of service in the secondary carrier being set to zero mandate is sent to base station；

Processing unit, for deactivating process in the secondary carrier or the authorization of service in the secondary carrier being set into zero mandate.

With reference to the 7th aspect, in the first possible implementation, the transmitting element specifically for, scheduling message SI, the SI, which are sent, to the base station includes the configured information for deactivating the process in the secondary carrier or the configured information that the authorization of service in the secondary carrier is set to zero mandate；

Or, up enhancing protocol Data Unit MAC-I PDU are sent to the base station, the MAC-I PDU include the configured information for deactivating the process in the secondary carrier or the configured information that the authorization of service in described secondary carrier is set to zero mandate.

With reference to the first possible implementation of the 7th aspect, in second of possible implementation, the user equipment also includes： Receiving unit, in the case of sending the SI to the base station in the transmitting element, the positive confirmation ACK for receiving the SI that the base station is sent is indicated；

Or, in the case where the transmitting element sends the MAC-I PDU to the base station, the positive confirmation ACK for receiving the MAC-I PDU that the base station is sent is indicated.

With reference to the first possible implementation or second of possible implementation of the 7th aspect, in the third possible implementation, the SI includes：The TEBS, high priority logic channel Slow deposit state HLBS, high priority Logic Channel Identifier HLID;In the case where the transmitting element sends the SI to the base station, the configured information that the instruction for deactivating the secondary carrier process or the authorization of service by the secondary carrier are set to zero mandate includes：

The TEBS is set to null value, the HLBS is set to nonzero value；Or, it is nonzero value by the TEBS, the HLBS is set to null value；Or, the TEBS is set to null value, the HLID is set to nonzero value；Or, the HLID is set to 1111.

With reference to the first possible implementation or second of possible implementation of the 7th aspect, in the 4th kind of possible implementation, the MAC-I PDU include：Length Indication, Logic Channel Identifier LCH-ID;In the case where the transmitting element sends the MAC-I PDU to the base station, the configured information that the instruction for deactivating the secondary carrier process or the authorization of service by the secondary carrier are set to zero mandate includes：The LCH-ID is set to 1111;

Or, the LCH-ID is set to the prewired value of a disabling；

Or, the Length Indication is set to null value.

Eighth aspect is there is provided a kind of base station, applied to uplink multi-carrier mechanism, and the uplink multi-carrier mechanism includes at least one secondary carrier, and the base station includes：

Receiving unit, for receiving the configured information for deactivating the secondary carrier process of user equipment transmission or the authorization of service in the secondary carrier being set to the configured information of zero mandate； Processing unit, the configured information or the authorization of service by the secondary carrier of the deactivation secondary carrier process for being transmitted according to the receiving unit are set to the configured information of zero mandate, deactivate process of the user equipment in the secondary carrier or the authorization of service in the secondary carrier is set into zero mandate.

With reference to eighth aspect, in the first possible implementation, the receiving unit specifically for, the scheduling message SI, the SI for receiving the user equipment transmission include the configured information for deactivating the process in the secondary carrier or the configured information that the authorization of service in the secondary carrier is set to zero mandate；

Or, the up enhancing protocol Data Unit MAC-I PDU that the user equipment is sent are received, the MAC-I PDU include the configured information for deactivating the process in the secondary carrier or the configured information that the authorization of service in described secondary carrier is set to zero mandate.

With reference to the first possible implementation of eighth aspect, in second of possible implementation, the base station also includes：

Transmitting element, in the case of receiving the scheduling message SI that the user equipment is sent in the receiving unit, the positive confirmation ACK for sending the SI to the user equipment is indicated；

Or, in the case where the receiving unit receives the MAC-I PDU that the user equipment is sent, the positive confirmation ACK for sending the MAC-I PDU to the user equipment is indicated.

With reference to the first possible implementation or second of possible implementation of eighth aspect, in the third possible implementation, the SI includes：Data volume TEBS, the high priority logic channel Slow that the user equipment Slow is deposited deposit state HLBS, high priority Logic Channel Identifier HLID;In the case where the receiving unit receives the SI that the user equipment is sent, the configured information that the instruction for deactivating the secondary carrier process or the authorization of service by the secondary carrier are set to zero mandate includes：

The TEBS is null value, and the HLBS is nonzero value；

Or, the TEBS is nonzero value, and the HLBS is null value； Or, the TEBS is null value, and the HLID is nonzero value；

Or, the HLID is 1111.

With reference to the first possible implementation or second of possible implementation of eighth aspect, in the 4th kind of possible implementation, the MAC-I PDU include：Length Indication, Logic Channel Identifier LCH-ID;In the case where the receiving unit receives the MAC-I PDU that the user equipment is sent, the configured information that the configured information or the authorization of service by the secondary carrier for deactivating the secondary carrier process is set to zero mandate includes：

The LCH-ID is 1111;

Or, the LCH-ID is the prewired value of a disabling；

Or, the Length Indication is null value.

There is provided a kind of user equipment in terms of 9th, including：

Receiving unit, the authorization signaling for receiving base station transmission, the authorization signaling includes authorizing the period；

Processing unit, for the authorization signaling activation process authorized corresponding to the period transmitted according to the receiving unit.

With reference to the 9th aspect, in the first possible implementation, the processing unit is additionally operable to, and when the mandate period cut-off, deactivates the process of the user equipment and/or the authorization of service of the user equipment is set into zero mandate.

With reference to the 9th aspect or the first possible implementation of the 9th aspect, in second of possible implementation, the mandate period includes very first time domain and the second time-domain.

With reference to second of possible implementation of the 9th aspect, in the third possible implementation, the very first time domain is the number of the Transmission Time Interval TTI in a round-trip delay RTT, and second time-domain is the number of the RTT；

The processing unit is specifically in each RTT of second time-domain, activating the process corresponding to the very first time domain. There is provided a kind of base station in terms of tenth, including：

Determining unit, for determining authorization signaling, the authorization signaling includes authorizing the period；Transmitting element, the authorization signaling for sending the determining unit transmission to user equipment, to cause process of the user equipment according to corresponding to authorization signaling activation in the mandate period.

With reference to the tenth aspect, in the first possible implementation, the mandate period includes very first time domain and the second time-domain.

With reference to the first possible implementation of the tenth aspect, in second of possible implementation, the very first time domain is the number of the Transmission Time Interval TTI in a round-trip delay RTT, and second time-domain is the number of the RTT.

Tenth one side there is provided a kind of user equipment, including：

Receiving unit, the authorization signaling for receiving base station transmission, the authorization signaling includes：First service mandate, process number and activation indicate mapping relations；

Processing unit, the process number and activation for being transmitted according to the receiving unit indicate that mapping relations determine the process of activation；The corresponding authorization of service of the process of the activation is set to the first service mandate of the receiving unit transmission.

With reference to the tenth on the one hand, in the first possible implementation, the process number indicates that mapping relations include with activation：The process number indicates that mapping relations are represented with bitmap with activation.

There is provided a kind of base station in terms of 12nd, including：

Determining unit, for determining authorization signaling, the authorization signaling includes：First service mandate, process number and activation indicate mapping relations；

Transmitting element, the authorization signaling for sending the determining unit transmission to user equipment；To cause the user equipment to indicate that mapping relations determine the process of activation according to the process number and activation, and the corresponding authorization of service of the process of the activation is set to the first service mandate.

With reference to the 12nd aspect, in the first possible implementation, the process number with Activation indicates that mapping relations include：The process number indicates mapping relations bitmap table with activation

TF。

13rd aspect is there is provided a kind of user equipment, applied to uplink multi-carrier mechanism, and the uplink multi-carrier mechanism includes at least one secondary carrier, and the user equipment includes：

Transmitter, for at least one process in the secondary carrier be active and/or the secondary carrier on authorization of service be more than zero authorize in the case of, if the power headroom UPH of the user equipment is not more than the data volume TEBS that the first threshold values and/or the user equipment Slow deposit and is not more than the second threshold values, the configured information for deactivating the configured information of the secondary carrier process or the authorization of service in the secondary carrier being set to zero mandate is sent to base station；

Processor, for deactivating process in the secondary carrier or the authorization of service in the secondary carrier being set into zero mandate.

With reference to the 13rd aspect, in the first possible implementation,

The transmitter is specifically for sending scheduling message SI, the SI to the base station and including the configured information for deactivating the process in the secondary carrier or the configured information that the authorization of service in the secondary carrier is set to zero mandate；

Or, up enhancing protocol Data Unit MAC-I PDU are sent to the base station, the MAC-I PDU include the configured information for deactivating the process in the secondary carrier or the configured information that the authorization of service in described secondary carrier is set to zero mandate.

With reference to the first possible implementation of the 13rd aspect, in second of possible implementation, the user equipment also includes：

Receiver, in the case of sending the SI to the base station in transmitter, the positive confirmation ACK for receiving the SI that the base station is sent is indicated；

Or, in the case where the transmitter sends the MAC-I PDU to the base station, the positive confirmation ACK for receiving the MAC-I PDU that the base station is sent is indicated.

With reference to the first possible implementation or second of possible implementation of the 13rd aspect, in the third possible implementation, the SI includes：The TEBS, High priority logic channel Slow deposits state HLBS, high priority Logic Channel Identifier HLID;In the case where the transmitter sends the SI to the base station, the configured information that the instruction for deactivating the secondary carrier process or the authorization of service by the secondary carrier are set to zero mandate includes：

The TEBS is set to null value, the HLBS is set to nonzero value；Or, it is nonzero value by the TEBS, the HLBS is set to null value；Or, the TEBS is set to null value, the HLID is set to nonzero value；Or, the HLID is set to 1111.

With reference to the first possible implementation or second of possible implementation of the 13rd aspect, in the 4th kind of possible implementation, the MAC-I PDU include：Length Indication, Logic Channel Identifier LCH-ID;In the case where the transmitter sends the MAC-I PDU to the base station, the configured information that the instruction for deactivating the secondary carrier process or the authorization of service by the secondary carrier are set to zero mandate includes：The LCH-ID is set to 1111;

Or, the LCH-ID is set to the prewired value of a disabling；

Or, the Length Indication is set to null value.

Fourteenth aspect is there is provided a kind of base station, applied to uplink multi-carrier mechanism, and the uplink multi-carrier mechanism includes at least one secondary carrier, and the base station includes：

Receiver, for receiving the configured information for deactivating the secondary carrier process of user equipment transmission or the authorization of service in the secondary carrier being set to the configured information of zero mandate；Processor, configured information for being set to zero mandate according to the configured information or the authorization of service by the secondary carrier for deactivating the secondary carrier process, deactivates process of the user equipment in the secondary carrier or the authorization of service in the secondary carrier is set into zero mandate.

With reference to fourteenth aspect, in the first possible implementation, the receiver is specifically for receiving the scheduling message SI that the user equipment is sent, configured information or award the service in the secondary carrier that the SI includes the process in the deactivation secondary carrier Power is set to the configured information of zero mandate；

Or, receive the up enhancing protocol Data Unit MAC-I that the user equipment is sent

PDU, the MAC-I PDU include the configured information for deactivating the process in the secondary carrier or the configured information that the authorization of service in described secondary carrier is set to zero mandate.

With reference to the first possible implementation of fourteenth aspect, in second of possible implementation, the base station also includes：

Transmitter, in the case of receiving the scheduling message SI that the user equipment is sent in the receiver, the positive confirmation ACK for sending the SI to the user equipment is indicated；Or, in the case where the receiver receives the MAC-I PDU that the user equipment is sent, the positive confirmation ACK for sending the MAC-I PDU to the user equipment is indicated.

With reference to the first possible implementation or second of possible implementation of fourteenth aspect, in the third possible implementation, the SI includes：Data volume TEBS, the high priority logic channel Slow that the user equipment Slow is deposited deposit state HLBS, high priority Logic Channel Identifier HLID;In the case where the receiver receives the SI that the user equipment is sent, the configured information that the instruction for deactivating the secondary carrier process or the authorization of service by the secondary carrier are set to zero mandate includes：

The TEBS is null value, and the HLBS is nonzero value；

Or, the TEBS is nonzero value, and the HLBS is null value；

Or, the TEBS is null value, and the HLID is nonzero value；

Or, the HLID is 1111.

With reference to the first possible implementation or second of possible implementation of fourteenth aspect, in the 4th kind of possible implementation, the MAC-I PDU include：Length Indication, Logic Channel Identifier LCH-ID;In the case where the receiver receives the MAC-I PDU that the user equipment is sent, the configured information that the configured information or the authorization of service by the secondary carrier for deactivating the secondary carrier process is set to zero mandate includes：

The LCH-ID is 1111; Or, the LCH-ID is the prewired value of a disabling；

Or, the Length Indication is null value.

There is provided a kind of user equipment in terms of 15th, including：

Receiver, the authorization signaling for receiving base station transmission, the authorization signaling includes authorizing the period；

Processor, for the process according to corresponding to the authorization signaling activation mandate period.

With reference to the 15th aspect, in the first possible implementation, the processor is additionally operable to, and when the mandate period cut-off, deactivates the process of the user equipment and/or the authorization of service of the user equipment is set into zero mandate.

With reference to the 15th aspect or the first possible implementation of the 15th aspect, in second of possible implementation, the mandate period includes very first time domain and the second time-domain.

With reference to second of possible implementation of the 15th aspect, in the third possible implementation, the very first time domain is the number of the Transmission Time Interval TTI in a round-trip delay RTT, and second time-domain is the number of the RTT；

The processor is specifically in each RTT of second time-domain, activating the process corresponding to the very first time domain.

There is provided a kind of base station in terms of 16th, including：

Processor, for determining authorization signaling, the authorization signaling includes authorizing the period；Transmitter, for sending the authorization signaling to user equipment, to cause process of the user equipment according to corresponding to authorization signaling activation in the mandate period.

With reference to the 16th aspect, in the first possible implementation, the mandate period includes very first time domain and the second time-domain.

With reference to the first possible implementation of the 16th aspect, in second of possible implementation, the very first time domain is the number of the Transmission Time Interval TTI in a round-trip delay RTT, and second time-domain is the number of the RTT. There is provided a kind of user equipment in terms of 17th, including：

Receiver, the authorization signaling for receiving base station transmission, the authorization signaling includes：First service mandate, process number and activation indicate mapping relations；

Processor, for indicating that mapping relations determine the process of activation according to the process number and activation；The corresponding authorization of service of the process of the activation is set to the first service mandate.

With reference to the 17th aspect, in the first possible implementation, the process number indicates that mapping relations include with activation：The process number indicates that mapping relations are represented with bitmap with activation.

There is provided a kind of base station in terms of 18th, including：

Processor, for determining authorization signaling, the authorization signaling includes：First service mandate, process number and activation indicate mapping relations；

Transmitter, for sending the authorization signaling to user equipment；To cause the user equipment to indicate that mapping relations determine the process of activation according to the process number and activation, and the corresponding authorization of service of the process of the activation is set to the first service mandate.

With reference to the 18th aspect, in the first possible implementation, the process number indicates that mapping relations include with activation：The process number indicates that mapping relations are represented with bitmap with activation.

There is provided a kind of system of authorized appropriation in terms of 19th, including：Above-mentioned seven, the nine, 11,13,15, the user equipment described in 17 any one of aspect, and/or the base station described in above-mentioned eight, the ten, 12,14,16,18 any one of aspect.

The method of authorized appropriation provided in an embodiment of the present invention, device and system, the first scheme, applied to uplink multi-carrier mechanism, uplink multi-carrier mechanism includes at least one secondary carrier, by at least one process in the secondary carrier be active and/or the secondary carrier on authorization of service be more than zero authorize in the case of, if the power headroom UPH of user equipment is not more than the data volume TEBS that the first threshold values and/or user equipment Slow deposit and is not more than the second threshold values, then the user equipment sent to base station the configured information that deactivates the secondary carrier process or Authorization of service in the secondary carrier is set to the configured information of zero mandate, and deactivates the process in the secondary carrier or the authorization of service in the secondary carrier is set to zero mandate.Second scheme, user equipment receives the authorization signaling for including the mandate period that base station is sent, and the process according to corresponding to the authorization signaling activates the mandate period.The third scheme, user equipment receives the authorization signaling for indicating mapping relations with activation comprising first service mandate, process number that base station is sent, and indicates that mapping relations determine the process of activation according to process number and activation；And the corresponding authorization of service of the process of the activation of determination is set to first service mandate.The first scheme realizes user equipment itself triggering deactivation process, and second scheme supports a signaling to activate one or more process, and the third scheme is supported to activate or deactivate one or more process simultaneously.Three kinds of schemes reduce authorization signaling, reduce signaling consumption.Wherein, the first scheme solve in the prior art, because process activation and deactivate and need two authorization signalings, under TDM modes, the problem of caused larger signaling consumption.Second scheme and the third scheme, are solved in the prior art, because every authorization signaling can only activate or deactivate a process or whole processes, when simultaneously needs activate at least two processes（Not all process）When, it is necessary to a plurality of authorization signaling, the problem of causing larger signaling consumption.

Brief description of the drawings

In order to illustrate more clearly about the embodiment of the present invention or technical scheme of the prior art, the required accompanying drawing used in embodiment or description of the prior art will be briefly described below, apparently, drawings in the following description are only some embodiments of the present invention, for those of ordinary skill in the art, without having to pay creative labor, other accompanying drawings can also be obtained according to these accompanying drawings.Fig. 1 is a kind of schematic diagram of the method for authorized appropriation provided in an embodiment of the present invention；Fig. 2 is the schematic diagram of the method for another authorized appropriation provided in an embodiment of the present invention；Fig. 3 is the schematic diagram of the method for another authorized appropriation provided in an embodiment of the present invention； Fig. 4 is the schematic diagram of the method for another authorized appropriation provided in an embodiment of the present invention；Fig. 5 is the schematic diagram of the method for another authorized appropriation provided in an embodiment of the present invention；Fig. 6 is the schematic diagram of the method for another authorized appropriation provided in an embodiment of the present invention；Fig. 7 is a kind of schematic diagram of mandate period provided in an embodiment of the present invention；Fig. 8 is the schematic diagram of the method for another authorized appropriation provided in an embodiment of the present invention；Fig. 9 is that a kind of process number represented with bitmap provided in an embodiment of the present invention indicates mapping relations with activation；

Figure 10 is the schematic diagram of the method for another authorized appropriation provided in an embodiment of the present invention；Fig. 11 is the schematic diagram of the method for another authorized appropriation provided in an embodiment of the present invention；Figure 12 is a kind of structural representation of user equipment provided in an embodiment of the present invention；Figure 13 is the structural representation of another user equipment provided in an embodiment of the present invention；Figure 14 is a kind of structural representation of base station provided in an embodiment of the present invention；Figure 15 is the structural representation of another base station provided in an embodiment of the present invention；Figure 16 is the structural representation of another user equipment provided in an embodiment of the present invention；Figure 17 is the structural representation of another user equipment provided in an embodiment of the present invention；Figure 18 is the structural representation of another base station provided in an embodiment of the present invention；

Figure 19 is the structural representation of another base station provided in an embodiment of the present invention.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is only a part of embodiment of the invention, rather than whole embodiments.Based on the embodiment in the present invention, it is every other that those of ordinary skill in the art are obtained under the premise of creative work is not made Embodiment, belongs to the scope of protection of the invention.The methods, devices and systems of authorized appropriation provided in an embodiment of the present invention can be used for

In HSUPA mechanism, for example, applied to the UMTS (the Universal Mobile Telecommunications System, UMTS that introduce HSUPA mechanism）It is medium.It should be noted that " process " herein refers to not distinguish process and HARQ processes in HARQ processes, following examples.Exemplary description is carried out to the methods, devices and systems of authorized appropriation provided in an embodiment of the present invention below in conjunction with the accompanying drawings.

On the one hand, the method for authorized appropriation provided in an embodiment of the present invention is illustrated by embodiment one to embodiment nine.Embodiment one

The present embodiment is illustrated from user equipment side to the method for authorized appropriation provided in an embodiment of the present invention, and the method that the present embodiment is provided is applied to uplink multi-carrier mechanism, and the uplink multi-carrier mechanism includes at least one secondary carrier.Referring to Fig. 1, this method includes：

101 :At least one process in the secondary carrier be active and/or the secondary carrier on authorization of service be more than zero authorize in the case of, if the power headroom of user equipment

UPH is not more than the data volume TEBS that the first threshold values and/or the user equipment Slow deposit and is not more than the second threshold values, then the user equipment sends the configured information for deactivating the configured information of the secondary carrier process or the authorization of service in the secondary carrier being set to zero mandate to base station；

The present embodiment is mainly used in uplink multi-carrier mechanism, uplink multi-carrier mechanism includes a main carrier and at least one secondary carrier, wherein, main carrier is low ROT carrier waves, for transmitting low speed data, such as voice, RRC (Radio Resource Control, radio resource control）Signaling etc.；Secondary carrier is high ROT carrier waves, for transmitting high speed data, such as PS (Packet Service, Packet Service）Data, secondary carrier is referred to as height ROT carrier waves or clean carrier signal (clean carrier) or carrying higher bit data carrier (Enabling high bit rates carrier) etc..The up process number of user equipment is relevant with TTI, if for example, Τ Τ Ι are 2ms, the up corresponding process number of user equipment is 8, if a TTI is 10ms, the up corresponding process number of user equipment is 4;Each state of a process can be：State of activation or deactivation status；Authorization of service can include：Zero mandate, the mandate more than zero, INACTIVE.Authorization of service may be embodied in authorized order, is generated by base station and is handed down to user equipment, in addition, can also include the scope of authority in authorization signaling（Current process or all processes）Deng；When authorization of service is the mandate more than zero, user equipment activates the process corresponding to the scope of authority in the authorization signaling so that the process corresponding to the scope of authority is active.It should be noted that authorization signaling can be handed down to user equipment by E-AGCH, user equipment can also be handed down to by other channels, this is not limited by the present invention.At least one process in the secondary carrier be active and/or the secondary carrier on authorization of service be more than zero authorize in the case of, including following three kinds of situations：At least one process in the secondary carrier is active；Authorization of service in the secondary carrier is more than zero and authorized；At least one process in the secondary carrier is active, and the authorization of service in the secondary carrier is more than zero and authorized.

UPH (UE transmission power headroom, UE transmission powers surplus) is UE maximum transmission power and DPCCH (Dedicated Physical Control Channel, Dedicated Physical Control Channel）Power ratio；UPH can be the corresponding UPH of main carrier, can also be the corresponding UPH of each secondary carrier.TEB S (Total E-DCH Buffer Status, the data volume that user equipment Slow is deposited）The total data volume that can be deposited for user equipment Slow, the data that the permission that can also be deposited for user equipment Slow is sent in secondary carrier Amount.First threshold values, Second Threshold are the configurable value or predefined value of network.The power headroom UPH of user equipment is not more than the data volume TEBS that the first threshold values and/or the user equipment Slow deposit and is not more than the second threshold values, including following several situations：

UPH is not more than the first threshold values；

TEBS is not more than the second threshold values；

UPH is not more than the first threshold values, and TEBS is not more than the second threshold values.When UPH is not more than（It is less than or equal to）During the first threshold values and/or TEBS is not more than（It is less than or equal to）During the second threshold values, it is believed that covering is limited or the subscriber traffic is smaller etc. so that the user equipment can not perform high speed data transfer.Because secondary carrier is mainly used in providing high speed data transfer, so when UPH is not more than the first threshold values and/or TEBS is not more than the second threshold values, all HARQ processes in secondary carrier can be deactivated or the authorization of service in secondary carrier is set to zero mandate, specifically included：Base station deactivates all HARQ processes in secondary carrier or the authorization of service in secondary carrier is set into zero mandate with user equipment.It should be noted that, when actually realizing, can by determine " time of transmission is not more than the 3rd threshold values determined by the transmission rate that current service mandate in total data volume and secondary carrier that user equipment Slow is deposited allows " or, " time determined by the transmission rate that current authorization of service allows in the data volume and secondary carrier that the permission that user equipment Slow is deposited is sent in secondary carrier is not more than the 4th threshold value " determines " TEBS of user equipment is not more than the second threshold values ".Wherein, the 3rd threshold value and the 4th threshold value are the value for representing transmission period.Furthermore it is also possible to be determined " UPH of user equipment is not more than the first threshold values " by determining " this cell path loss consumes is not more than the 5th threshold values with adjacent cell path loss difference ".User equipment sends the configured information for deactivating the configured information of the secondary carrier process or the authorization of service in the secondary carrier being set to zero mandate to base station, so that other highspeed user's equipment are dispatched in base station in the secondary carrier. Further, the user equipment sends the configured information for deactivating the configured information of the secondary carrier process or the authorization of service in the secondary carrier being set to zero mandate, including following two modes to base station：I) user equipment sends scheduling message SI, the SI to the base station and includes the configured information for deactivating the process in the secondary carrier or the configured information that the authorization of service in the secondary carrier is set to zero mandate；) user equipment sends up enhancing protocol Data Unit MAC-I PDU, configured informations of the MAC-I PDU comprising the process in the deactivation secondary carrier or the configured information that the authorization of service in described secondary carrier is set to zero mandate to the base station.The configured information for the deactivation secondary carrier process that the user equipment is sent to base station or the configured information that the authorization of service in the secondary carrier is set to zero mandate, it may be embodied in MAC-I PDU (the MAC-i Protocol DATA Unit newly defined, up enhancing protocol Data Unit) or SI (Scheduling Information, scheduling message) in, or included in existing MAC-I PDU or SI.For example, SI of the prior art-as include 18bit, specifically may refer to hereafter, and the SI of the new definition can be including 36bit etc..By the configured information that deactivates the secondary carrier process or the authorization of service in the secondary carrier is set to illustrate exemplified by the configured information of zero mandate is included in existing MAC-I PDU or SI in following examples.Exemplary, the SI includes：(Highest priority Logical channel Buffer Status, high priority logic channel Slow deposit state by TEBS, HLBS）, HLID (Highest priority Logical channel ID, high priority It volume channel logos）；Can be through but not limited to the configured information for marking the instruction of the deactivation secondary carrier process or the authorization of service by the secondary carrier to be set to zero mandate using in the following manner：The TEBS is null value, and the HLBS is nonzero value； Or, the TEBS is nonzero value, and the HLBS is null value；Or, the TEBS is null value, and the HLID is nonzero value；

Or, the HLID is 1111.

Exemplary, the MAC-I PDU include：Length Indication（Length), (identifier, It volumes of channel marks of Logical channel are only by LCH-ID）；Can by but it is not blunt in the configured information for marking the instruction for deactivating the secondary carrier process or the authorization of service by the secondary carrier to be set to zero mandate using in the following manner：

The LCH-ID is 1111;Or, the LCH-ID is the prewired value of a disabling；Or, the Length Indication is null value.

102 :The user equipment deactivates the process in the secondary carrier or the authorization of service in the secondary carrier is set into zero mandate.User equipment deactivates the process in the secondary carrier or the authorization of service in the secondary carrier is set into zero mandate, so that user equipment sends data not in the secondary carrier to base station.

Further, user equipment can be in the secondary carrier at least one process be active and/or the secondary carrier on authorization of service be more than zero mandate, and UPH is not more than the first threshold values and/or in the case that TEBS is not more than the second threshold values, performs step 102.Further, since base station is after SI is received, the ACK that SI can be fed back to user equipment is indicated, after MAC-I PDU are received, and the ACK that MAC-I PDU can be fed back to user equipment is indicated, accordingly it is also possible in the case where there, perform step 102:Specifically, under above-mentioned i) mode, user equipment performs step 102 after the SI of base station transmission positive confirmation ACK instructions are received;In above-mentioned ii) under mode, user equipment is being received after the MAC-I PDU positive confirmation ACK of base station transmission indicates, performs step 102. The method of authorized appropriation provided in an embodiment of the present invention, applied to uplink multi-carrier mechanism, uplink multi-carrier mechanism includes at least one secondary carrier, by at least one process in the secondary carrier be active and/or the secondary carrier on authorization of service be more than zero authorize in the case of, if the power headroom UPH of user equipment is not more than the data volume TEBS that the first threshold values and/or user equipment Slow deposit and is not more than the second threshold values, then the user equipment sends the configured information for deactivating the configured information of the secondary carrier process or the authorization of service in the secondary carrier being set to zero mandate to base station, and deactivate the process in the secondary carrier or the authorization of service in the secondary carrier is set to zero mandate.Realize user equipment itself triggering deactivation process.Authorization signaling is reduced, signaling consumption is reduced.Solve in the prior art, because process activation and deactivate and need two authorization signalings, under TDM modes, the problem of caused larger signaling consumption.

Embodiment two

The present embodiment is illustrated from base station side to the method for another authorized appropriation provided in an embodiment of the present invention, the present embodiment is corresponding with embodiment one, the method that i.e. the present embodiment is provided is applied to uplink multi-carrier mechanism, and the uplink multi-carrier mechanism includes at least one secondary carrier.Referring to Fig. 2, this method includes：

201 :Base station receives the configured information for the deactivation secondary carrier process that user equipment is sent or the authorization of service in the secondary carrier is set to the configured information of zero mandate；Exemplary, at least one process in the secondary carrier be active and/or the secondary carrier on authorization of service be more than zero authorize in the case of, if the power headroom UPH of user equipment is not more than the data volume TEBS that the first threshold values and/or the user equipment Slow deposit and is not more than the second threshold values, the user equipment sends the configured information for deactivating the configured information of the secondary carrier process or the authorization of service in the secondary carrier being set to zero mandate to base station. 202 :The configured information of zero mandate is set to according to the configured information or the authorization of service by the secondary carrier for deactivating the secondary carrier process, process of the user equipment in the secondary carrier is deactivated or the authorization of service in the secondary carrier is set to zero mandate.Exemplary, when the user equipment sends the configured information for deactivating the secondary carrier process to base station, base station deactivates the secondary carrier HARQ processes according to the configured information of the deactivation secondary carrier process；When the user equipment is sent to base station, and the authorization of service in the secondary carrier is set into the configured information of zero mandate, the authorization of service in the secondary carrier is set to the configured information of zero mandate by the authorization of service in the secondary carrier according to this and is set to zero mandate by base station.It should be noted that, deactivate the secondary carrier process configured information or by the authorization of service in the secondary carrier be set to the configured information of zero mandate be used to indicate base station perform with base station not in the secondary carrier between the user equipment transmission data are corresponding acts, therefore, in actual implementation process, or：When base station receives any of configured information for deactivating the configured information of the secondary carrier process or the authorization of service in the secondary carrier being set to zero mandate, deactivate the secondary carrier HARQ processes, or the authorization of service in the secondary carrier is set to zero mandate, following embodiments three are illustrated by taking the implementation as an example.Further, the base station receives the configured information for the deactivation secondary carrier process that user equipment is sent or the authorization of service in the secondary carrier is set to the configured information of zero mandate, including but not limited to following two modes：I) base station receives the configured information of scheduling message SI, the SI comprising the process in the deactivation secondary carrier of the user equipment transmission or the authorization of service in the secondary carrier is set to the configured information of zero mandate；Exemplary, the SI includes：Data volume TEBS, the high priority logic channel Slow that the user equipment Slow is deposited deposit state HLBS, high priority Logic Channel Identifier HLID; The configured information that the configured information or the authorization of service by the secondary carrier for deactivating the secondary carrier process is set to zero mandate includes but is not limited to following several：The TEBS is null value, and the HLBS is nonzero value；Or, the TEBS is nonzero value, and the HLBS is null value；

Or, the TEBS is null value, and the HLID is nonzero value；

Or, the HLID is 1111.Ii) base station receives the up enhancing protocol Data Unit MAC-I PDU that the user equipment is sent, and the MAC-I PDU include the configured information for deactivating the process in the secondary carrier or the configured information that the authorization of service in described secondary carrier is set to zero mandate.

Exemplary, the MAC-I PDU include：Length Indication, Logic Channel Identifier LCH-ID;The configured information that the instruction for deactivating the secondary carrier process or the authorization of service by the secondary carrier are set to zero mandate includes：

The LCH-ID is 1111;Or, the LCH-ID is the prewired value of a disabling；Or, the Length Indication is null value.

Further, the configured information for the deactivation secondary carrier process that user equipment is sent is received in the base station or is set to the authorization of service in the secondary carrier after the configured information of zero mandate, methods described also includes：

In the case of the scheduling message SI that the user equipment is sent is received in the base station, the positive confirmation ACK for sending the SI to the user equipment is indicated；

Or, in the case of the MAC-I PDU that the user equipment is sent are received in the base station, the positive confirmation ACK for sending the MAC-I PDU to the user equipment is indicated.The method of authorized appropriation provided in an embodiment of the present invention, applied to uplink multi-carrier machine System, uplink multi-carrier mechanism includes at least one secondary carrier, the configured information of deactivation secondary carrier process of the base station according to transmitted by the user equipment of reception or the configured information that the authorization of service in secondary carrier is set to zero mandate, deactivate process of the user equipment in secondary carrier or the authorization of service in secondary carrier is set to zero mandate, realize base station and realized in the case where not sending authorization signaling to user equipment and deactivate process of the user equipment in secondary carrier or the authorization of service in secondary carrier is set to zero mandate, reduce authorization signaling, reduce signaling consumption.Solve in the prior art, because the distribution and release of resource need two authorization signalings, under TDM modes, the problem of caused larger signaling consumption.

The method provided below by a specific embodiment above-described embodiment one and embodiment two is illustrated.The scene of the present embodiment of embodiment three is：It is the mandate more than zero that at least one HARQ process, which is in the authorization of service in the secondary carrier of the state of activation and/or user equipment, in the secondary carrier of user equipment.Referring to Fig. 3, this method includes：

301 :User equipment judges whether the transmission power surplus UPH of the user equipment is not more than the first threshold values, and/or the data volume TEBS no more than Second Thresholds that user equipment Slow is deposited.First threshold values, Second Threshold are the value or predefined value that network can configure.It is judged as in step 301 in the case of " being ", it is believed that covering is limited or subscriber traffic is smaller etc. so that user equipment can not perform high speed data transfer.Because secondary carrier is mainly used in providing high speed data transfer, so in this case, all HARQ processes in secondary carrier can be deactivated and/or the authorization of service in secondary carrier is set into zero mandate, specifically including：Base station and user equipment deactivate all HARQ processes in secondary carrier and/or the authorization of service in secondary carrier are set into zero mandate. 302:If so, then sending schedule information SI or up enhancing protocol Data Unit MAC-I PDU to base station;The configured information of the HARQ processes in the secondary carrier for deactivating user equipment is included in SI and MAC-I PDU.Optionally, step 302 is included, when UPH is less than or equal to the first threshold values, and after continuing for some time, user equipment sends SI the or MAC-I PDU for including the configured information for deactivating the HARQ processes in secondary carrier to base station;Wherein, duration can configure for network value or predefined value.Optionally, step 302 is included, when TEBS is less than or equal to the second threshold values, and after continuing for some time, then user equipment sends SI the or MAC-I PDU for including the configured information for deactivating the HARQ processes in secondary carrier to base station;Wherein, duration can configure for network value or predefined value.

1) user equipment reports the configured information of the secondary carrier process of the deactivation user equipment included in the SI that the configured information of the HARQ processes in the secondary carrier for deactivating user equipment describes for the clear explanation embodiment of the present invention by SI to base station, and the feature of SI in the prior art is illustrated first.SI of the prior art-as include following information：UPH, TEBS, high priority logic channel Slow deposit state HLBS, high priority Logic Channel Identifier HLID.Wherein, UPH, TEBS, the bit number shared by HLBS, HLID can be respectively： 5bits、 5bits、 4bits、 4bits.Generally, when TEBS is null value（00000) when, HLBS and HLID are respectively null value（ 0000 );In addition, HLID-as be not 1111.The information that the instruction included in SI in the embodiment of the present invention deactivates the process in the secondary carrier of user equipment can be including but not limited to following several：Al) TEBS is null value（00000), HLBS is nonzero value, such as 1111;Bl) TEBS is nonzero value, and such as 11111, HLBS is null value（ 0000 );Cl) TEBS is null value（00000), HLID is nonzero value, such as 1111; Dl) HLID is 1111.

2) instruction included in the MAC-I PDU that user equipment is described by MAC-I PDU on the base station 4 blunt configured informations for deactivating the process in user equipment secondary carrier for the clear explanation embodiment of the present invention deactivates the information of the HARQ processes in the secondary carrier of user equipment, and the feature of MAC-I PDU in the prior art is illustrated first.MAC-I PDU of the prior art-as include following information：Length (Length Indications）Length for indicating each MAC-is SDU (MAC-is Service DATA Unit, up enhancing service data unit) in MAC-I PDU, takes libit;Logic Channel Identifier LCH-ID is used to indicate the corresponding logic channel of each MAC-is SDU in MAC-I PDU, 4 bit of occupancy.Usual Length (L), which will not be arranged to zero, LCH-ID, will not be arranged to " 1111 ".The information that the instruction included in MAC-I PDU in the embodiment of the present invention deactivates the HARQ processes in the secondary carrier of the user equipment can be including but not limited to following several：A2 LCH-ID) is subjected to special setting, such as is set to " 1111 ";Or, LCH-ID is set to the prewired value of a disabling；Wherein, the LCH-ID prewired values for being set to a disabling are referred to that the LCH-ID is not assigned to radio bearer, normal data transfer is namely not used in, instruction is served only for and deactivates the HARQ processes in the secondary carrier of the user equipment or the authorization of service in the secondary carrier of the user equipment is set to zero mandate.B2) Length is set to " 00000000000 ".

303:Base station is had correctly received after SI or MAC-I PDU, and sending positive confirmation ACK to user equipment indicates；And all HARQ processes of the user equipment in secondary carrier are deactivated according to the instruction included in SI or MAC-I PDU.Specifically, base station is had correctly received after SI, the ACK for sending SI to user equipment is indicated；Base station is had correctly received after MAC-I PDU, and MAC-I PDU are sent to user equipment ACK indicate.It should be noted that if base station is not properly received SI or MAC-I PDU, sending negative acknowledgment NACK to user equipment indicates；In this case, re-executing step 302, i.e., user equipment sends SI or MAC-I PDU to base station again.

304 :User equipment is received after ACK instructions, deactivates HARQ processes all in secondary carrier, or, the authorization of service in secondary carrier is set to zero mandate.Optionally, user equipment can also be immediately performed the HARQ processes all in secondary carrier that deactivate it is determined that UPH is not more than the first threshold values and/or when TBES is not more than Second Threshold, or, the authorization of service in secondary carrier is set to zero mandate.The method of authorized appropriation provided in an embodiment of the present invention, at least one HARQ process in the secondary carrier of user equipment is that the authorization of service in the secondary carrier of state of activation and/or user equipment is the mandate more than zero, and be not more than in the power headroom UPH of user equipment in the case that the data volume TEBS that first threshold and/or user equipment Slow deposit is not more than Second Threshold, user equipment sends the scheduling message SI or up enhancing protocol Data Unit MAC-I PDU for the configured information for including the HARQ processes in the secondary carrier for deactivating user equipment to base station;Base station deactivates in the secondary carrier of user equipment all HARQ processes and/or the authorization of service in secondary carrier is set into zero mandate, and confirm that ACK is indicated to user equipment feedback is positive when having correctly received SI or MAC-I PDU；User equipment（After ACK instructions are received）Deactivate in secondary carrier all HARQ processes and/or the authorization of service in the secondary carrier of user equipment is set to zero mandate.It is achieved thereby that user equipment itself triggering deactivates HARQ processes, authorization signaling is reduced, signaling consumption is reduced.Solve in the prior art, because process activation and deactivate and need two authorization signalings, under TDM modes, the problem of caused larger signaling consumption.Example IV

The present embodiment divides another authorize provided in an embodiment of the present invention from user equipment side The method matched somebody with somebody is illustrated, and the present embodiment can be used in single carrier mechanism or multicarrier mechanism.Referring to Fig. 4, this method includes：

401 :User equipment receives the authorization signaling that base station is sent, and the authorization signaling includes authorizing the period；

User equipment can receive the authorization signaling that base station is sent by Enhanced-DedicatedChannel absolute grant channel E-AGCH or other channels.Authorization signaling is in addition to including authorizing the period, in addition to first service mandate, and the first service mandate is typically greater than zero mandate.

It is the mandate time that base station is user equipment distribution to authorize the period, is made up of one or more process；Between when authorized during Duan Weiyi process, the process can be current process；When section is multiple processes between when authorized, the plurality of process can be continuous process, or discontinuous process.

Optionally, the mandate period includes very first time domain and the second time-domain.

402 :Process according to corresponding to the authorization signaling activates the mandate period.This method can also include：Authorization of service is set to first service mandate etc..

Further, after step 402, methods described also includes：

When the mandate period cut-off, deactivate the process of the user equipment and/or the authorization of service of the user equipment is set to zero mandate.The step causes user equipment to send data to base station not in the secondary carrier.

Optionally, the very first time domain is RTT (a Round-Trip Time, round-trip delay）Interior Transmission Time Interval Τ Τ Ι number, second time-domain is the number of the RTT；In this case, step 402 can include：In each RTT of second time-domain, the process corresponding to the very first time domain is activated, embodiment six is specifically may refer to.Wherein, RTT refers to the time interval from user equipment transmission upstream data bag to the confirmation for receiving base station feedback, and RTT size is relevant with Τ Τ Ι size, if for example, a Τ Τ Ι is 2ms, a RTT includes 8 Τ Τ Ι;If a Τ Τ Ι is 10ms, a RTT includes 4 TTI.

The method of authorized appropriation provided in an embodiment of the present invention, user equipment receives base station and sent Include the authorization signaling for authorizing the period, and the process according to corresponding to the authorization signaling activates the mandate period.This method supports a signaling to activate one or more process, reduces authorization signaling, reduces signaling consumption.Solve in the prior art, because every authorization signaling can only activate or deactivate a process or whole processes, when simultaneously needs activate at least two processes（Not all process）When, it is necessary to a plurality of authorization signaling, the problem of causing larger signaling consumption.Embodiment five

The present embodiment is illustrated from base station side to the method for another authorized appropriation provided in an embodiment of the present invention, and the present embodiment is corresponding with example IV, i.e., the present embodiment can be used in single carrier mechanism or multicarrier mechanism.Referring to Fig. 5, this method includes：

501 :Base station determines authorization signaling, and the authorization signaling includes authorizing the period；Authorization signaling is in addition to including authorizing the period, in addition to first service mandate, and the first service mandate is typically greater than zero mandate.Authorize the period to be used to represent the mandate time, be made up of one or more process.

It should be noted that between when authorized during Duan Weiyi process, the process can be current process；When section is multiple processes between when authorized, the plurality of process can be continuous process, or discontinuous process.

Optionally, the mandate period includes very first time domain and the second time-domain. 502 :The authorization signaling is sent to user equipment；To cause process of the user equipment according to corresponding to authorization signaling activation in the mandate period.

Base station to user equipment can send the authorization signaling by Enhanced-DedicatedChannel absolute grant channel E-AGCH or other channels.

Optionally, the very first time domain is the number of the Transmission Time Interval TTI in a round-trip delay RTT, and second time-domain is the number of the RTT.

The method of authorized appropriation provided in an embodiment of the present invention, base station is by determining and being sent to user equipment comprising the authorization signaling for authorizing the period so that user equipment is according to authorization signaling Activation is in the process corresponding to the mandate period.This method supports a signaling to activate one or more process, reduces authorization signaling, reduces signaling consumption.Solve in the prior art, because every authorization signaling can only activate or deactivate a process or whole processes, when simultaneously needs activate at least two processes（Not all process）When, it is necessary to a plurality of authorization signaling, the problem of causing larger signaling consumption.The method provided below by a specific embodiment above-described embodiment four and embodiment five is illustrated.

Embodiment six

Referring to Fig. 6, this method includes：

601 :Base station sends authorization signaling to user equipment；The authorization signaling includes：First service mandate of the user equipment in secondary carrier, very first time domain, the second time-domain；Wherein, very first time domain is the number of the Transmission Time Interval TTI in a round-trip delay RTT（It is expressed as T), the second time-domain is the number of the RTT（It is expressed as R).

Authorization of service can be the mandate more than zero.T is used for the number of the HARQ processes activated in one RTT of instruction（Or the TTI authorized number）, RTT numbers of the R for indicating activation.

602 :User equipment activates the continuous T HARQ processes using current HARQ processes as starting point according to the authorization signaling, and circulates the period of second time-domain, and the authorization of service in the secondary carrier of user equipment is set into first service mandate；Wherein, after the second time-domain is ended, user equipment deactivates all HARQ processes in secondary carrier, or authorization of service in secondary carrier is set into zero mandate.

For example, user equipment receive base station transmission authorization signaling when HARQ processes（I.e. current HARQ processes) it is HARQ processes 0, very first time domain T is 4, second time-domain R is 2, then the HARQ processes of user equipment activation are HARQ processes 0, HARQ processes 1, HARQ processes 2, HARQ processes 3, in the way of such activation HARQ processes（), pattern 2 RTT are continued.Referring to Fig. 7, each long square frame is represented One TTI, usually 2ms;Blank box represents the HARQ processes of activation, and dash box represents the HARQ processes deactivated.

The method of authorized appropriation provided in an embodiment of the present invention, base station is sent to user equipment includes first time-domain T, second time-domain R and the authorization signaling of first service mandate, user equipment activates the continuous T HARQ processes using current HARQ processes as starting point according to the authorization signaling, and circulate second time-domain R period, and the authorization of service in the secondary carrier of user equipment is set to first service mandate, wherein, after the second time-domain is ended, user equipment deactivates all HARQ processes in secondary carrier, or authorization of service in secondary carrier is set to zero mandate, it the method achieve user equipment itself triggering deactivation process, and support a signaling to activate one or more HARQ process, so as to reduce authorization signaling, reduce signaling consumption.Solve in the prior art, because the activation and deactivation of process need two authorization signalings, under TDM modes, the problem of causing larger signaling consumption；With because every authorization signaling can only activate or deactivate a process or whole process, when needing to activate at least two processes simultaneously（Not all process）When, it is necessary to a plurality of authorization signaling, the problem of causing larger signaling consumption.Embodiment seven

The present embodiment is illustrated from user equipment side to the method for another authorized appropriation provided in an embodiment of the present invention, and the present embodiment can apply to single carrier mechanism or multicarrier mechanism.Referring to Fig. 8, this method includes：

801 :User equipment receives the authorization signaling that base station is sent, and the authorization signaling includes：First service mandate, process number and activation indicate mapping relations；

First service authorization value can be zero mandate, the mandate more than zero, INACTIVE.The particular content of authorization signaling can according to system operation situation, be actually needed etc. and to be determined.Activation instruction includes：Activation is deactivated.

Optionally, the process number indicates that mapping relations include with activation：The process number indicates mapping relations bitmap with activation（Bitmap) represent, for example, " 1 " table can be used Show activation, represented to deactivate with " 0 "；Or, activation can be represented with " 0 ", be represented to illustrate exemplified by representing activation with " 1 ", be represented to deactivate with " 0 " in deactivation following examples with " 1 ".It is that a kind of process number represented with bitmap indicates mapping relations with activation referring to Fig. 9.

802 :Indicate that mapping relations determine the process of activation according to the process number and activation；The process number determined in the step 802 can include one or more, when comprising a process number, and the process number can be current process, can not also be current process；When comprising multiple process numbers, the plurality of process number can be that continuous process can also be discontinuous process.When needing to activate all processes, process number can also be a character string, for example, ALL HARQ.

Process number as shown in Fig. 9 indicates that the process activated determined by mapping relations is with activation：Process 0, process 1, process 2, process 3, process 4, process 6.

803 :The corresponding authorization of service of the process of the activation is set to the first service mandate.

The method of authorized appropriation provided in an embodiment of the present invention, user equipment receives the authorization signaling for indicating mapping relations with activation comprising first service mandate, process number that base station is sent, and indicates that mapping relations determine the process of activation according to process number and activation；And the corresponding authorization of service of the process of the activation of determination is set to first service mandate.This method is supported to activate or deactivate one or more process simultaneously, reduces authorization signaling, reduce signaling consumption.Solve in the prior art, because every authorization signaling can only activate or deactivate a process or whole processes, when simultaneously needs activate at least two processes（Not all process）When, it is necessary to a plurality of authorization signaling, the problem of causing larger signaling consumption.Embodiment eight

The present embodiment is illustrated from base station side to the method for another authorized appropriation provided in an embodiment of the present invention, and the present embodiment is corresponding with embodiment seven, i.e., the present embodiment can apply to single carrier mechanism or multicarrier mechanism.Referring to Figure 10, this method includes： 1001：Base station determines authorization signaling, and the authorization signaling includes：First service mandate, process number and activation indicate mapping relations；

The related content of the present embodiment may refer to embodiment seven, and here is omitted.

Optionally, the process number indicates that mapping relations include with activation：The process number indicates that mapping relations are represented with bitmap with activation.

1002 :The authorization signaling is sent to user equipment, to cause the user equipment to indicate that mapping relations determine the process of activation according to the process number and activation, and the corresponding authorization of service of the process of the activation first service mandate is set to.

The method of authorized appropriation provided in an embodiment of the present invention, base station indicates the authorization signaling of mapping relations by determining and being sent to user equipment comprising first service mandate, process number with activation, so that user equipment indicates that mapping relations determine the process of activation according to process number and activation, and the corresponding authorization of service of the process of the activation of determination is set to first service mandate.This method is supported to activate or deactivate one or more process simultaneously, reduces authorization signaling, reduce signaling consumption.Solve in the prior art, because every authorization signaling can only activate or deactivate a process or whole processes, when simultaneously needs activate at least two processes（Not all process）When, it is necessary to a plurality of authorization signaling, the problem of causing larger signaling consumption.The method provided below by a specific embodiment above-described embodiment seven and embodiment eight is illustrated.Embodiment nine

Referring to Fig. 11, this method includes：

1 101 :Base station sends the authorization signaling to user equipment to be included：First service mandate, process number and activation indicate mapping relations；

Related content in this implementation may refer to above-described embodiment seven and embodiment eight, and here is omitted.Process number indicates that mapping relations are represented with bitmap with activation.

1 102 :User equipment indicates that mapping relations determine entering for activation according to process number and activation Journey；

1 103 :The corresponding authorization of service of the process of the activation of determination is set to first service mandate by user equipment.

The method of authorized appropriation provided in an embodiment of the present invention, base station sends the authorization signaling for indicating mapping relations with activation comprising first service mandate, process number to user equipment, user equipment indicates that mapping relations determine the process of activation according to process number and activation, and the corresponding authorization of service of the process of the activation of determination is set to first service mandate, this method is supported to activate or deactivate one or more process simultaneously, authorization signaling is reduced, signaling consumption is reduced.Solve in the prior art, because every authorization signaling can only activate or deactivate a process or whole processes, when simultaneously needs activate at least two processes（Not all process）When, it is necessary to a plurality of authorization signaling, the problem of causing larger signaling consumption.On the one hand, the embodiment of the present invention additionally provides the device of authorized appropriation.

Referring to Figure 12, for a kind of user equipment 120 provided in an embodiment of the present invention, applied to uplink multi-carrier mechanism, the uplink multi-carrier mechanism includes at least one secondary carrier, method of the user equipment 120 to perform the authorized appropriation shown in embodiment one, the user equipment 120 includes：

Transmitting element 1201, for at least one process in the secondary carrier be active and/or the secondary carrier on authorization of service be more than zero authorize in the case of, if the power headroom UPH of the user equipment 120 is not more than the data volume TEBS that the first threshold values and/or the Slow of the user equipment 120 deposit and is not more than the second threshold values, the configured information for deactivating the configured information of the secondary carrier process or the authorization of service in the secondary carrier being set to zero mandate is sent to base station；

Processing unit 1202, for deactivating process in the secondary carrier or the authorization of service in the secondary carrier being set into zero mandate.

Optionally, the transmitting element 1201 specifically for, send scheduling message SI to the base station, the SI comprising the configured information for deactivating the process in the secondary carrier or Authorization of service in the secondary carrier is set to the configured information of zero mandate；Or, up enhancing protocol Data Unit MAC-I PDU are sent to the base station, the MAC-I PDU include the configured information for deactivating the process in the secondary carrier or the configured information that the authorization of service in described secondary carrier is set to zero mandate.

Optionally, the user equipment 120 also includes：

Receiving unit 1203, in the case of sending the SI to the base station in the transmitting element 1201, the positive confirmation ACK for receiving the SI that the base station is sent is indicated；Or, in the case where the transmitting element 1201 sends the MAC-I PDU to the base station, the positive confirmation ACK for receiving the MAC-I PDU that the base station is sent is indicated.

Optionally, the SI includes：The TEBS, high priority logic channel Slow deposit state HLBS, high priority Logic Channel Identifier HLID;In the case where the transmitting element 1201 sends the SI to the base station, the configured information that the instruction for deactivating the secondary carrier process or the authorization of service by the secondary carrier are set to zero mandate includes：

The TEBS is set to null value, the HLBS is set to nonzero value；Or, it is nonzero value by the TEBS, the HLBS is set to null value；Or, the TEBS is set to null value, the HLID is set to nonzero value；Or, the HLID is set to 1111.

Optionally, the MAC-I PDU include：Length Indication, Logic Channel Identifier LCH-ID;In the case where the transmitting element 1201 sends the MAC-I PDU to the base station, the configured information that the instruction for deactivating the secondary carrier process or the authorization of service by the secondary carrier are set to zero mandate includes：

The LCH-ID is set to 1111;

Or, the LCH-ID is set to the prewired value of a disabling；

Or, the Length Indication is set to null value.

The embodiment of the present invention provides user equipment, up many applied to uplink multi-carrier mechanism Carrier wave mechanism includes at least one secondary carrier, by at least one process in the secondary carrier be active and/or the secondary carrier on authorization of service be more than zero authorize in the case of, if the power headroom UPH of user equipment is not more than the data volume TEBS that the first threshold values and/or user equipment Slow deposit and is not more than the second threshold values, the configured information for deactivating the configured information of the secondary carrier process or the authorization of service in the secondary carrier being set to zero mandate is then sent to base station, and deactivate the process in the secondary carrier or the authorization of service in the secondary carrier is set to zero mandate.Realize user equipment itself triggering deactivation process.Authorization signaling is reduced, signaling consumption is reduced.Solve in the prior art, because process activation and deactivate and need two authorization signalings, under TDM modes, the problem of caused larger signaling consumption.

Referring to Figure 13, for another user equipment 120 provided in an embodiment of the present invention, applied to uplink multi-carrier mechanism, the uplink multi-carrier mechanism includes at least one secondary carrier, method of the user equipment 120 to perform the authorized appropriation shown in embodiment one, the user equipment 120 includes：

Transmitter 1301, for at least one process in the secondary carrier be active and/or the secondary carrier on authorization of service be more than zero authorize in the case of, if the power headroom UPH of the user equipment 120 is not more than the data volume TEBS that the first threshold values and/or the Slow of the user equipment 120 deposit and is not more than the second threshold values, the configured information for deactivating the configured information of the secondary carrier process or the authorization of service in the secondary carrier being set to zero mandate is sent to base station；

Processor 1302, for deactivating process in the secondary carrier or the authorization of service in the secondary carrier being set into zero mandate.

Optionally, the transmitter 1301 specifically for,

Scheduling message SI, the SI, which are sent, to the base station includes the configured information for deactivating the process in the secondary carrier or the configured information that the authorization of service in the secondary carrier is set to zero mandate；

Or, up enhancing protocol Data Unit MAC-I PDU are sent to the base station, The MAC-I PDU include the configured information for deactivating the process in the secondary carrier or the configured information that the authorization of service in described secondary carrier is set to zero mandate.

Optionally, the user equipment 120 also includes：

Receiver 1303, in the case of sending the SI to the base station in transmitter 1301, the positive confirmation ACK for receiving the SI that the base station is sent is indicated；

Or, in the case where the transmitter 1301 sends the MAC-I PDU to the base station, the positive confirmation ACK for receiving the MAC-I PDU that the base station is sent is indicated.

Optionally, the SI includes：The TEBS, high priority logic channel Slow deposit state HLBS, high priority Logic Channel Identifier HLID;In the case where the transmitter 1301 sends the SI to the base station, the configured information that the instruction for deactivating the secondary carrier process or the authorization of service by the secondary carrier are set to zero mandate includes：

The TEBS is set to null value, the HLBS is set to nonzero value；Or, it is nonzero value by the TEBS, the HLBS is set to null value；Or, the TEBS is set to null value, the HLID is set to nonzero value；Or, the HLID is set to 1111.

Optionally, the MAC-I PDU include：Length Indication, Logic Channel Identifier LCH-ID;In the case where the transmitter 1301 sends the MAC-I PDU to the base station, the configured information that the instruction for deactivating the secondary carrier process or the authorization of service by the secondary carrier are set to zero mandate includes：

The LCH-ID is set to 1111;

Or, the LCH-ID is set to the prewired value of a disabling；

Or, the Length Indication is set to null value.

The embodiment of the present invention provides user equipment, applied to uplink multi-carrier mechanism, uplink multi-carrier mechanism include at least one secondary carrier, by least one process in the secondary carrier be active and/or the secondary carrier on authorization of service be more than zero authorize in the case of If the power headroom UPH of user equipment is not more than the data volume TEBS that the first threshold values and/or user equipment Slow deposit and is not more than the second threshold values, the configured information for deactivating the configured information of the secondary carrier process or the authorization of service in the secondary carrier being set to zero mandate is then sent to base station, and deactivates the process in the secondary carrier or the authorization of service in the secondary carrier is set to zero mandate.Realize user equipment itself triggering deactivation process.Authorization signaling is reduced, signaling consumption is reduced.Solve in the prior art, because process activation and deactivate and need two authorization signalings, under TDM modes, the problem of caused larger signaling consumption.

Referring to Figure 14, for a kind of base station 140 provided in an embodiment of the present invention, applied to uplink multi-carrier mechanism, the uplink multi-carrier mechanism includes at least one secondary carrier, method of the base station 140 to perform the authorized appropriation shown in embodiment two, the base station 140 includes：Receiving unit 1401, for receiving the configured information for deactivating the secondary carrier process of user equipment transmission or the authorization of service in the secondary carrier being set to the configured information of zero mandate；

Processing unit 1402, the configured information of zero mandate is set to for the configured information of the deactivation secondary carrier process transmitted according to the receiving unit 1401 or the authorization of service by the secondary carrier, process of the user equipment in the secondary carrier is deactivated or the authorization of service in the secondary carrier is set to zero mandate.

Optionally, the receiving unit 1401 specifically for, the scheduling message SI, the SI for receiving the user equipment transmission include the configured information for deactivating the process in the secondary carrier or the configured information that the authorization of service in the secondary carrier is set to zero mandate；Or, the up enhancing protocol Data Unit MAC-I PDU that the user equipment is sent are received, the MAC-I PDU include the configured information for deactivating the process in the secondary carrier or the configured information that the authorization of service in described secondary carrier is set to zero mandate.

Optionally, the base station 140 also includes：

Transmitting element 1403, in the case of receiving the scheduling message SI that the user equipment is sent in the receiving unit 1401, the correct of the SI is sent to the user equipment Recognize ACK instructions；

Or, in the case where the receiving unit 1401 receives the MAC-I PDU that the user equipment is sent, the positive confirmation ACK for sending the MAC-I PDU to the user equipment is indicated.

Optionally, the SI includes：Data volume TEBS, the high priority logic channel Slow that the user equipment Slow is deposited deposit state HLBS, high priority Logic Channel Identifier HLID;In the case where the receiving unit 1401 receives the SI that the user equipment is sent, the configured information that the instruction for deactivating the secondary carrier process or the authorization of service by the secondary carrier are set to zero mandate includes：

The TEBS is null value, and the HLBS is nonzero value；

Or, the TEBS is nonzero value, and the HLBS is null value；

Or, the TEBS is null value, and the HLID is nonzero value；

Or, the HLID is 1111.

Optionally, the MAC-I PDU include：Length Indication, Logic Channel Identifier LCH-ID;In the case where the receiving unit 1401 receives the MAC-I PDU that the user equipment is sent, the configured information that the configured information or the authorization of service by the secondary carrier for deactivating the secondary carrier process is set to zero mandate includes：The LCH-ID is 1111;

Or, the LCH-ID is the prewired value of a disabling；

Or, the Length Indication is null value.

The embodiment of the present invention provides base station, applied to uplink multi-carrier mechanism, uplink multi-carrier mechanism includes at least one secondary carrier, the configured information of deactivation secondary carrier process according to transmitted by the user equipment of reception or the configured information that the authorization of service in secondary carrier is set to zero mandate, deactivate process of the user equipment in secondary carrier or the authorization of service in secondary carrier is set to zero mandate, realize base station and realized in the case where not sending authorization signaling to user equipment and deactivate process of the user equipment in secondary carrier or the authorization of service in secondary carrier is set to zero mandate, reduce authorization signaling, reduce signaling consumption.Solve In the prior art, because the distribution and release of resource need two authorization signalings, under TDM modes, the problem of caused larger signaling consumption.

Referring to Figure 15, for a kind of base station 140 provided in an embodiment of the present invention, applied to uplink multi-carrier mechanism, the uplink multi-carrier mechanism includes at least one secondary carrier, method of the base station 140 to perform the authorized appropriation shown in embodiment two, the base station 140 includes：Receiver 1501, for receiving the configured information for deactivating the secondary carrier process of user equipment transmission or the authorization of service in the secondary carrier being set to the configured information of zero mandate；

Processor 1502, configured information for being set to zero mandate according to the configured information or the authorization of service by the secondary carrier for deactivating the secondary carrier process, deactivates process of the user equipment in the secondary carrier or the authorization of service in the secondary carrier is set into zero mandate.

Optionally, the receiver 1501 specifically for, the scheduling message SI, the SI for receiving the user equipment transmission include the configured information for deactivating the process in the secondary carrier or the configured information that the authorization of service in the secondary carrier is set to zero mandate；

Or, the up enhancing protocol Data Unit MAC-I PDU that the user equipment is sent are received, the MAC-I PDU include the configured information for deactivating the process in the secondary carrier or the configured information that the authorization of service in described secondary carrier is set to zero mandate.

Optionally, the base station 140 also includes：

Transmitter 1503, in the case of receiving the scheduling message SI that the user equipment is sent in the receiver 1501, the positive confirmation ACK for sending the SI to the user equipment is indicated.

Or, in the case where the receiver 1501 receives the MAC-I PDU that the user equipment is sent, the positive confirmation ACK for sending the MAC-I PDU to the user equipment is indicated.

Optionally, the SI includes：Data volume TEBS, the high priority logic channel Slow that the user equipment Slow is deposited deposit state HLBS, high priority Logic Channel Identifier HLID; In the case where the receiver 1501 receives the SI that the user equipment is sent, the configured information that the instruction for deactivating the secondary carrier process or the authorization of service by the secondary carrier are set to zero mandate includes：

The TEBS is null value, and the HLBS is nonzero value；

Or, the TEBS is nonzero value, and the HLBS is null value；

Or, the TEBS is null value, and the HLID is nonzero value；

Or, the HLID is 1111.

Optionally, the MAC-I PDU include：Length Indication, Logic Channel Identifier LCH-ID;In the case where the receiver 1501 receives the MAC-I PDU that the user equipment is sent, the configured information that the configured information or the authorization of service by the secondary carrier for deactivating the secondary carrier process is set to zero mandate includes：

The LCH-ID is 1111;

Or, the LCH-ID is the prewired value of a disabling；

Or, the Length Indication is null value.

The embodiment of the present invention provides base station, applied to uplink multi-carrier mechanism, uplink multi-carrier mechanism includes at least one secondary carrier, the configured information of deactivation secondary carrier process according to transmitted by the user equipment of reception or the configured information that the authorization of service in secondary carrier is set to zero mandate, deactivate process of the user equipment in secondary carrier or the authorization of service in secondary carrier is set to zero mandate, realize base station and realized in the case where not sending authorization signaling to user equipment and deactivate process of the user equipment in secondary carrier or the authorization of service in secondary carrier is set to zero mandate, reduce authorization signaling, reduce signaling consumption.Solve in the prior art, because the distribution and release of resource need two authorization signalings, under TDM modes, the problem of caused larger signaling consumption.It is a kind of user equipment 160 provided in an embodiment of the present invention referring to Figure 16, the method to perform the authorized appropriation shown in example IV, the user equipment 160 includes：

Receiving unit 1601, the authorization signaling for receiving base station transmission, the mandate letter Order includes authorizing the period；

Processing unit 1602, for the authorization signaling activation process authorized corresponding to the period transmitted according to the receiving unit 1601.

Optionally, the processing unit 1602 is additionally operable to, and when the mandate period cut-off, deactivates the process of the user equipment 160 and/or the authorization of service of the user equipment 160 is set into zero mandate.

Optionally, the mandate period includes very first time domain and the second time-domain.

Optionally, the very first time domain is the number of the Transmission Time Interval TTI in a round-trip delay RTT, and second time-domain is the number of the RTT；

The processing unit 1602 is specifically in each RTT of second time-domain, activating the process corresponding to the very first time domain.

User equipment provided in an embodiment of the present invention, receives the authorization signaling for including the mandate period that base station is sent, and the process according to corresponding to the authorization signaling activates the mandate period.The user equipment supports a signaling to activate one or more process, reduces authorization signaling, reduces signaling consumption.Solve in the prior art, because every authorization signaling can only activate or deactivate a process or whole processes, when simultaneously needs activate at least two processes（Not all process）When, it is necessary to a plurality of authorization signaling, the problem of causing larger signaling consumption.

It is a kind of user equipment 160 provided in an embodiment of the present invention referring to Figure 17, the method to perform the authorized appropriation shown in example IV, the user equipment 160 includes：

Receiver 1701, the authorization signaling for receiving base station transmission, the authorization signaling includes authorizing the period；

Processor 1702, for the process according to corresponding to the authorization signaling activation mandate period.

Optionally, the processor 1702 is additionally operable to, and when the mandate period cut-off, deactivates the process of the user equipment and/or the authorization of service of the user equipment is set into zero mandate. Optionally, the mandate period includes very first time domain and the second time-domain.Optionally, the very first time domain is the number of the Transmission Time Interval Τ Τ Ι in a round-trip delay RTT, and second time-domain is the number of the RTT；

The processor is specifically in each RTT of second time-domain, activating the process corresponding to the very first time domain.

User equipment provided in an embodiment of the present invention, receives the authorization signaling for including the mandate period that base station is sent, and the process according to corresponding to the authorization signaling activates the mandate period.The user equipment supports a signaling to activate one or more process, reduces authorization signaling, reduces signaling consumption.Solve in the prior art, because every authorization signaling can only activate or deactivate a process or whole processes, when simultaneously needs activate at least two processes（Not all process）When, it is necessary to a plurality of authorization signaling, the problem of causing larger signaling consumption.

It is a kind of base station 180 provided in an embodiment of the present invention referring to Figure 18, the method to perform the authorized appropriation shown in embodiment five, the base station 180 includes：

Determining unit 1801, determines authorization signaling, and the authorization signaling includes authorizing the period；

Transmitting element 1802, for sending the authorization signaling that the determining unit 1801 is transmitted to user equipment, to cause process of the user equipment according to corresponding to authorization signaling activation in the mandate period.

Optionally, the mandate period includes very first time domain and the second time-domain.Optionally, the very first time domain is the number of the Transmission Time Interval Τ Τ Ι in a round-trip delay RTT, and second time-domain is the number of the RTT.

Offer of embodiment of the present invention base station, passes through and determines and sent to user equipment comprising the authorization signaling for authorizing the period so that process of the user equipment according to corresponding to authorization signaling activation in the mandate period.The base station supports a signaling to activate one or more process, reduces authorization signaling, reduces signaling consumption.Solve in the prior art, because every authorization signaling can only activate or deactivate a process or whole processes, when simultaneously needs are activated At least two processes（Not all process）When, it is necessary to a plurality of authorization signaling, the problem of causing larger signaling consumption.

It is a kind of base station 180 provided in an embodiment of the present invention referring to Figure 19, the method to perform the authorized appropriation shown in embodiment five, the base station 180 includes：

Processor 1901, for determining authorization signaling, the authorization signaling includes authorizing the period；

Transmitter 1902, for sending the authorization signaling to user equipment, to cause process of the user equipment according to corresponding to authorization signaling activation in the mandate period.

Optionally, the mandate period includes very first time domain and the second time-domain.Optionally, the very first time domain is the number of the Transmission Time Interval TTI in a round-trip delay RTT, and second time-domain is the number of the RTT.

Offer of embodiment of the present invention base station, passes through and determines and sent to user equipment comprising the authorization signaling for authorizing the period so that process of the user equipment according to corresponding to authorization signaling activation in the mandate period.The base station supports a signaling to activate one or more process, reduces authorization signaling, reduces signaling consumption.Solve in the prior art, because every authorization signaling can only activate or deactivate a process or whole processes, when simultaneously needs activate at least two processes（Not all process）When, it is necessary to a plurality of authorization signaling, the problem of causing larger signaling consumption.It is a kind of user equipment 160 provided in an embodiment of the present invention referring to Figure 16, the method to perform the authorized appropriation shown in embodiment seven, the user equipment 160 includes：

Receiving unit 1601, the authorization signaling for receiving base station transmission, the authorization signaling includes：First service mandate, process number and activation indicate mapping relations；

Processing unit 1602, the process number and activation for being transmitted according to the receiving unit 1601 indicate that mapping relations determine the process of activation；The corresponding authorization of service of the process of the activation is set to the first service mandate of the receiving unit transmission. Optionally, the process number indicates that mapping relations include with activation：The process number indicates that mapping relations are represented with bitmap with activation.

User equipment provided in an embodiment of the present invention, by receiving the authorization signaling for indicating mapping relations with activation comprising first service mandate, process number that base station is sent, indicates that mapping relations determine the process of activation according to process number and activation；And the corresponding authorization of service of the process of the activation of determination is set to first service mandate.The user equipment is supported to activate or deactivate one or more process simultaneously, reduces authorization signaling, reduce signaling consumption.Solve in the prior art, because every authorization signaling can only activate or deactivate a process or whole processes, when simultaneously needs activate at least two processes（Not all process）When, it is necessary to a plurality of authorization signaling, the problem of causing larger signaling consumption.

It is a kind of user equipment 160 provided in an embodiment of the present invention referring to Figure 17, the method to perform the authorized appropriation shown in embodiment seven, the user equipment 160 includes：

Receiver 1701, the authorization signaling for receiving base station transmission, the authorization signaling includes：First service mandate, process number and activation indicate mapping relations；

Processor 1702, for indicating that mapping relations determine the process of activation according to the process number and activation；The corresponding authorization of service of the process of the activation is set to the first service mandate.

Optionally, the process number indicates that mapping relations include with activation：The process number indicates that mapping relations are represented with bitmap with activation.

User equipment provided in an embodiment of the present invention, by receiving the authorization signaling for indicating mapping relations with activation comprising first service mandate, process number that base station is sent, indicates that mapping relations determine the process of activation according to process number and activation；And the corresponding authorization of service of the process of the activation of determination is set to first service mandate.The user equipment is supported to activate or deactivate one or more process simultaneously, reduces authorization signaling, reduce signaling consumption.Solve in the prior art, because every authorization signaling can only activate or deactivate a process or whole processes, when simultaneously needs activate at least two processes（Not all process）When, it is necessary to a plurality of authorization signaling, the problem of causing larger signaling consumption. It is a kind of base station 180 provided in an embodiment of the present invention referring to Figure 18, the method to perform the authorized appropriation shown in embodiment eight, the base station 1 80 includes：

Determining unit 1801, for determining authorization signaling, the authorization signaling includes：First service mandate, process number and activation indicate mapping relations；

Transmitting element 1 802, for sending the authorization signaling that the determining unit 1801 is transmitted to user equipment；To cause the user equipment to indicate that mapping relations determine the process of activation according to the process number and activation, and the corresponding authorization of service of the process of the activation is set to the first service mandate.

Optionally, the process number indicates that mapping relations include with activation：The process number indicates that mapping relations are represented with bitmap with activation.

Base station provided in an embodiment of the present invention, the authorization signaling that first service mandate, process number and activation indicate mapping relations is included by determining and being sent to user equipment, so that user equipment indicates that mapping relations determine the process of activation according to process number and activation, and the corresponding authorization of service of the process of the activation of determination is set to first service mandate.Support to activate or deactivate one or more process simultaneously, reduce authorization signaling, reduce signaling consumption in the base station.Solve in the prior art, because every authorization signaling can only activate or deactivate a process or whole processes, when simultaneously needs activate at least two processes（Not all process）When, it is necessary to a plurality of authorization signaling, the problem of causing larger signaling consumption.

It is a kind of base station 180 provided in an embodiment of the present invention referring to Figure 19, the method to perform the authorized appropriation shown in embodiment eight, the base station 1 80 includes：

Processor 1901, for determining authorization signaling, the authorization signaling includes：First service mandate, process number and activation indicate mapping relations；

Transmitter 1902, for sending the authorization signaling to user equipment；To cause the user equipment to indicate that mapping relations determine the process of activation according to the process number and activation, and the corresponding authorization of service of the process of the activation is set to the first service mandate.

Optionally, the process number indicates that mapping relations include with activation：The process number indicates that mapping relations are represented with bitmap with activation. Base station provided in an embodiment of the present invention, the authorization signaling that first service mandate, process number and activation indicate mapping relations is included by determining and being sent to user equipment, so that user equipment indicates that mapping relations determine the process of activation according to process number and activation, and the corresponding authorization of service of the process of the activation of determination is set to first service mandate.Support to activate or deactivate one or more process simultaneously, reduce authorization signaling, reduce signaling consumption in the base station.Solve in the prior art, because every authorization signaling can only activate or deactivate a process or whole processes, when simultaneously needs activate at least two processes（Not all process）When, it is necessary to a plurality of authorization signaling, the problem of causing larger signaling consumption.On the one hand, the embodiment of the present invention also provides a kind of system of authorized appropriation, including：Any user equipment 120, the user equipment 1 60 of above-described embodiment offer, and/or any base station 140, the base station 180 that above-described embodiment is provided.The system of authorized appropriation provided in an embodiment of the present invention reduces authorization signaling, reduces signaling consumption.It is apparent to those skilled in the art that, for convenience and simplicity of description, the specific work process of the system, apparatus, and unit of foregoing description may be referred to the corresponding process in preceding method embodiment, will not be repeated here.

In several embodiments provided herein, it should be understood that disclosed system, apparatus and method can be realized by another way.For example, device embodiment described above is only schematical, for example, the division of the unit, it is only a kind of division of logic function, there can be other dividing mode when actually realizing, such as multiple units or component can combine or be desirably integrated into another system, or some features can be ignored, or do not perform.Another, it, by some interfaces, the INDIRECT COUPLING or communication connection of device or unit, can be electrical, machinery or other forms that shown or discussed coupling or direct-coupling or communication connection each other, which can be,.

The unit illustrated as separating component can be or may not be physically separate, and the part shown as unit can be or may not be physical location, i.e., A place can be located at, or can also be distributed on multiple NEs.Some or all of unit therein can be selected to realize the purpose of this embodiment scheme according to the actual needs.

In addition, each functional unit in each of the invention embodiment can be integrated in a processing unit or the independent physics of unit includes, can also two or more units it is integrated in a unit.Above-mentioned integrated unit can both be realized in the form of hardware, it would however also be possible to employ hardware adds the form of SFU software functional unit to realize.

The above-mentioned integrated unit realized in the form of SFU software functional unit, can be stored in a computer read/write memory medium.Above-mentioned SFU software functional unit is stored in a storage medium, including some instructions are to cause a computer equipment（Can be personal computer, server, or network equipment etc.）Perform the part steps of each embodiment methods described of the invention.And foregoing storage medium includes：U disks, mobile hard disk, read-only storage (Read-Only Memory, abbreviation ROM), random access memory (Random Access Memory, abbreviation RAM), magnetic disc or CD etc. are various can be with the medium of store program codes.

Finally it should be noted that：The above embodiments are merely illustrative of the technical solutions of the present invention, rather than its limitations；Although the present invention is described in detail with reference to the foregoing embodiments, it will be understood by those within the art that：It can still modify to the technical scheme described in foregoing embodiments, or carry out equivalent substitution to which part technical characteristic；And these modifications or replacement, the essence of appropriate technical solution is departed from the spirit and scope of various embodiments of the present invention technical scheme.

Claims (1)

1. Claims

   1st, a kind of method of authorized appropriation, it is characterised in that applied to uplink multi-carrier mechanism, the uplink multi-carrier mechanism includes at least one secondary carrier, and methods described includes：

   At least one process in the secondary carrier be active and/or the secondary carrier on authorization of service be more than zero authorize in the case of, if the power headroom UPH of user equipment is not more than the data volume TEBS that the first threshold values and/or the user equipment Slow deposit and is not more than the second threshold values, the user equipment sends the configured information for deactivating the configured information of the secondary carrier process or the authorization of service in the secondary carrier being set to zero mandate to base station；

   The user equipment deactivates the process in the secondary carrier or the authorization of service in the secondary carrier is set into zero mandate.

   2nd, according to the method described in claim 1, it is characterised in that the user equipment sends the configured information for deactivating the configured information of the secondary carrier process or the authorization of service in the secondary carrier being set to zero mandate to base station, including：

   The user equipment sends scheduling message SI, the SI to the base station and includes the configured information for deactivating the process in the secondary carrier or the configured information that the authorization of service in the secondary carrier is set to zero mandate；

   Or, the user equipment sends up enhancing protocol Data Unit MAC-I PDU to the base station, and the MAC-I PDU include the configured information for deactivating the process in the secondary carrier or the configured information that the authorization of service in described secondary carrier is set to zero mandate.

   3rd, method according to claim 2, it is characterised in that before in the process of the deactivation in the secondary carrier or the authorization of service in the secondary carrier is set into zero mandate, methods described also includes：

   In the case where the user equipment sends the SI to the base station, the positive confirmation ACK for receiving the SI that the base station is sent is indicated；

   Or, in the case where the user equipment sends the MAC-I PDU to the base station, the positive confirmation ACK for receiving the MAC-I PDU that the base station is sent is indicated.

   4th, according to the method in claim 2 or 3, it is characterised in that The SI includes：The TEBS, high priority logic channel Slow deposit state HLBS, high priority Logic Channel Identifier HLID;In the case where the user equipment sends the SI to the base station, the configured information that the instruction for deactivating the secondary carrier process or the authorization of service by the secondary carrier are set to zero mandate includes：

   The TEBS is set to null value, the HLBS is set to nonzero value；Or, it is nonzero value by the TEBS, the HLBS is set to null value；Or, the TEBS is set to null value, the HLID is set to nonzero value；Or, the HLID is set to 111 1.

   5th, according to the method in claim 2 or 3, it is characterised in that

   The MAC-I PDU include：Length Indication, Logic Channel Identifier LCH-ID;In the case where the user equipment sends the MAC-I PDU to the base station, the configured information that the instruction for deactivating the secondary carrier process or the authorization of service by the secondary carrier are set to zero mandate includes：

   The LCH-ID is set to 11 11;Or, the LCH-ID is set to the prewired value of a disabling；Or, the Length Indication is set to null value.

   6th, a kind of method of authorized appropriation, it is characterised in that applied to uplink multi-carrier mechanism, the uplink multi-carrier mechanism includes at least one secondary carrier, and methods described includes：

   Base station receives the configured information for the deactivation secondary carrier process that user equipment is sent or the authorization of service in the secondary carrier is set to the configured information of zero mandate；

   The configured information of zero mandate is set to according to the configured information or the authorization of service by the secondary carrier for deactivating the secondary carrier process, process of the user equipment in the secondary carrier is deactivated or the authorization of service in the secondary carrier is set to zero mandate.

   7th, method according to claim 6, it is characterised in that the base station receives the configured information for the deactivation secondary carrier process that user equipment is sent or by the service in the secondary carrier The configured information for being set to zero mandate is authorized, including：

   The scheduling message SI, the SI that the base station receives the user equipment transmission include the configured information for deactivating the process in the secondary carrier or the configured information that the authorization of service in the secondary carrier is set to zero mandate；

   Or, the base station receives the up enhancing protocol Data Unit that the user equipment is sent

   MAC-I PDU, the MAC-I PDU include the configured information for deactivating the process in the secondary carrier or the configured information that the authorization of service in described secondary carrier is set to zero mandate.

   8th, method according to claim 7, it is characterized in that, the instruction for the deactivation secondary carrier process that user equipment is sent is received in the base station or is set to the authorization of service in the secondary carrier after the configured information of zero mandate, methods described also includes：

   In the case of the scheduling message SI that the user equipment is sent is received in the base station, the positive confirmation ACK for sending the SI to the user equipment is indicated；

   Or, in the case of the MAC-I PDU that the user equipment is sent are received in the base station, the positive confirmation ACK for sending the MAC-I PDU to the user equipment is indicated.

   9th, the method according to claim 7 or 8, it is characterised in that

   The SI includes：Data volume TEBS, the high priority logic channel Slow that the user equipment Slow is deposited deposit state HLBS, high priority Logic Channel Identifier HLID;In the case of the SI that the user equipment is sent is received in the base station, the configured information that the instruction for deactivating the secondary carrier process or the authorization of service by the secondary carrier are set to zero mandate includes：The TEBS is null value, and the HLBS is nonzero value；Or, the TEBS is nonzero value, and the HLBS is null value；Or, the TEBS is null value, and the HLID is nonzero value；Or, the HLID is 1111.

   10th, the method according to claim 7 or 8, it is characterised in that

   The MAC-I PDU include：Length Indication, Logic Channel Identifier LCH-ID;In the case of the MAC-I PDU that the user equipment is sent are received in base station, the deactivation is described auxiliary The configured information that the configured information of carrier wave process or the authorization of service by the secondary carrier are set to zero mandate includes：The LCH-ID is 11 11;Or, the LCH-ID is the prewired value of a disabling；Or, the Length Indication is null value.

   11st, a kind of method of authorized appropriation, it is characterised in that including：

   User equipment receives the authorization signaling that base station is sent, and the authorization signaling includes authorizing the period；Process according to corresponding to the authorization signaling activates the mandate period.

   12nd, method according to claim 11, it is characterised in that after the activation process authorized corresponding to the period, methods described also includes：

   When the mandate period cut-off, deactivate the process of the user equipment and/or the authorization of service of the user equipment is set to zero mandate.

   13rd, the method according to claim 11 or 12, it is characterised in that the mandate period includes very first time domain and the second time-domain.

   14th, method according to claim 13, it is characterised in that

   The very first time domain is the number of the Transmission Time Interval TTI in a round-trip delay RTT, and second time-domain is the number of the RTT；

   The activation process authorized corresponding to the period, including：

   In each RTT of second time-domain, the process corresponding to the very first time domain is activated.

   15th, a kind of method of authorized appropriation, it is characterised in that including：

   Base station determines authorization signaling, and the authorization signaling includes authorizing the period；

   The authorization signaling is sent to user equipment, to cause process of the user equipment according to corresponding to authorization signaling activation in the mandate period.

   16th, method according to claim 15, it is characterised in that the mandate period includes the-time-domain and the second time-domain. 17th, method according to claim 16, it is characterised in that

   The very first time domain is the number of the Transmission Time Interval TTI in a round-trip delay RTT, and second time-domain is the number of the RTT.

   18th, a kind of method of authorized appropriation, it is characterised in that including：

   User equipment receives the authorization signaling that base station is sent, and the authorization signaling includes：First service mandate, process number and activation indicate mapping relations；

   Indicate that mapping relations determine the process of activation according to the process number and activation；

   The corresponding authorization of service of the process of the activation is set to the first service mandate.

   19th, method according to claim 18, it is characterised in that the process number indicates that mapping relations include with activation：The process number indicates that mapping relations are represented with bitmap with activation.

   20th, a kind of method of authorized appropriation, it is characterised in that including：

   Base station determines authorization signaling, and the authorization signaling includes：First service mandate, process number and activation indicate mapping relations；

   The authorization signaling is sent to user equipment；To cause the user equipment to indicate that mapping relations determine the process of activation according to the process number and activation, and the corresponding authorization of service of the process of the activation is set to the first service mandate.

   21st, method according to claim 20, it is characterised in that the process number indicates that mapping relations include with activation：The process number indicates that mapping relations are represented with bitmap with activation.

   22nd, a kind of user equipment, it is characterised in that applied to uplink multi-carrier mechanism, the uplink multi-carrier mechanism includes at least one secondary carrier, and the user equipment includes：

   Transmitting element, for at least one process in the secondary carrier be active and/or the secondary carrier on authorization of service be more than zero authorize in the case of, if the power headroom UPH of the user equipment is not more than the data volume TEBS that the first threshold values and/or the user equipment Slow deposit and is not more than the second threshold values, the configured information for deactivating the configured information of the secondary carrier process or the authorization of service in the secondary carrier being set to zero mandate is sent to base station；

   Processing unit, for deactivating process in the secondary carrier or the authorization of service in the secondary carrier being set into zero mandate. 23rd, user equipment according to claim 22, it is characterised in that

   The transmitting element is specifically for sending scheduling message SI, the SI to the base station and including the configured information for deactivating the process in the secondary carrier or the configured information that the authorization of service in the secondary carrier is set to zero mandate；

   Or, up enhancing protocol Data Unit MAC-I PDU are sent to the base station, the MAC-I PDU include the configured information for deactivating the process in the secondary carrier or the configured information that the authorization of service in described secondary carrier is set to zero mandate.

   24th, user equipment according to claim 23, it is characterised in that the user equipment also includes：

   Receiving unit, in the case of sending the SI to the base station in the transmitting element, the positive confirmation ACK for receiving the SI that the base station is sent is indicated；

   Or, in the case where the transmitting element sends the MAC-I PDU to the base station, the positive confirmation ACK for receiving the MAC-I PDU that the base station is sent is indicated.

   25th, the user equipment according to claim 23 or 24, it is characterised in that the SI includes：The TEBS, high priority logic channel Slow deposit state HLBS, high priority Logic Channel Identifier HLID;In the case where the transmitting element sends the SI to the base station, the configured information that the instruction for deactivating the secondary carrier process or the authorization of service by the secondary carrier are set to zero mandate includes：

   The TEBS is set to null value, the HLBS is set to nonzero value；

   Or, it is nonzero value by the TEBS, the HLBS is set to null value；

   Or, the TEBS is set to null value, the HLID is set to nonzero value；Or, the HLID is set to 11 11.

   26th, the user equipment according to claim 23 or 24, it is characterised in that the MAC-I PDU include：Length Indication, Logic Channel Identifier LCH-ID;In the case where the transmitting element sends the MAC-I PDU to the base station, the configured information that the instruction for deactivating the secondary carrier process or the authorization of service by the secondary carrier are set to zero mandate includes： The LCH-ID is set to 1 111;

   Or, the LCH-ID is set to the prewired value of a disabling；

   Or, the Length Indication is set to null value.

   27th, a kind of base station, it is characterised in that applied to uplink multi-carrier mechanism, the uplink multi-carrier mechanism includes at least one secondary carrier, and the base station includes：

   Receiving unit, for receiving the configured information for deactivating the secondary carrier process of user equipment transmission or the authorization of service in the secondary carrier being set to the configured information of zero mandate；

   Processing unit, the configured information or the authorization of service by the secondary carrier of the deactivation secondary carrier process for being transmitted according to the receiving unit are set to the configured information of zero mandate, deactivate process of the user equipment in the secondary carrier or the authorization of service in the secondary carrier is set into zero mandate.

   28th, base station according to claim 27, it is characterised in that

   The receiving unit is specifically for the scheduling message SI, the SI for receiving the user equipment transmission include the configured information for deactivating the process in the secondary carrier or the configured information that the authorization of service in the secondary carrier is set to zero mandate；

   Or, the up enhancing protocol Data Unit MAC-I PDU that the user equipment is sent are received, the MAC-I PDU include the configured information for deactivating the process in the secondary carrier or the configured information that the authorization of service in described secondary carrier is set to zero mandate.

   29th, base station according to claim 28, it is characterised in that the base station also includes：Transmitting element, for receiving the scheduling message that the user equipment is sent in the receiving unit

   In the case of SI, the positive confirmation ACK for sending the SI to the user equipment is indicated；

   Or, in the case where the receiving unit receives the MAC-I PDU that the user equipment is sent, the positive confirmation ACK for sending the MAC-I PDU to the user equipment is indicated.

   30th, the base station according to claim 28 or 29, it is characterised in that

   The SI includes：Data volume TEBS, the high priority logic channel Slow that the user equipment Slow is deposited deposit state HLBS, high priority Logic Channel Identifier HLID;In the case where the receiving unit receives the SI that the user equipment is sent, the finger for deactivating the secondary carrier process Show or the authorization of service by the secondary carrier is set to the configured information of zero mandate and included：The TEBS is null value, and the HLBS is nonzero value；

   Or, the TEBS is nonzero value, and the HLBS is null value；

   Or, the TEBS is null value, and the HLID is nonzero value；

   Or, the HLID is 111 1.

   31st, the base station according to claim 28 or 29, it is characterised in that

   The MAC-I PDU include：Length Indication, Logic Channel Identifier LCH-ID;In the case where the receiving unit receives the MAC-I PDU that the user equipment is sent, the configured information that the configured information or the authorization of service by the secondary carrier for deactivating the secondary carrier process is set to zero mandate includes：

   The LCH-ID is 1111;

   Or, the LCH-ID is the prewired value of a disabling；

   Or, the Length Indication is null value.

   32nd, a kind of user equipment, it is characterised in that including：

   Receiving unit, the authorization signaling for receiving base station transmission, the authorization signaling includes authorizing the period；

   Processing unit, for the authorization signaling activation process authorized corresponding to the period transmitted according to the receiving unit.

   33rd, user equipment according to claim 32, it is characterised in that

   The processing unit is additionally operable to, and when the mandate period cut-off, deactivates the process of the user equipment and/or the authorization of service of the user equipment is set into zero mandate.

   34th, the user equipment according to claim 32 or 33, it is characterised in that the mandate period includes very first time domain and the second time-domain.

   35th, user equipment according to claim 34, it is characterised in that

   The very first time domain is the number of the Transmission Time Interval TTI in a round-trip delay RTT, and second time-domain is the number of the RTT；

   The processing unit is specifically in each RTT of second time-domain, activating Process corresponding to the very first time domain.

   36th, a kind of base station, it is characterised in that including：

   Determining unit, for determining authorization signaling, the authorization signaling includes authorizing the period；Transmitting element, the authorization signaling for sending the determining unit transmission to user equipment, to cause process of the user equipment according to corresponding to authorization signaling activation in the mandate period.

   37th, base station according to claim 36, it is characterised in that the mandate period includes the-time-domain and the second time-domain.

   38th, the base station according to claim 37, it is characterised in that

   The very first time domain is the number of the Transmission Time Interval TTI in a round-trip delay RTT, and second time-domain is the number of the RTT.

   39th, a kind of user equipment, it is characterised in that including：

   Receiving unit, the authorization signaling for receiving base station transmission, the authorization signaling includes：First service mandate, process number and activation indicate mapping relations；

   Processing unit, the process number and activation for being transmitted according to the receiving unit indicate that mapping relations determine the process of activation；The corresponding authorization of service of the process of the activation is set to the first service mandate of the receiving unit transmission.

   40th, the user equipment according to claim 39, it is characterised in that the process number indicates that mapping relations include with activation：The process number indicates that mapping relations are represented with bitmap with activation.

   41st, a kind of base station, it is characterised in that including：

   Determining unit, for determining authorization signaling, the authorization signaling includes：First service mandate, process number and activation indicate mapping relations；

   Transmitting element, the authorization signaling for sending the determining unit transmission to user equipment；To cause the user equipment to indicate that mapping relations determine the process of activation according to the process number and activation, and the corresponding authorization of service of the process of the activation is set to the first service mandate.

   42nd, base station according to claim 41, it is characterised in that the process number indicates that mapping relations include with activation：The process number indicates that mapping relations are represented with bitmap with activation. 43rd, a kind of user equipment, it is characterised in that applied to uplink multi-carrier mechanism, the uplink multi-carrier mechanism includes at least one secondary carrier, and the user equipment includes：

   Transmitter, for at least one process in the secondary carrier be active and/or the secondary carrier on authorization of service be more than zero authorize in the case of, if the power headroom UPH of the user equipment is not more than the data volume TEB S that the first threshold values and/or the user equipment Slow deposit and is not more than the second threshold values, the configured information for deactivating the configured information of the secondary carrier process or the authorization of service in the secondary carrier being set to zero mandate is sent to base station；

   Processor, for deactivating process in the secondary carrier or the authorization of service in the secondary carrier being set into zero mandate.

   44th, user equipment according to claim 43, it is characterised in that the transmitter specifically for,

   Scheduling message SI, the SI, which are sent, to the base station includes the configured information for deactivating the process in the secondary carrier or the configured information that the authorization of service in the secondary carrier is set to zero mandate；

   Or, up enhancing protocol Data Unit MAC-I PDU are sent to the base station, the MAC-I PDU include the configured information for deactivating the process in the secondary carrier or the configured information that the authorization of service in described secondary carrier is set to zero mandate.

   45th, user equipment according to claim 44, it is characterised in that the user equipment also includes：

   Receiver, in the case of sending the SI to the base station in transmitter, the positive confirmation ACK for receiving the SI that the base station is sent is indicated；

   Or, in the case where the transmitter sends the MAC-I PDU to the base station, the positive confirmation ACK for receiving the MAC-I PDU that the base station is sent is indicated.

   46th, the user equipment according to claim 44 or 45, it is characterised in that the SI includes：The TEBS, high priority logic channel Slow deposit state HLBS, high priority Logic Channel Identifier HLID;In the case where the transmitter sends the SI to the base station, the instruction for deactivating the secondary carrier process or the clothes by the secondary carrier Business authorizes the configured information for being set to zero mandate to include：

   The TEBS is set to null value, the HLBS is set to nonzero value；

   Or, it is nonzero value by the TEBS, the HLBS is set to null value；

   Or, the TEBS is set to null value, the HLID is set to nonzero value；Or, the HLID is set to 11 11.

   47th, the user equipment according to claim 44 or 45, it is characterised in that the MAC-I PDU include：Length Indication, Logic Channel Identifier LCH-ID;In the case where the transmitter sends the MAC-I PDU to the base station, the configured information that the instruction for deactivating the secondary carrier process or the authorization of service by the secondary carrier are set to zero mandate includes：

   The LCH-ID is set to 1 111;

   Or, the LCH-ID is set to the prewired value of a disabling；

   Or, the Length Indication is set to null value.

   48th, a kind of base station, it is characterised in that applied to uplink multi-carrier mechanism, the uplink multi-carrier mechanism includes at least one secondary carrier, and the base station includes：

   Receiver, for receiving the configured information for deactivating the secondary carrier process of user equipment transmission or the authorization of service in the secondary carrier being set to the configured information of zero mandate；

   Processor, configured information for being set to zero mandate according to the configured information or the authorization of service by the secondary carrier for deactivating the secondary carrier process, deactivates process of the user equipment in the secondary carrier or the authorization of service in the secondary carrier is set into zero mandate.

   49th, base station according to claim 48, it is characterised in that

   The receiver is specifically for the scheduling message SI, the SI for receiving the user equipment transmission include the configured information for deactivating the process in the secondary carrier or the configured information that the authorization of service in the secondary carrier is set to zero mandate；

   Or, the up enhancing protocol Data Unit MAC-I PDU that the reception user equipment is sent, the MAC-I PDU are comprising the configured information for deactivating the process in the secondary carrier or by described in Secondary carrier on authorization of service be set to the configured information of zero mandate.

   50th, base station according to claim 49, it is characterised in that the base station also includes：Transmitter, in the case of receiving the scheduling message SI that the user equipment is sent in the receiver, the positive confirmation ACK for sending the SI to the user equipment is indicated；

   Or, in the case where the receiver receives the MAC-I PDU that the user equipment is sent, the positive confirmation ACK for sending the MAC-I PDU to the user equipment is indicated.

   51st, the base station according to claim 49 or 50, it is characterised in that

   The SI includes：Data volume TEBS, the high priority logic channel Slow that the user equipment Slow is deposited deposit state HLBS, high priority Logic Channel Identifier HLID;In the case where the receiver receives the SI that the user equipment is sent, the configured information that the instruction for deactivating the secondary carrier process or the authorization of service by the secondary carrier are set to zero mandate includes：The TEBS is null value, and the HLBS is nonzero value；

   Or, the TEBS is nonzero value, and the HLBS is null value；

   Or, the TEBS is null value, and the HLID is nonzero value；

   Or, the HLID is 111 1.

   52nd, the base station according to claim 49 or 50, it is characterised in that

   The MAC-I PDU include：Length Indication, Logic Channel Identifier LCH-ID;In the case where the receiver receives the MAC-I PDU that the user equipment is sent, the configured information that the configured information or the authorization of service by the secondary carrier for deactivating the secondary carrier process is set to zero mandate includes：

   The LCH-ID is 1111;

   Or, the LCH-ID is the prewired value of a disabling；

   Or, the Length Indication is null value.

   53rd, a kind of user equipment, it is characterised in that including：

   Receiver, the authorization signaling for receiving base station transmission, the authorization signaling includes authorizing the period；

   Processor, for the process according to corresponding to the authorization signaling activation mandate period. 54th, user equipment according to claim 53, it is characterised in that

   The processor is additionally operable to, and when the mandate period cut-off, deactivates the process of the user equipment and/or the authorization of service of the user equipment is set into zero mandate.

   55th, the user equipment according to claim 53 or 54, it is characterised in that the mandate period includes very first time domain and the second time-domain.

   56th, user equipment according to claim 55, it is characterised in that

   The very first time domain is the number of the Transmission Time Interval TTI in a round-trip delay RTT, and second time-domain is the number of the RTT；

   The processor is specifically in each RTT of second time-domain, activating the process corresponding to the very first time domain.

   57th, a kind of base station, it is characterised in that including：

   Processor, for determining authorization signaling, the authorization signaling includes authorizing the period；Transmitter, for sending the authorization signaling to user equipment, to cause process of the user equipment according to corresponding to authorization signaling activation in the mandate period.

   58th, base station according to claim 57, it is characterised in that the mandate period includes the-time-domain and the second time-domain.

   59th, base station according to claim 58, it is characterised in that

   The very first time domain is the number of the Transmission Time Interval TTI in a round-trip delay RTT, and second time-domain is the number of the RTT.

   60th, a kind of user equipment, it is characterised in that including：

   Receiver, the authorization signaling for receiving base station transmission, the authorization signaling includes：First service mandate, process number and activation indicate mapping relations；

   Processor, for indicating that mapping relations determine the process of activation according to the process number and activation；The corresponding authorization of service of the process of the activation is set to the first service mandate.

   61st, user equipment according to claim 60, it is characterised in that the process number indicates that mapping relations include with activation：The process number indicates that mapping relations are represented with bitmap with activation.

   62nd, a kind of base station, it is characterised in that including： Processor, for determining authorization signaling, the authorization signaling includes：First service mandate, process number and activation indicate mapping relations；

   Transmitter, for sending the authorization signaling to user equipment；To cause the user equipment to indicate that mapping relations determine the process of activation according to the process number and activation, and the corresponding authorization of service of the process of the activation is set to the first service mandate.

   63rd, base station according to claim 62, it is characterised in that the process number indicates that mapping relations include with activation：The process number indicates that mapping relations are represented with bitmap with activation.

   64th, a kind of system of authorized appropriation, it is characterised in that including：

   User equipment as described in claim 22-26,32-35,39,40,43-47, any one of 53-56,60,61, and/or the base station as described in claim 27-3 1,36-38,41,42,48-52,57-59,62,63.