CN103391599A - Information sending method and device, state transition method of terminal and terminal - Google Patents

Abstract

The invention discloses an information sending method and device, a state transition method of a terminal and the terminal. The information sending method comprises the steps that a network side sends configuration parameters of a 1st DRX substate, configuration parameters of a 2nd DRX substate, timing time of a timer T321, timing time of a timer T3xx, and fallback to 1st DRX substrate allowed identification under a Cell_FACH state to the terminal. According to the information sending method and device, the state transition method of the terminal and the terminal, when downstream data service exists, UE can stay at the DRX substates for a longer time, and is prevented from returning to a Continuous Rx substate meaninglessly, and therefore the electric quantity of the UE is protected better.

Description

The state transfer method of a kind of method for sending information, device, terminal and terminal

Technical field

The present invention relates to the mobile communication technology field, relate in particular to state transfer method and the terminal of a kind of method for sending information, device, terminal.

Background technology

Along with being on the increase of telecommunications mobile operator contracted user's number and subscriber traffic, the input of its mobile network's infrastructure and scale also constantly enlarge, and wireless coverage range and thickness are all strengthening.Take most of Europe mobile operator as example, they have successively disposed 3 kinds based on different RAT (Radio Access Technology, wireless access technology) mobile network system is respectively: GSM (the evolved GERAN of being), UMTS (the evolved HSPA+ of being) and LTE (evolved is LTE+).These mobile network systems are comprised of three parts substantially: (user is used for and the equipment of mobile network communication terminal, hand-holdable, vehicle-mounted or fixing), wireless access network (directly carries out the network element device of radio communication by air interface and terminal, comprise radio-frequency antenna, be connected with radio network controller base station) be connected the network element device that connects wireless access network and backbone transport networks or other cable networks with wireless core network).

Specifically take UMTS mobile network system wireless access UTRA (Universal Terrestrial Radio Access) part as example, as shown in Figure 1, it is comprised of different physical interface between terminal (UE), base station (NodeB) and radio network controller (RNC) and 3 kinds of network elements.3GPP (3 ^rdGeneration Partnership, third generation partner program) standard criterion the communication protocol between terminal UE and UMTS wireless access network UTRAN, be used for being used on the signaling message content format of controlling and user's face the data packet format of transmitting user data and frame structure etc. such as air interface Uu is upper.RNC is the central controller of single UMTS wireless subsystem RNS, is responsible for switch, configuration and the centralized control of most of UMTS function.

In the access of the long-term evolving network high-speed packet based on the UMTS network (High Speed Packet Access, HSPA+) network, many new functions and characteristic are along with redaction from one generation to the next is added into wherein gradually.As, high-speed downstream receiver grouping access (High Speed Downlink Packet Access, HSDPA), high speed uplink sends link packet access (High Speed Uplink Packet Access, HSUPA), RRC status (RRC state radio resource control) administrative mechanism and the ability of many antennas multiple-input and multiple-output (MIMO) technology, multi carrier wave high-speed downlink grouping access (Multi Carrier-High speed downlink packet access, MC-HSDPA) and constantly enhancing.The intrasystem new functional characteristic of these HSPA+, the UE that makes that has can use wireless specific resource more efficiently at proprietary connected state (Cell_DCH), thereby terminal up-downgoing data transmission rate constantly obtains multiplication, improves; The UE that makes that has can use wireless public resource more efficiently at public connected state (Cell_FACH), thereby terminal up-downgoing data transmission rate and transmission delay also can obtain performance improvement.

A large amount of appearance along with intelligent UE and mobile Internet business application, the UE that is in for a long time public connected state Cell_FACH is more and more, its communication characteristics are: the up transmission of UE or the packet of descending reception substantially all present the burst feature, and data volume is little, not needing RNC is that it sets up proprietary Radio Resource passage, therefore, this class UE uses the more suitable economy of wireless public resource of RNC system broadcast message configuration by competition.For the consideration of saving the UE electric weight, version 8 starts to have introduced FACH DRX (Discontinuous Reception, discontinuous reception), i.e. the function of the discontinuous reception of public connected state HS-DSCH channel.This function operation mode is as shown in Figure 2:

Init state, UE is in continuous reception Continuous Rx state (not shown) in the Cell_FACH state, must monitor continuously the order of the scheduling oneself on HS-SCCH (High Speed-Scheduling Control Channel) control channel., if receive dispatching command, just receive the user data on corresponding HS-DSCH (High Speed-Data Shared Channel) data channel.Do not listen to the order (below be referred to as the inactive Inactive of UE) of scheduling oneself in continuous T 321 time windows when terminal, just automatically enter FACH DRX state, the feature of this state is: UE just needs to monitor the HS-SCCH control channel in the Rx Burst (received pulse period) of each discontinuous receiving cycle (DRX Cycle) time window, within the time except Rx Burst time window of discontinuous receiving cycle, do not need to monitor the HS-SCCH control channel.As shown in DRX Cycle2 in Fig. 2, UE has received the order of scheduling oneself at the Rx of DRX Cycle2 Burst time window, just automatically withdraw from the FACHDRX state, receive continuously and HS-DSCH data channel that the HS-SCCH control channel is corresponding on oneself data, when receiving, UE gets back to init state, continues assessment and when again enters the FACHDRX state.

Because DRX Cycle in the FACH DRX function of above-mentioned version 8 introducings is shorter, that standard is the longest at present is 320ms, and the time of inactive time assessment timer T321 that enters FACH DRX state from the continuous accepting state of FACH is long, and that standard is the shortest at present is 100ms.Therefore find the FACH DRX state that enters that UE can not be very frequent in existing network, even and UE enter into FACH DRX state because business is inactive, its power savings is not also very desirable.

Given this, the FACH DRX function of enhancement mode is introduced in version 11 plans.The FACH DRX operation principle of the FACHDRX function of version 11 and version 8 is similar, but comprise the discontinuous reception of the so-called first order (1st DRX) sub-state and the sub-state of the discontinuous reception in the second level (2nd DRX), wherein, the configuration parameter of 1st DRX state and the FACH DRX of version 8 are substantially similar, the configuration parameter of 2nd DRX state is than the optimization more of version 8, the length standard ground that is mainly reflected in DRX Cycle is longer, maximum can reach 5120ms, introduces simultaneously new inactive time assessment timer T3xx.Like this, UE has just had 3 sub-states in the Cell_FACH state: receive continuously (Continuous Rx) sub-state, 1st DRX state and 2nd DRX state.

As shown in Figure 3, the content of the standard of the transition trigger reason between Continuous Rx state and 1st DRX state and the version 8FACH DRX of foregoing description is identical, and the new sub-state 2ndDRX that introduces how with Continuous Rx state, between 1st DRX state, conversion migration mutually, do not stipulate at present.

Summary of the invention

The technical problem to be solved in the present invention is to provide state transfer method and the terminal of a kind of method for sending information, device, terminal, can make terminal realize migration between 1st DRX state, 2nd DRX state and Continuous Rx state.

For solving the problems of the technologies described above, a kind of method for sending information of the present invention comprises:

Network side is with the timing time of the timing time of the configuration parameter of the sub-state of the discontinuous reception in configuration parameter, the second level (2nd DRX) of the sub-state of the discontinuous reception of the first order (1st DRX) under public connection (Cell_FACH) state, timer T321, timer T3xx and return to 1st DRX state and allow sign to send to terminal.

Further, described network side is controlled proprietary downstream message with the timing time of the timing time of the configuration parameter of the configuration parameter of described 1st DRX state, 2nd DRX state, timer T321, timer T3xx and is returned to 1st DRX state by system broadcast message or Radio Resource and allows sign to send to terminal.

Further, a kind of state transfer method of terminal comprises:

When terminal is less than or equal to the timing time of timer T321 at the timing time of the timer T3xx that receives from network side, if under the sub-state of continuous reception (Continuous Rx) under public connection (Cell_FACH) state, the time that is in inactive (inactive) reaches the timing time of timer T3xx, enters the sub-state of the discontinuous reception in the second level (2nd DRX) under the Cell_FACH state.

Further, also comprise:

Described terminal is at the timing time of described timer T3xx during greater than the timing time of timer T321, if under Continuous Rx state, be in the timing time that the inactive time reaches timer T321, enter the sub-state of the discontinuous reception of the first order (1st DRX) under the Cell_FACH state.

Further, also comprise:

Described terminal after entering 1st DRX state,, if be in inactively in the Rx Burst (received pulse period) of one or more discontinuous receiving cycles (DRX Cycle), enters 2nd DRX state.

Further, also comprise:

Described terminal after entering 2nd DRX state,, if at the received pulse of discontinuous receiving cycle, in the period, have user uplink data to send, enters Continuous Rx state;

, if receiving downlink data in the period and from the sub-state of the discontinuous reception of the first order that returns that network side receives, allow the value of (Fallback to 1st DRX allowed) sign at the received pulse of discontinuous receiving cycle is false (False), enter Continuous Rx state;

, if receiving the value of downlink data and Fallback to1st DRX allowed sign in the period at the received pulse of discontinuous receiving cycle is true (True), enter the sub-state of the discontinuous reception of the first order.

Further, also comprise:

Described terminal after entering 1st DRX state,, if at the received pulse of one or more discontinuous receiving cycles, receive downlink data in the period or have user uplink data to send, enters Continuous Rx state.

Further, a kind of information transmitting apparatus comprises: dispensing unit and transmitting element, wherein:

Described dispensing unit, be used for configuration parameter, the timer T321 of the sub-state of the discontinuous reception in configuration parameter, the second level (2nd DRX) of the sub-state of the discontinuous reception of the first order (1st DRX) under public connection (Cell_FACH) state that configures timing time, timer T3xx timing time and return to 1st DRX state and allow sign;

Described transmitting element, be used for the timing time of the timing time of the configuration parameter of the configuration parameter of described 1st DRX state, 2nd DRX state, timer T321, timer T3xx and return to the sub-state of 1stDRX allowing sign to send to terminal.

Further, a kind of terminal comprises: Transmit-Receive Unit and state transition unit, wherein:

Described Transmit-Receive Unit, be used for configuration parameter, the timer T321 of the sub-state of the discontinuous reception in configuration parameter, the second level (2nd DRX) of the sub-state of the discontinuous reception of the first order (1st DRX) under public connection (Cell_FACH) state that receives timing time, timer T3xx timing time and return to 1st DRX state and allow sign;

Described state transition unit, be used for when the timing time of described timer T3xx is less than or equal to the timing time of timer T321, if under the sub-state of the continuous reception under the Cell_FACH state (Continuous Rx), the time that is in inactive (inactive) reaches the timing time of timer T3xx, enters 2nd DRX state.

Further, described state transition unit, also be used at the timing time of described timer T3xx during greater than the timing time of timer T321, if under Continuous Rx state, be in the timing time that the inactive time reaches timer T321, enter 1st DRX state.

Further, described state transition unit, also be used for after entering 1st DRX state,, if be in inactively, enter 2nd DRX state in the Rx Burst (received pulse period) of one or more discontinuous receiving cycles (DRX Cycle).

Further, described state transition unit, also be used for after entering 2nd DRX state,, if at the received pulse of discontinuous receiving cycle, in the period, have user uplink data to send, enters Continuous Rx state; To allow the value of (Fallback to 1st DRX allowed) sign be false (False) if at the received pulse of discontinuous receiving cycle, receive downlink data in the period and return to the sub-state of the discontinuous reception of the first order, enters Continuous Rx state; , if receiving the value of downlink data and Fallback to 1st DRX allowed sign in the period at the received pulse of discontinuous receiving cycle is true (True), enter 1st DRX state.

In sum, when the present invention has the business of downlink data at UE, can the longer time the DRX state that rests on, avoid the meaningless Continuous Rx state that returns to, the electric weight of UE will be protected better like this.

Description of drawings

Fig. 1 is the Organization Chart of UMTS wireless access network of the prior art;

Fig. 2 is the schematic diagram of FACH DRX working method of the prior art;

Fig. 3 is the schematic diagram of 3 the sub-states of Cell_FACH of UE in version 11 of the prior art;

Fig. 4 is the schematic diagram of 3 sub-state transitions of Cell_FACH of the UE of present embodiment;

Fig. 5 is the schematic diagram of the embodiment 1 of present embodiment;

Fig. 6 is the schematic diagram of the embodiment 2 of present embodiment;

Fig. 7 is the schematic diagram of the embodiment 3 of present embodiment;

Fig. 8 is the Organization Chart of the information transmitting apparatus of present embodiment;

Fig. 9 is the Organization Chart of the terminal of present embodiment.

Embodiment

network side is controlled the 1st DRX state of (RRC) proprietary downstream message except UE in transmission and version 11 by system broadcast message or Radio Resource, outside the timing time of the configuration parameter such as the DRX Cycle that 2nd DRX state is relevant and Rx Burst length and timer T321, also to send timing time and new control cell Fallback to 1st DRX allowed (the returning to 1st DRX state allows) sign of the inactive assessment timer T3xx of new UE in present embodiment, the value of Fallback to 1stDRX allowed sign is TRUE (very) or FALSE (vacation).

as shown in Figure 4, in present embodiment, if the timing time of T3xx is less than or equal to the timing time of the T321 of version 8, UE is under Continuous Rx state, the time that is in inactive (inactive) is while reaching the timing time of T3xx, enter into 2nd DRX state, meanwhile, base station is according to the working method of version 8FACH DRX standard, be 2nd DRX state at base station side synchronous recording UE, thereby can be according to the state of UE, know in the time of the Rx of UE Burst and send HS-SCCH control command and corresponding HS-DSCH user data.

If the T3xx value is greater than T321, UE is under Continuous Rx state, the time that is in inactive is while reaching the timing time of T321, enter into 1st DRX state, meanwhile, base station is according to the working method of version 8FACH DRX standard, at the state of base station side synchronous recording UE, is the sub-state of 1stDRX, thereby can, according to the state of UE, know in the Rx of the UE Burst time and send HS-SCCH control command and corresponding HS-DSCH user data.Alternatively, UE can ignore T3xx.

If do not receive any downlink data in the Rx Burst of UE in one or more discontinuous receiving cycle of 1st DRX state, and the upstream data that will not send (being in inactive), UE will further enter 2nd DRX state so.

During at 2nd DRX state,, if in the Rx of DRX Cycle Burst, there is upstream data to need to send as UE, enter Continuous Rx state; , if the value of Fallback to 1st DRX allowed sign is FALSE, and receives downlink data in the Rx of DRX Cycle Burst, will return to immediately Continuous Rx state; If the value of Fallback to 1st DRX allowed sign is TRUE, and, receive downlink data in the Rx of DRX Cycle Burst,, will return to 1st DRX state.

, if UE receives downlink data in the Rx Burst of one or more DRX Cycle of 1st DRX state or have user uplink data to send, return to immediately Continuous Rx state; If UE does not receive downlink data in the Rx Burst of one or more DRX Cycle of 1st DRX state, and do not have user uplink data to send, UE will enter 2nd DRX state again so.

The technical solution of the present invention is further elaborated below in conjunction with the drawings and specific embodiments.

Embodiment 1:

System broadcast message sends following 1st DRX state and the relevant configuration parameter of 2nd DRX state at the UE Serving cell.

T321＝100ms，HS-DSCH 1st DRX Cycle FACH＝320ms，HS-DSCH 1stRx Burst FACH＝20ms；

T3xx＝200ms，HS-DSCH 2nd DRX Cycle FACH＝640ms，HS-DSCH 2ndRx Burst FACH＝40ms，

Fallback to 1st DRX allowed＝FALSE。

UE carries out the web page browsing business in the Cell_FACH state for a long time, and following content please refer to Fig. 5.

Step 101:UE opens certain webpage, receives a series of web datas by the carrying of HS-DSCH data channel, and after page download was complete, UE did not receive any data in T321=100ms, so enter 1st DRX state;

Step 102:UE does not receive again any data in the 1st Rx Burst=20ms of the 1st DRX of 1st DRX state Cycle, so UE further enters 2nd DRX state;

Step 103:UE receives again new web data in the 2nd Rx of 2nd DRX state Burst=40ms, value FALSE due to Fallback to 1st DRX allowed, so UE directly returns to Continuous Rx state, at this moment, UE has got back to the reset condition of step 101.

Embodiment 2:

System broadcast message sends the following 1st DRX configuration parameter relevant with 2nd DRX at the UE Serving cell.

T321＝200ms，HS-DSCH 1st DRX cycle FACH＝320ms，HS-DSCH 1stRx Burst FACH＝40ms；

T3xx＝100ms，HS-DSCH 2nd DRX cycle FACH＝640ms，HS-DSCH 2ndRx Burst FACH＝20ms；

Fallback to 1st DRX allowed＝TRUE。

UE carries out the QQ chat service in the Cell_FACH state for a long time, and following content please refer to Fig. 6.

Step 201:UE prepares to receive one group of data of QQ chat correspondent, receives a series of data by the carrying of HS-DSCH data channel, and after receiving, UE does not receive any data in T3xx=100ms, so enter 2nd DRX state;

Step 202:UE has received new QQ data in the 2nd Rx of 2nd DRX state Burst=20ms, due to Fallback to 1st DRX allowed=TRUE, so UE is introduced into 1st DRX state;

The transmission of part QQ data in UE is in the Rx Burst=20ms of 2nd DRX state, is completed in base station, and after UE enters 1st DRX state, within the Rx Burst time of the DRX of 1st DRX Cycle, then to UE transmission QQ data.

After step 203:UE enters 1st DRX state, at 1st Rx Burst, receive remaining QQ data,, so UE directly returns to Continuous Rx state, attempt residue QQ data are all received.At this moment, UE has got back to the reset condition of step 201.

Embodiment 3:

System broadcast message sends the following 1st DRX configuration parameter relevant with 2nd DRX at the UE Serving cell.

T321＝200ms，HS-DSCH 1st DRX cycle FACH＝320ms，HS-DSCH 1stRx Burst FACH＝20ms；

T3xx＝200ms，HS-DSCH 2nd DRX cycle FACH ＝640ms，HS-DSCH 2ndRx Burst FACH＝40ms；

Fallback to 1st DRX allowed＝TRUE。

UE carries out the virtual private net vpn service in the Cell_FACH state for a long time, and following content please refer to Fig. 7.

Step 301:UE prepares to receive vpn service and sets up one group of data of process, receives a series of data by the carrying of HS-DSCH data channel, and after receiving, UE does not receive any data in T3xx=200ms, so enter 2nd DRX state;

Step 302:UE has received new VPN link maintenance data in the 2nd Rx of 2nd DRX state Burst=20ms, due to Fallback to 1st DRX allowed=TRUE, so UE is introduced into 1st DRX state;

The transmission of whole VPN link maintenance data in 2nd Rx Burst=20ms, has been completed in base station.

After step 303:UE enters 1st DRX state, at 1st Rx Burst, do not receive any new data, so UE moves to 2nd DRX state.

As shown in Figure 8, present embodiment also provides a kind of information transmitting apparatus, comprising: dispensing unit and transmitting element, wherein:

Dispensing unit, be used for configuration parameter, the timer T321 of configuration parameter, the sub-state of 2ndDRX of the 1st DRX state under configuration Cell_FACH state timing time, timer T3xx timing time and return to 1st DRX state and allow sign;

Transmitting element, be used for the timing time of the timing time of the configuration parameter of the configuration parameter of 1st DRX state, 2nd DRX state, timer T321, timer T3xx and return to 1st DRX state allowing sign to send to terminal.

Transmitting element, specifically be used for controlling proprietary downstream message with the timing time of the timing time of the configuration parameter of the configuration parameter of described 1st DRX state, 2nd DRX state, timer T321, timer T3xx and returning to 1st DRX state by system broadcast message or Radio Resource allowing sign to send to terminal.

As shown in Figure 9, present embodiment also provides a kind of terminal, Transmit-Receive Unit and state transition unit, wherein:

Transmit-Receive Unit, be used for to receive configuration parameter, the timer T321 of configuration parameter, the sub-state of 2ndDRX of the 1st DRX state under the Cell_FACH state timing time, timer T3xx timing time and return to 1st DRX state and allow sign;

The state transition unit, be used for when the timing time of timer T3xx is less than or equal to the timing time of timer T321, if under the Continuous Rx state under the Cell_FACH state, the time that is in inactive reaches the timing time of timer T3xx, enters 2nd DRX state;

During greater than the timing time of timer T321,, if under Continuous Rx state, be in the timing time that the inactive time reaches timer T321, enter 1st DRX state at the timing time of timer T3xx;

After entering 1st DRX state,, if be in inactively, enter 2nd DRX state in the Rx of one or more DRX Cycle Burst;

After entering 2nd DRX state,, if in the Rx of DRX Cycle Burst, there is user uplink data to send, enter Continuous Rx state; , if receiving the value of downlink data and Fallback to 1st DRX allowed sign in the Rx of DRX Cycle Burst is False, enter Continuous Rx state; , if receiving the value of downlink data and Fallback to 1st DRX allowed sign at the Rx of DRX Cycle Burst is True, enter 1st DRX state.

obviously, those skilled in the art should be understood that, above-mentioned each module of the present invention or each step can realize with general calculation element, they can concentrate on single calculation element, perhaps be distributed on the network that a plurality of calculation elements form, alternatively, they can be realized with the executable program code of calculation element, thereby, they can be stored in storage device and be carried out by calculation element, perhaps they are made into respectively each integrated circuit modules, perhaps a plurality of modules in them or step being made into the single integrated circuit module realizes.Like this, the present invention is not restricted to any specific hardware and software combination.

The foregoing is only the preferred embodiments of the present invention, be not limited to the present invention, for a person skilled in the art, the present invention can have various modifications and variations.Within the spirit and principles in the present invention all, any modification of doing, be equal to replacement, improvement etc., within all should being included in protection scope of the present invention.

Claims (12)

1. method for sending information comprises:

Network side is with the timing time of the timing time of the configuration parameter of the sub-state of the discontinuous reception in configuration parameter, the second level (2nd DRX) of the sub-state of the discontinuous reception of the first order (1st DRX) under public connection (Cell_FACH) state, timer T321, timer T3xx and return to 1st DRX state and allow sign to send to terminal.

2. the method for claim 1 is characterized in that:

Described network side is controlled proprietary downstream message with the timing time of the timing time of the configuration parameter of the configuration parameter of the sub-state of described 1stDRX, 2nd DRX state, timer T321, timer T3xx and is returned to 1st DRX state by system broadcast message or Radio Resource and allows sign to send to terminal.

3. the state transfer method of a terminal comprises:

When terminal is less than or equal to the timing time of timer T321 at the timing time of the timer T3xx that receives from network side, if under the sub-state of continuous reception (Continuous Rx) under public connection (Cell_FACH) state, the time that is in inactive (inactive) reaches the timing time of timer T3xx, enters the sub-state of the discontinuous reception in the second level (2nd DRX) under the Cell_FACH state.

4. method as claimed in claim 3, is characterized in that, also comprises:

Described terminal is at the timing time of described timer T3xx during greater than the timing time of timer T321, if under Continuous Rx state, be in the timing time that the inactive time reaches timer T321, enter the sub-state of the discontinuous reception of the first order (1st DRX) under the Cell_FACH state.

5. method as claimed in claim 4, is characterized in that, also comprises:

Described terminal after entering 1st DRX state,, if be in inactively in the Rx Burst (received pulse period) of one or more discontinuous receiving cycles (DRX Cycle), enters 2nd DRX state.

6. method as described in claim 3 or 5, is characterized in that, also comprises:

Described terminal after entering 2nd DRX state,, if at the received pulse of discontinuous receiving cycle, in the period, have user uplink data to send, enters Continuous Rx state;

, if receiving downlink data in the period and from the sub-state of the discontinuous reception of the first order that returns that network side receives, allow the value of (Fallback to 1st DRX allowed) sign at the received pulse of discontinuous receiving cycle is false (False), enter Continuous Rx state;

, if receiving the value of downlink data and Fallback to1st DRX allowed sign in the period at the received pulse of discontinuous receiving cycle is true (True), enter the sub-state of the discontinuous reception of the first order.

7. method as claimed in claim 4, is characterized in that, also comprises:

Described terminal after entering 1st DRX state,, if at the received pulse of one or more discontinuous receiving cycles, receive downlink data in the period or have user uplink data to send, enters Continuous Rx state.

8. information transmitting apparatus comprises: dispensing unit and transmitting element, wherein:

Described dispensing unit, be used for configuration parameter, the timer T321 of the sub-state of the discontinuous reception in configuration parameter, the second level (2nd DRX) of the sub-state of the discontinuous reception of the first order (1st DRX) under public connection (Cell_FACH) state that configures timing time, timer T3xx timing time and return to 1st DRX state and allow sign;

Described transmitting element, be used for the timing time of the timing time of the configuration parameter of the configuration parameter of described 1st DRX state, 2nd DRX state, timer T321, timer T3xx and return to the sub-state of 1stDRX allowing sign to send to terminal.

9. terminal comprises: Transmit-Receive Unit and state transition unit, wherein:

Described Transmit-Receive Unit, be used for configuration parameter, the timer T321 of the sub-state of the discontinuous reception in configuration parameter, the second level (2nd DRX) of the sub-state of the discontinuous reception of the first order (1st DRX) under public connection (Cell_FACH) state that receives timing time, timer T3xx timing time and return to 1st DRX state and allow sign;

Described state transition unit, be used for when the timing time of described timer T3xx is less than or equal to the timing time of timer T321, if under the sub-state of the continuous reception under the Cell_FACH state (Continuous Rx), the time that is in inactive (inactive) reaches the timing time of timer T3xx, enters 2nd DRX state.

10. terminal as claimed in claim 9 is characterized in that:

Described state transition unit, also be used at the timing time of described timer T3xx during greater than the timing time of timer T321,, if under Continuous Rx state, be in the timing time that the inactive time reaches timer T321, enter 1st DRX state.

11. terminal as claimed in claim 10 is characterized in that:

Described state transition unit, also be used for after entering 1st DRX state,, if be in inactively in the Rx Burst (received pulse period) of one or more discontinuous receiving cycles (DRX Cycle), enters 2nd DRX state.

12. terminal as described in claim 9 or 11 is characterized in that:

Described state transition unit, also be used for after entering 2nd DRX state,, if at the received pulse of discontinuous receiving cycle, in the period, have user uplink data to send, enters Continuous Rx state; To allow the value of (Fallback to 1st DRX allowed) sign be false (False) if at the received pulse of discontinuous receiving cycle, receive downlink data in the period and return to the sub-state of the discontinuous reception of the first order, enters Continuous Rx state; , if receiving the value of downlink data and Fallback to 1st DRX allowed sign in the period at the received pulse of discontinuous receiving cycle is true (True), enter the sub-state of 1stDRX.

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