CN100542352C

CN100542352C - Method for treatment of service authorization among the E-DCH

Info

Publication number: CN100542352C
Application number: CNB2006100709206A
Authority: CN
Inventors: 刘晟
Original assignee: Huawei Technologies Co Ltd
Current assignee: Huawei Technologies Co Ltd
Priority date: 2006-03-22
Filing date: 2006-03-22
Publication date: 2009-09-16
Anticipated expiration: 2026-03-22
Also published as: CN1921688A

Abstract

The present invention relates to moving communicating field, disclose method for treatment of service authorization among a kind of E-DCH, the feasible resource that can save subscriber equipment, the flow process of configuration service mandate is more reasonable.Among the present invention, change or TTI when changing, only when the high-level signaling initial configuration is basic E-RNTI control mode, just start or restart AG_Timer at the E-DCH of subscriber equipment Serving cell.In addition, when the high-level signaling initial configuration was basic E-RNTI control mode, the value of state variable " Stored_Secondary_Grant " was set to the value of IE in the high-level signaling " Serving Grant Value ".

Description

Method for treatment of service authorization among the E-DCH

Technical field

The present invention relates to moving communicating field, particularly the dedicated channel of enhancing (EnhancedDedicated Channel is called for short " E-DCH ") technology.

Background technology

Third generation partner program (3rd Generation Partnership Project, abbreviation " 3GPP ") vital tissue as moving communicating field has promoted 3G (Third Generation) Moblie (The Third Generation, be called for short " 3G ") standardization effort of technology, the carrying of uplink and downlink business all is based on dedicated channel in its early stage protocol version.

Along with the development of mobile communication technology, 3G technology is also in constantly development evolution.High speed downlink packet inserts (High Speed Downlink Packet Access is called for short " HSDPA ") and high speed uplink packet access (High Speed Uplink Packet Access is called for short " HSUPA ") is exactly the important evolution of 3G technology.The scheduling of the packet among HSDPA and the HSUPA and re-transmission etc. are controlled by base-station node (Node B).

Wherein, HSDPA was introduced in 3GPP the 5th edition as down high-speed data bag access technology, and (Release 5 in 2002, abbreviation " R5 ") in the version, and 3GPP the 6th edition (Release 6, abbreviation " R6 ") carried out in partly improving, it adopts 2 milliseconds of shorter (ms) Transmission Time Intervals (Transmission Timing Interval is called for short " TTI "), to realize quick self-adapted control.Use adaptive coding and modulation (Adaptive Modulation and Coding is called for short " AMC ") and mix automatic repeat requests (Hybrid Auto Repeat reQuest is called for short " HARQ ") in physical layer.

HSUPA is called E-DCH again, as the high speed uplink data packet access technique, also has been incorporated among the 3GPP R6 in 2004.Similar with HSDPA, HSUPA has also adopted 2ms TTI and shorter frame length to realize quick self-adapted control, use HARQ and based on the fast uplink dispatching technique of Node B, improved up spectrum efficiency, also have remarkable advantages such as uplink speed is fast, propagation delay time is little, thereby provide more effective support for the application of grouping data services such as real-time game business, file are uploaded, broadband multimedia services.

Agreement relevant with HSUPA in wireless air interface (Uu interface) is from control plane, mainly be divided into three layers: physical layer (Physical) is ground floor, media access control protocol layer (MediumAccess Control, be called for short " MAC ") and radio link control (Radio Link Control, abbreviation " RLC ") layer is the second layer, and corresponding radio resource control protocol (Radio ResourceControl is called for short " RRC ") layer is the 3rd layer.

In physical layer, for subscriber equipment (User Equipment, abbreviation " UE ") high-efficiency transfer of upstream data, E-DCH has increased two uplink physical channels and three down physical channels newly, they are respectively up E-DCH Dedicated Physical Data Channel (the E-DCHDedicated Physical Data Channel that is used for carrying user data, be called for short " E-DPDCH "), be used to transmit accompanied by physical layer signaling, for the E-DPDCH demodulation provides the up E-DCH Dedicated Physical Control Channel of following signaling (E-DCH Dedicated Physical Control Channel, be called for short " E-DPCCH "), be used to control E-DCH absolute grant channel (the E-DCH Absolute GrantChannel of the uplink speed of UE, be called for short " E-AGCH ") and E-DCH relative authorization channel (E-DCH Relative GrantChannel, be called for short " E-RGCH "), and be used to carry the E-DCH HARQ answering indication signal channel of confirmation (ACK/NACK) (E-DCH HARQ IndicatorChannel is called for short " E-HICH ") of the affirmation of Node B/not.

Authorization of service (ServingGrant is called for short " the SG ") parameter that the up fast packet scheduling of E-DCH is based on Node B control realizes.In order to simplify the control of the up fast packet scheduling of E-DCH, a UE only preserves a SG parameter, so the transmission of the upstream packet of all HARQ processes of this UE all is subjected to this SG parameter control.The current SG parameter that UE preserves is by the absolute grant that is carried on E-AGCH (Absolute Grant) order, and relative authorization (RelativeGrant) the order control that is carried on E-RGCH.Wherein, the absolute grant order is made up of the absolute grant value and one the 1 bit long absolute grant scope (Absolute Grant Scope) of one 5 bit long, and the absolute grant value is as shown in table 1, and the absolute grant order then is a single-bit amount.Because E-AGCH is a common signal channel, therefore E-AGCH also provides the sign that needs to receive this order and be subjected to the UE of its control in each absolute grant order of transmission, it is E-DCH Radio Network Temporary Identifier (E-DCH Radio Network TemporaryIdentity is called for short " E-RNTI ").

Absolute Grant Value absolute grant value	The Index catalogue
Absolute Grant Value absolute grant value	The Index catalogue	(168/15) ²x6	31
(150/15) ²x6	30	(168/15) ²x6	31
(150/15) ²x6	30	(168/15) ²x4	29
(150/15) ²x4	28	(168/15) ²x4	29
(150/15) ²x4	28	(134/15) ²x4	27
(119/15) ²x4	26	(134/15) ²x4	27
(119/15) ²x4	26	(150/15) ²x2	25
(95/15) ²x4	24	(150/15) ²x2	25
(95/15) ²x4	24	(168/15) ²	23
(150/15) ²	22	(168/15) ²	23
(150/15) ²	22	(134/15) ²	21
(119/15) ²	20	(134/15) ²	21
(119/15) ²	20	(106/15) ²	19
(95/15) ²	18	(106/15) ²	19
(95/15) ²	18	(84/15) ²	17
(75/15) ²	16	(84/15) ²	17
(75/15) ²	16	(67/15) ²	15
(60/15) ²	14	(67/15) ²	15
(60/15) ²	14	(53/15) ²	13
(47/15) ²	12	(53/15) ²	13
(47/15) ²	12	(42/15) ²	11
(38/15) ²	10	(42/15) ²	11
(38/15) ²	10	(34/15) ²	9
(30/15) ²	8	(34/15) ²	9
(30/15) ²	8	(27/15) ²	7
(24/15) ²	6	(27/15) ²	7
(24/15) ²	6	(19/15) ²	5
(15/15) ²	4	(19/15) ²	5
(15/15) ²	4	(11/15) ²	3
(7/15) ²	2	(11/15) ²	3
(7/15) ²	2	ZERO_GRANT* (zero authorizes)	1
INACTIVE* (non-activation)	0	ZERO_GRANT* (zero authorizes)	1

Table 1

The up fast packet scheduling of E-DCH is supported two kinds of packet scheduling modes, is respectively the mode of independently dispatching based on single UE and is the group scheduling mode of object with UE group.Wherein, in single UE independence scheduling mode, Node B can independently carry out shut-down operation (only to 2ms TTI pattern) or activate all HARQ processes simultaneously each HARQ process of this UE, simultaneously, UE had both accepted the control from the absolute grant order of E-AGCH, also accepted the control from the relative authorization command of E-RGCH; And in the group scheduling mode, all HARQ processes are always enlivened and UE can only accept the control from the absolute grant order of E-AGCH.E-DCH allows a UE to dispose this two kinds of scheduling modes simultaneously, and dynamically indicates UE should accept the control of which kind of scheduling mode by Node B.

E-DCH service Node B is respectively basic E-RNTI (Primary E-RNTI) and the 2nd E-RNTI (SecondaryE-RNTI) for the UE of each configuring E-DCH channel disposes two E-RNTI simultaneously.Wherein, basic E-RNTI typically is used for the independent scheduling to single UE, and the 2nd E-RNTI typically is used for the scheduling of UE group.

UE preserves three internal state variable, be respectively current authorization of service (Serving_Grant) variable, be used to indicate second authorization value (Stored_Secondary_Grant) variable of the storage of the authorization of service that basic E-RNTI adopted when the 2nd E-RNTI switches, and whether be used to indicate current be basic mandate available (Primary_Grant_Available) variable of basic E-RNTI control mode.In addition, UE also uses absolute grant timer (AG_Timer), and in the timing of AG_Timer, the absolute grant order that UE accepts is not subjected to the influence from the relative authorization command of E-RGCH when making by basic E-RNTI control.

3GPP agreement TS25.321 also standard when beginning to transmit E-DCH, when the E-DCH Serving cell changes and the method for treatment of service authorization of TTI when changing (switching between 2ms and the 10ms TTI pattern), respectively as depicted in figs. 1 and 2.Under these three kinds of situations, always at first activate all HARQ processes, judge then whether high-level signaling has disposed information element (Information Element, be called for short " IE ") " Serving Grant Value (authorization of service value) " and " Primary/Secondary GrantSelector (basic/second authorized and select) ", if high-level signaling has disposed this two IE, then utilize these two parameters that internal state variable Serving_Grant, the Primary_Grant_Available of UE and the value of Stored_Secondary_Grant are set; If high-level signaling does not dispose this two IE, situation when beginning to transmit E-DCH, state variable Serving_Grant and Stored_Secondary_Grant all are initialized as " Zero_Grant ", it is basic E-RNTI control mode that Primary_Grant_Available then is set to " True ", for the situation that the E-DCH Serving cell changes and TTI changes, the currency of Serving_Grant and Primary_Grant_Available will be continued to use, and init state variable Stored_Secondary_Grant is " Zero_Grant ".

When UE switches to new E-DCH Serving cell, agreement TS25.321 according to 3GPP, and motion " R2-060764; E-DCH Serving Grant Update (renewal of E-DCH authorization of service); 2006-02 ", to the changing method between the dynamic indication of the scheduling mode of UE and the two kinds of scheduling modes as shown in Figure 3.

In step 301, UE receives the absolute grant order on E-AGCH.

In step 302, judge whether UE sign is basic E-RNTI, and the absolute grant value is " INACTIVE (non-activation) ", if then change step 303 over to; Otherwise change step 309 over to.

In step 303, judge that whether " Absolute Grant Scope (absolute grant scope) " is " Per HARQ process (single HARQ process) ", and be 2ms TTI pattern, if then change step 304 over to; Otherwise change step 305 over to.

In step 304, judge that whether the absolute grant scope is " All HARQ process (all HARQ processes) ", and disposed the 2nd E-RNTI, if then change step 306 over to; Otherwise change step 307 over to.

In step 305, stop current HARQ process, finish this absolute grant process of commands.Process ends.

In step 306, UE activates all HARQ processes, and switch to the 2nd E-RNTI control mode by basic E-RNTI control mode, simultaneously, internal state variable is set, specifically, make Serving_Grant=Stored_Secondary_Grant, Primary_Grant_Available is false (False).And enter step 307.

In step 307, judge that the absolute grant scope is all HARQ processes, and, be the 2msTTI pattern, if then change step 308 over to for configuration the 2nd E-RNTI; Otherwise, finish this absolute grant process of commands, process ends.

In step 308, stop all HARQ processes, process ends.

In step 309,, then change step 310 over to if the absolute grant value is not non-activation; Otherwise, finish this absolute grant process of commands, process ends.

In step 310, judge whether the sign of UE is the 2nd E-RNTI, if then change step 311 over to; Otherwise, change step 312 over to.

In step 311, upgrade Stored_Secondary_Grant, promptly preserve this absolute grant value in the Stored_Secondary_Grant variable, and enter step 312.

In step 312, judge whether the sign of UE is the 2nd E-RNTI, and Primary_Grant_Available is false, if then change step 313 over to; Otherwise, finish this absolute grant process of commands, process ends.

In step 313, current SG is changed to this absolute grant value, and enters step 314.

In step 314, judge whether the sign of UE is basic E-RNTI, if then change step 315 over to; Otherwise, finish this absolute grant process of commands, process ends.

In step 315, Primary_Grant_Available is set is true (True), and enter step 316.

In step 316, judge whether the absolute grant scope is single HARQ process, if then change step 317 over to; Otherwise the absolute grant scope is all HARQ processes, changes step 318 over to.

In step 317, activate current HARQ process, and enter step 319.

In step 318, activate all HARQ processes, and enter step 319 equally.

In step 319, start AG_Timer, if this AG_Timer starts, then restart this AG_Timer.Process ends.

But, above-mentioned UE to absolute grant process of commands method in, no matter why " Primary/SecondaryGrant Selector " is worth, promptly no matter UE is configured to basic E-RNTI control mode still is the 2nd E-RNTI control mode, UE judges all whether AG_Timer starts, if then do not start immediately, otherwise restart.In absolute grant command process flow process, just upgrade Serving_Grant when having only, and need to start or restart AG_Timer for basic E-RNTI control mode; Yet, when the 2nd E-RNTI control mode, owing under the group scheduling mode, do not accept relative authorization command, do not need to use AG_Timer to avoid the influence of relative authorization command to the absolute grant order, only need to upgrade Serving_Grant, therefore, in this case, start the waste that unnecessary AG_Timer can cause the UE resource.

According to 3GPP agreement TS25.321 and granted change request (Change Request, be called for short " CR ") " R2-060747; AG_Timer for IE ' Serving Grant ' (information element ' authorization of service ' absolute grant timer); 2006-02 ", the method for treatment of service authorization when high-level signaling has disposed the IE " ServingGrant Value " of initial SG parameter and " Primary/Secondary Grant Selector " is as shown in Figure 4.At first the value with state variable Serving_Grant is taken as the value that IE " Serving Grant Value " provides; Judge then whether AG_Timer starts,, otherwise restart if then do not start immediately; Judge again afterwards whether " Primary/Secondary Grant Selector " is " Primary ", be basic E-RNTI control mode, if state variable Primary_Grant_Available then is set for true, and makes Stored_Secondary_Grant=" Zero_Grant "; Otherwise, be the 2nd E-RNTI control mode, state variable Primary_Grant_Available is set for false, and Stored_Secondary_Grant is set is the value that IE " Serving Grant Value " provides.

Wherein, the effect of variable Stored_Secondary_Grant is: when UE switched to the 2nd E-RNTI control mode by basic E-RNTI control mode, current SG parameter S erving_Grant was set to the value that Stored_Secondary_Grant preserves.When initially being configured to basic E-RNTI control mode, only after initialization, to the E-DCH Serving cell this UE is switched between the 2nd E-RNTI control mode by basic E-RNTI control mode, this UE does not receive any indicated UE when being designated the absolute grant order of " the 2nd E-RNTI ", and the initial value of variable Stored_Secondary_Grant just need be used.

And when initially being configured to the 2nd E-RNTI control mode, under the 2nd E-RNTI control mode, Stored_Secondary_Grant and Serving_Grant always are updated to the given absolute grant value of absolute grant order simultaneously, promptly after initialization, in case receive the absolute grant order that indication is shown " the 2nd E-RNTI ", the initial value of variable Stored_Secondary_Grant is replaced by new value immediately.When initially being configured to the 2nd E-RNTI control mode, if after initialization, the E-DCH Serving cell switches to basic E-RNTI control mode with the control mode of this UE by the 2nd E-RNTI control mode immediately, and till this E-DCH Serving cell switches to the 2nd E-RNTI control mode with this UE by basic E-RNTI control mode again, this UE does not receive the absolute grant order that any indication is shown " the 2nd E-RNTI ", and the initial value of variable Stored_Secondary_Grant just can be used.

Obviously, when initially being configured to the 2nd E-RNTI control mode, set Stored_Secondary_Grant initial value just might be used when only switching to basic E-RNTI control mode immediately after initialization, yet when initially being configured to basic E-RNTI control mode, but do not come Stored_Secondary_Grant configuration initial value by high-level signaling is set, the flow process that obviously disposes SG is irrational.

Summary of the invention

In view of this, main purpose of the present invention is to provide method for treatment of service authorization among a kind of E-DCH, the feasible resource that can save subscriber equipment, and the flow process of configuration service mandate is more reasonable.

For achieving the above object, the invention provides method for treatment of service authorization among a kind of E-DCH, comprise following steps:

When subscriber equipment begins to transmit E-DCH or E-DCH Serving cell when changing or Transmission Time Interval when changing, if high-level signaling has disposed the service authorization parameter relevant information element, then this subscriber equipment judges whether the service authorization parameter of high-level signaling initial configuration is basic E-RNTI control mode, only just starts when initially being configured to basic E-RNTI control mode or restarts the absolute grant timer.

Wherein, described service authorization parameter relevant information element is that authorization of service value " Serving GrantValue " and basic/second are authorized selection " Primary/Secondary Grant Selector ".

In this external described method, described startup or the step that restarts the absolute grant timer further comprise following substep:

Judge whether described absolute grant timer starts,, otherwise start this absolute grant timer immediately if then restart this absolute grant timer.

In this external described method, described subscriber equipment judges whether to be basic E-RNTI control mode according to the information element " Primary/Secondary Grant Selector " of described high-level signaling, if the value of this information element is " Primary " then for basic E-RNTI control mode, if the value of this information element is for " Secondary " then be the 2nd E-RNTI control mode.

In this external described method, also comprise following steps:

If described subscriber equipment judges that the service authorization parameter of high-level signaling initial configuration is basic E-RNTI control mode, then second authorization value " Stored_Secondary_Grant " of state variable storage is taken as the value that the information element " Serving GrantValue " of described high-level signaling provides.

In this external described method, described subscriber equipment judges that the service authorization parameter of high-level signaling initial configuration also comprises following steps when being basic E-RNTI control mode:

Substantially authorize available " Primary_Grant_Available " to be set to " True " state variable, state variable authorization of service " Serving_Grant " is taken as the value that the information element " ServingGrant Value " of described high-level signaling provides.

In this external described method, the startup of described absolute grant timer or the step that restarts are carried out after the step of described state variable setting to each.

In this external described method, also comprise following steps:

If described subscriber equipment judges that the service authorization parameter of high-level signaling initial configuration is the 2nd E-RNTI control mode, then state variable " Primary_Grant_Available " is set to " False ", and state variable " Stored_Secondary_Grant " and " Serving_Grant " are taken as the value that the information element " Serving Grant Value " of described high-level signaling provides.

In this external described method, described high-level signaling comprises:

Radio resource control signaling, base-station node application part signalling and Radio Network Subsystem Application Part signaling.By relatively finding, the main distinction of technical scheme of the present invention and prior art is, change or TTI when changing at the E-DCH of subscriber equipment Serving cell, only when the high-level signaling initial configuration is basic E-RNTI control mode, just start or restart AG_Timer.And there is technology prejudice in the prior art, no matter being configured to basic E-RNTI control mode still is the 2nd E-RNTI control mode, all unconditionally AG_Timer is operated, under its tangible the 2nd E-RNTI control mode (being the group scheduling mode) is not need AG_Timer's, technical scheme of the present invention has been saved system resource by starting conditionally or restarting AG_Timer.

In addition, when the high-level signaling initial configuration was basic E-RNTI control mode, the value of state variable " Stored_Secondary_Grant " was set to the value of IE in the high-level signaling " Serving Grant Value ".This has solved the contradiction that implies in the prior art, makes the flow process of configuration service mandate more reasonable.

Description of drawings

Fig. 1 is the UE internal state variable process chart when the E-DCH Serving cell changes in the prior art;

Fig. 2 is the UE internal state variable process chart when beginning E-DCH transmits in the prior art;

Fig. 3 be in the prior art UE to absolute grant process of commands flow chart;

Fig. 4 be in the prior art UE to the process chart of the high-level signaling that carries initial SG parameter;

Fig. 5 is a method for treatment of service authorization flow chart among the E-DCH of the better embodiment according to the present invention.

Embodiment

For making the purpose, technical solutions and advantages of the present invention clearer, the present invention is described in further detail below in conjunction with accompanying drawing.

The present invention passes through to judge that the initial SG parameter IE " Primary/SecondaryGrant Selector " of high-level signaling configuration is when being " Primary ", according to the IE in the high-level signaling " the Serving Grant Value " value that provides the internal state variable Stored_Secondary_Grant of UE is set, and starts or restart AG_Timer.And, then do not start or restart AG_Timer as IE " Primary/Secondary Grant Selector " when being " Secondary ".

Method for treatment of service authorization as shown in Figure 5 among the E-DCH of better embodiment of the present invention.

In step 501, when UE begins to transmit E-DCH, when the E-DCH Serving cell changes or TTI when changing (switching between 2ms TTI pattern and the 10ms TTI pattern), activate all HARQ processes, and judgement high-level signaling, for example, whether RRC signaling, NBAP signaling and RNSAP signaling etc. have disposed IE " Serving Grant Value " and " the Primary/Secondary GrantSelector " in the SG parameter.When high-level signaling has disposed the SG parameter, UE further judges whether to be basic E-RNTI control mode according to IE " Primary/Secondary Grant Selector ", if the value of this IE is " Primary " then for basic E-RNTI control mode, then change step 503 over to; If the value of this IE is " Secondary " then be the 2nd E-RNTI control mode, then change step 502 over to.

In step 502, because the SG parameter of high-level signaling initial configuration is the 2nd E-RNTI control mode, UE is according to the indication of this control mode, " Primary_Grant_Available " is set to vacation with state variable, and state variable " Stored_Secondary_Grant " and " Serving_Grant " all are taken as the value that the IE " Serving Grant Value " of high-level signaling provides.Process ends.

In step 503, because the SG parameter of high-level signaling initial configuration is basic E-RNTI control mode, UE is according to the indication of this control mode, state variable Primary_Grant_Available is set to very, Serving_Grant is made as the value that the IE " Serving Grant Value " of high-level signaling provides, and also state variable Stored_Secondary_Grant is set to the value of IE in the high-level signaling " ServingGrant Value " simultaneously.

When change of the E-DCH of UE Serving cell or TTI change, the high-level signaling initial configuration is under the situation of basic E-RNTI control mode, state variable Stored_Secondary_Grant is set to the value of IE in the high-level signaling " Serving Grant Value ", and this has solved the contradiction that implies in the prior art.

In the prior art, when initially being configured to the 2nd E-RNTI control mode, if after initialization, the E-DCH Serving cell switches to basic E-RNTI control mode with the control mode of this UE by the 2nd E-RNTI control mode immediately, and under the situation till this E-DCH Serving cell switches to the 2nd E-RNTI control mode with this UE by basic E-RNTI control mode again, if this UE does not receive the absolute grant order that any indication is shown " the 2nd E-RNTI ", the initial value of variable Stored_Secondary_Grant just can be used, yet the probability that this thing happens is far smaller than the probability of " initial configuration is basic E-RNTI control mode; till this UE switches to the 2nd E-RNTI control mode, and this UE does not receive any indication and is shown ' the absolute grant order of the 2nd E-RNTI ' ".

And in the prior art, when initially being configured to basic E-RNTI control mode, the value of variable Stored_Secondary_Grant is taken as " Zero_Grant ", this means the initial value " Serving Grant Value " that does not use the high-level signaling appointment.Obviously, when this and initial configuration are the 2nd E-RNTI control mode, Stored_Secondary_Grant being made as the value that " Serving Grant Value " provide logically contradicts.

Therefore, it is more reasonable that technical scheme of the present invention can make the flow process of configuration service mandate.

In step 504, UE judges whether AG_Timer starts, if then change step 505 over to; Otherwise change step 506 over to.

In step 505, UE restarts this AG_Timer after to each state variable setting.Process ends.

In step 506, UE starts this AG_Timer immediately after to each state variable setting.Process ends.

Above-mentioned better embodiment only changes or TTI when changing at the E-DCH of UE Serving cell, and the high-level signaling initial configuration is under the situation of basic E-RNTI control mode, just starts or restarts AG_Timer.And there is technology prejudice in the prior art, no matter being configured to basic E-RNTI control mode still is the 2nd E-RNTI control mode, all unconditionally AG_Timer is operated, yet under the 2nd E-RNTI control mode (being the group scheduling mode) is not need to use AG_Timer's, therefore, technical scheme of the present invention has been saved system resource by starting conditionally or restarting AG_Timer.

Though pass through with reference to some of the preferred embodiment of the invention, the present invention is illustrated and describes, but those of ordinary skill in the art should be understood that and can do various changes to it in the form and details, and without departing from the spirit and scope of the present invention.

Claims

1. method for treatment of service authorization among the E-DCH is characterized in that, comprises following steps:

2. method for treatment of service authorization among the E-DCH according to claim 1, it is characterized in that described service authorization parameter relevant information element is that authorization of service value " Serving Grant Value " and basic/second are authorized selection " Primary/Secondary Grant Selector ".

3. method for treatment of service authorization among the E-DCH according to claim 2 is characterized in that, described startup or the step that restarts the absolute grant timer further comprise following substep:

4. method for treatment of service authorization among the E-DCH according to claim 2, it is characterized in that, described subscriber equipment judges whether to be basic E-RNTI control mode according to the information element " Primary/Secondary GrantSelector " of described high-level signaling, if the value of this information element is " Primary " then for basic E-RNTI control mode, if the value of this information element is for " Secondary " then be the 2nd E-RNTI control mode.

5. method for treatment of service authorization among the E-DCH according to claim 2 is characterized in that, also comprises following steps:

6. method for treatment of service authorization among the E-DCH according to claim 5 is characterized in that, described subscriber equipment judges that the service authorization parameter of high-level signaling initial configuration also comprises following steps when being basic E-RNTI control mode:

7. method for treatment of service authorization among the E-DCH according to claim 6 is characterized in that, the startup of described absolute grant timer or the step that restarts are carried out after the step of described state variable setting to each.

8. according to method for treatment of service authorization among each described E-DCH in the claim 2 to 7, it is characterized in that, also comprise following steps:

9. according to method for treatment of service authorization among each described E-DCH in the claim 1 to 7, it is characterized in that described high-level signaling comprises:

Radio resource control signaling, base-station node application part signalling and Radio Network Subsystem Application Part signaling.