CN101155333B - Method and system for ascending wireless resource scheduling - Google Patents

Abstract

The present invention provides a method for attemperring up radio resource, including: a network side distributes one or more public up channels, and transmits downwards up radio resource for MS attemperring by the public up channel. The present invention also discloses a system for attemperring up radio resource, the network side of the system comprises public channel distributing module and up radio resource attemperring module; MS comprises up radio resource listening module. The method and system of the present invention avoid resource waste due to the network side needs to attemper the up radio resource for TBF in a plurality of channels continuously, when multi-user run delay sensing business at one time, as well as the network side transmits the up radio resource for MS attemperring in the distributed public up channel.

Description

A kind of method and system of ascending wireless resource scheduling

Technical field

The present invention relates to packet data transmission technique, particularly a kind of method and system of ascending wireless resource scheduling.

Background technology

In GPRS (GPRS), travelling carriage (MS) will be to network side, as base station sub-system (BSS), when sending up-link wireless controlling links (RLC) data block, need at first to set up uplink data block stream (TBF) by grouping access procedure (packet access procedure).In the prior art, the grouping access procedure can insert for a step, also can insert for two steps.

Fig. 1 is the flow chart of the implementation method of prior art ascending packet data transmission, and this flow process comprises the steps:

Step 101, MS goes up to network side at Physical Random Access Channel (PRACH) and sends packet channel request (PACKET CHANNEL REQUEST), and the request network side is the resource on self allocation packets channel.

Step 102, after network side receives the packet channel request of MS transmission, distribute the resource on the Packet Data Channel (PDCH) to give MS, and go up to MS at the Packet Access Grant Channel of receiving the Packet Common Control CHannel of packet channel request (PCCCH) (PAGCH) and to send the packet uplink assignment messages, inform that MS is the resource on the packet traffic channel of its distribution.

If adopt a step access procedure to set up up TBF, then after step 102 is finished, direct execution in step 105; If adopt two step access procedures to set up up TBF, then after step 102 is finished, execution in step 103.

Step 103, MS sends grouping resources request (PACKET RESOURCE REQUEST) to network side on the grouped channels resource of its distribution, request grouped channels resource.

Step 104, network side use the packet uplink assignment messages to notify MS as the grouping resources that MS distributes.

Step 105, up TBF sets up and finishes, and MS sends up RLC data block to network side.

Comprise uplink state sign (USF) value and the timeslot number that network side is handed down to MS at network side in the up assignment messages that MS sends, MS utilizes the USF value and the indicated up RLC data block of timeslot number that receive to send data to network side.The USF value is that PDCH goes up a plurality of MS and carries out the multiplexing sign of wireless channel, usually it to be used to indicate certain MS can use with the up RLC data block of the next one be one initial or continuous four RLC data blocks.

For the press-and-talk (PoC) of present packet voice business (VoIP) or radio packet network is professional, if a side of conversation does not speak for a long time, make corresponding up TBF during this period of time not have transfer of data, network side may stop to be this up TBF dispatching uplink Radio Resource, perhaps be continuously this up TBF dispatching uplink Radio Resource.If network side stops to be this up TBF dispatching uplink Radio Resource, when this side's user spoke again, therefore network side can not can cause bigger influence to the VoIP or the PoC service of delay sensitive in time for corresponding up TBF issues USF value and timeslot number.In order to guarantee normally carrying out of delay sensitive business, network side can select to be continuously corresponding up TBF dispatching uplink Radio Resource, to guarantee when this user speaks again, do not utilize network side to send up RLC data block for the USF value and the timeslot number of corresponding TBF scheduling with can having time delay.

When a plurality of MS carry out this class time delay sensitive traffic of VoIP or PoC simultaneously, network needs to keep ascending wireless resource scheduling on the channel at these MS places always, issue USF value and timeslot number, guaranteeing the continuity of whole service, but will inevitably cause the serious waste of Radio Resource like this.

Summary of the invention

In view of this, main purpose of the present invention is to provide a kind of method of ascending wireless resource scheduling, avoids network side to be continuously the wasting of resources that a plurality of channel dispatch ascending wireless resources cause.

Another main purpose of the present invention is to provide a kind of system of ascending wireless resource scheduling, avoids network side to be continuously the wasting of resources that a plurality of channel dispatch ascending wireless resources cause.

In order to reach the first aspect of above-mentioned main purpose, the invention provides a kind of method of ascending wireless resource scheduling, this method may further comprise the steps:

Network side distributes an above common uplink channel, and issues the ascending wireless resource of dispatching into mobile station MS by the common uplink channel that distributes;

Network side stops or is former data block stream TBF dispatching uplink Radio Resource with the frequency that is lower than former scheduling frequency, and MS determines to utilize former TBF when network side sends data block, MS utilizes the ascending wireless resource that obtains from the common uplink channel, sends data block to network side;

Network side is former TBF dispatching uplink Radio Resource after receiving the data block of MS transmission; MS listens to network side when being the ascending wireless resource of former TBF scheduling, is to send data block to network side on the up channel that distributes of former TBF at network side.

Described network side distributes after the common uplink channel, and MS utilizes the ascending wireless resource that obtains from the common uplink channel, and before network side sent data block, also comprise: network side sent to MS with the identification information of common uplink channel.

Described MS utilizes the ascending wireless resource that obtains from the common uplink channel, sends data block to network side to be: MS utilizes the ascending wireless resource that obtains from the common uplink channel, sends data block to network side on former TBF.

Behind the described distribution common uplink channel, further comprise: on the common uplink channel, set up public TBF;

Described MS utilizes the ascending wireless resource that obtains from the common uplink channel, sends data block to network side to be: MS utilizes the ascending wireless resource that obtains from the common uplink channel, sends data block to network side on public TBF.

Behind the described distribution common uplink channel, further comprise: on the common uplink channel, set up public TBF;

After described network side sent to MS with the identification information of common uplink channel, described MS utilized the ascending wireless resource that obtains from the common uplink channel, sent data block to network side and further comprised:

A1, network side stop or are former data block stream TBF dispatching uplink Radio Resource with the frequency that is lower than former scheduling frequency, and MS determines to utilize former TBF when network side sends data block, MS utilizes the ascending wireless resource that obtains from the common uplink channel, the identification information of former TBF is carried to insert among the pulse AB send to network side on public TBF;

When B1, network side receive the AB of public TBF transmission, know to be former TBF dispatching uplink Radio Resource;

C1, MS listen to network side when being the ascending wireless resource of former TBF scheduling, are to send data block to network side on the up channel that distributes of former TBF at network side.

Described distribution common uplink channel is: it is the common uplink channel that network side distributes a packet associated control channel PACCH.

Describedly issue ascending wireless resource by the common uplink channel that distributes and be: the common uplink channel of network side by distributing, use the peak frequency that USF value is dispatched among the MS of this common uplink channel to issue USF value and timeslot number according to all.

Described network side sends to MS with the identification information of common uplink channel: network side is carried at the identification information of common uplink channel in the up assignment messages and sends to MS.

In order to reach the second aspect of above-mentioned main purpose, the invention provides a kind of system of ascending wireless resource scheduling, this system comprises: network side and mobile station MS,

Described network side comprises: common signal channel distribution module, ascending wireless resource scheduling module and data block receiver module; Described MS comprises: ascending wireless resource is monitored module, notice scheduling Radio Resource module and data block sending module,

Described common signal channel distribution module is used to distribute an above common uplink channel, and is that the ascending wireless resource of MS scheduling is handed down to described ascending wireless resource and monitors module by the common uplink channel that distributes with described ascending wireless resource scheduling module;

Described notice scheduling Radio Resource module is monitored module with described ascending wireless resource and is linked to each other, be used for stopping or being former TBF dispatching uplink Radio Resource with the frequency that is lower than former scheduling frequency at network side, and MS determines to utilize former TBF when network side sends data block, monitor module from described ascending wireless resource and obtain ascending wireless resource, send to the data block sending module;

Described data block sending module, the ascending wireless resource that utilization is obtained sends data block to described data block receiver module, and utilize the ascending wireless resource receive, be to send data block to described data block receiver module on the up channel that distributes of former TBF at network side;

Described data block receiver module is used for when receiving data block, and notifying described ascending wireless resource scheduling module is former TBF dispatching uplink Radio Resource;

Described ascending wireless resource scheduling module is used for when receiving the notice of data block receiver module transmission, is former TBF dispatching uplink Radio Resource and sends to described ascending wireless resource monitoring module with former scheduling frequency;

Described ascending wireless resource is monitored module, and the ascending wireless resource that is used for listening to sends to the data block sending module;

Described data block sending module utilizes the ascending wireless resource receive, is to send data block to described data block receiver module on the up channel that distributes of former TBF at network side.

Described common signal channel distribution module is further used for setting up public TBF on the common uplink channel;

Described data block sending module utilizes the ascending wireless resource that obtains to send data block to described data block receiver module on the public TBF that sets up.

Described data block sending module utilizes the ascending wireless resource that obtains to send data block to described data block receiver module on former TBF.

Described data block sending module is further used for the identification information of former TBF is carried among the AB, utilizes the ascending wireless resource that obtains to send to described data block receiver module on the public TBF that sets up;

Described data block receiver module is further used for when receiving the AB that carries former TBF identification information, and notifying described ascending wireless resource scheduling module is former TBF dispatching uplink Radio Resource.

By technical scheme of the present invention as can be known, the method and system of ascending wireless resource scheduling provided by the invention, distribute one or more common uplink channels by network side, and on the common uplink channel that distributes, issue ascending wireless resource into the MS scheduling, avoided when the multi-user carries out the delay sensitive business simultaneously, network side need be continuously the wasting of resources that the TBF dispatching uplink Radio Resource on a plurality of channels causes.

Utilize the method and system of ascending wireless resource scheduling provided by the invention, do not use former TBF to send uplink data block for a long time at MS to network side, network side stops or when being former TBF dispatching uplink Radio Resource with the frequency that is lower than former scheduling frequency, MS can utilize USF value and the timeslot number that issues on the common uplink channel, send data block to network side, and then make network side when receiving the data block of MS transmission, be former TBF dispatching uplink Radio Resource with former scheduling frequency again.Therefore, utilize the method and system of ascending wireless resource scheduling provided by the invention, can when guaranteeing business continuance, avoid the waste of resource.

Description of drawings

Fig. 1 is the flow chart of the implementation method of prior art ascending packet data transmission;

Fig. 2 utilizes method of the present invention to realize the flow chart of a preferred embodiment of ascending packet data transmission;

Fig. 3 utilizes method of the present invention to realize the flow chart of second preferred embodiment of ascending packet data transmission;

Fig. 4 utilizes method of the present invention to realize the flow chart of the 3rd preferred embodiment of ascending packet data transmission;

Fig. 5 utilizes ascending wireless resource scheduling of the present invention system to realize the structural representation of ascending packet data system for transmitting.

Embodiment

For making purpose of the present invention, technical scheme and beneficial effect clearer, below in conjunction with embodiment and accompanying drawing, the present invention is described in more detail.

The core concept of the method and system of ascending wireless resource scheduling provided by the invention is: network side distributes one or more common uplink channels, and issues the ascending wireless resource of dispatching into MS by the common uplink channel that distributes.

Utilize the method for ascending wireless resource scheduling provided by the invention to realize the process that ascending packet data transmits, comprise the steps:

A, network side distribute one or more common uplink channels, and issue the ascending wireless resource of dispatching into MS by the common uplink channel that distributes, and comprise USF value and timeslot number.

B, network side send to MS with the identification information of common uplink channel.

Here, network side can be carried at the identification information of common uplink channel in the up assignment messages and send to MS.

C, network side stop or are TBF dispatching uplink Radio Resource with the frequency that is lower than former scheduling frequency, and MS determine need be when network side sends data block, MS utilizes USF value and the timeslot number that obtains from the common uplink channel, to network side transmission data block.

D, network side receive MS when utilizing the data block of the USF value obtained from the common uplink channel and timeslot number transmission, are former TBF dispatching uplink Radio Resource with former scheduling frequency again.

E, MS listen to network side when being the ascending wireless resource of former TBF scheduling, are to send data block to network side on the up channel that distributes of former TBF at network side.

Wherein, the described MS of step C utilizes USF value and the timeslot number that obtains from the common uplink channel, to network side send data block can for: MS utilizes USF value and the timeslot number that obtains from the common uplink channel, on former TBF to network side transmission data block; Also can on public TBF, send data block for: MS utilizes USF value and the timeslot number that obtains from the common uplink channel to network side, described public TBF be network side behind the common uplink channel of distribution, on the common uplink channel, set up.

In addition, the described MS of step C utilizes USF value and the timeslot number that obtains from the common uplink channel, to network side transmission data block, can also for: MS is carried at the identification information of former TBF among the AB, USF value and timeslot number that utilization is obtained from the common uplink channel send AB to network side.Described step D correspondingly is: when network side receives the AB that carries former TBF identification information, be former TBF dispatching uplink Radio Resource with former scheduling frequency again.

Preferably, the ascending wireless resource that the described network side of steps A issues to the MS scheduling is: the common uplink channel of network side by distributing, the peak frequency of dispatching according to USF value among the MS of all use common uplink channels issues USF value and timeslot number.

Fig. 2 utilizes method of the present invention to realize the flow chart of a preferred embodiment of ascending packet data transmission, and this flow process comprises the steps:

Step 201, network side are distributed one or more common uplink channels, set up public TBF on the common uplink channel, and issue the ascending wireless resource into this public TBF scheduling on the common uplink channel, comprising: USF value and timeslot number.

Network side uses the peak frequency that the USF value is dispatched among the MS of this common uplink channel for the frequency of this public TBF scheduling USF value for all.

Step 202, MS sends packet channel request to network side, and the request network side is the resource on the up TBF allocation packets channel that will set up.

Step 203, after network side receives the packet channel request of MS transmission, be the TBF allocation packets channel resource that to set up, and the grouped channels resource that will distribute for this up TBF and the identification information of common uplink channel be carried in the up assignment messages, send to MS.

Step 204, MS sends up RLC data block to network side on the up TBF that foundation is finished.

When step 205, network side determine not receive the data block that described up TBF sends in the time span of setting, stop or being this up TBF dispatching uplink Radio Resource with the frequency that is lower than former scheduling frequency.

Step 206 when MS defines new up RLC data block and will send to network side, is monitored the common uplink channel, obtains USF value and timeslot number.

Step 207 when MS listens to USF value that network side is public TBF scheduling and timeslot number on the common uplink channel, utilizes public TBF to send uplink data block to network side.

When step 208, network side receive the uplink data block that public TBF sends, be former TBF dispatching uplink Radio Resource, issue USF value and timeslot number with the ascending resource scheduling frequency of former TBF.

In this step and the following steps, former TBF refers to the TBF that MS sets up to the network side request in the step 202.

Step 209 when the up channel that MS distributes at former TBF listens to the USF value, utilizes former TBF to send up RLC data block to network side.

Fig. 3 utilizes method of the present invention to realize the flow chart of second preferred embodiment of ascending packet data transmission, and this flow process comprises the steps:

Step 301, network side are distributed one or more common uplink channels, and send out the ascending wireless resource that network side is any TBF scheduling up and down at this common uplink channel, comprising: USF value and timeslot number.

The frequency of network side scheduling USF value is used the peak frequency that the USF value is dispatched among the MS of this common uplink channel for all.

Step 302, MS sends packet channel request to network side, and the request network side is the resource on the up TBF allocation packets channel that will set up.

Step 303, after network side receives the packet channel request of MS transmission, be the TBF allocation packets channel resource that to set up, and the grouped channels resource that will distribute for this up TBF and the identification information of common uplink channel be carried in the up assignment messages, send to MS.The common uplink Radio Resource here refers to the common uplink channel that network side distributes.

Step 304, MS sends up RLC data block to network side on the up TBF that foundation is finished.

When step 305, network side determine not receive the data block that described up TBF sends in the time span of setting, stop or being this up TBF dispatching uplink Radio Resource with the frequency that is lower than former scheduling frequency.

Step 306 when MS defines new up RLC data block and will send to network side, is monitored the common uplink channel, obtains USF value and timeslot number.

Step 307, MS utilizes former TBF to go up to network side and sends uplink data block according to the USF value and the timeslot number that listen to.

In this step and the following steps, former TBF refers to the TBF that MS sets up to the network side request in the step 302.

When step 308, network side receive the uplink data block of former TBF transmission, be former TBF dispatching uplink Radio Resource with former scheduling frequency.

Step 309, MS monitors USF value and timeslot number at the up channel that former TBF distributes, and according to the USF value and the timeslot number that listen to, utilizes former TBF to send up RLC data block to network side.

Fig. 4 utilizes method of the present invention to realize the flow chart of the 3rd preferred embodiment of ascending packet data transmission, and this flow process comprises the steps:

Step 401, network side are distributed one or more common uplink channels, set up public TBF on the common uplink channel, and issue the ascending wireless resource into this public TBF scheduling on the common uplink channel, comprising: USF value and timeslot number.

Network side uses the peak frequency that the USF value is dispatched among the MS of this common uplink channel for the frequency of this public TBF scheduling USF value for all.

Step 402, MS sends packet channel request to network side, and the request network side is the resource on the up TBF allocation packets channel that will set up.

Step 403, after network side receives the packet channel request of MS transmission, be the TBF allocation packets channel resource that to set up, and the grouped channels resource that will distribute for this up TBF and the identification information of common uplink channel be carried in the up assignment messages, send to MS.

Step 404, MS sends up RLC data block to network side on the up TBF that foundation is finished.

When step 405, network side determine not receive the data block that described up TBF sends in the time span of setting, stop or with the frequency that is lower than former scheduling frequency for dispatching USF value by up TBF.

Step 406 when MS defines new up RLC data block and will send to network side, is monitored the common uplink channel, obtains USF value and timeslot number.

Step 407 when MS listens to USF value that network side is public TBF scheduling and timeslot number, utilizes public TBF to network side transmission access pulse (AB, access burst), carries the identification information of former TBF in this AB.

In this step and the following steps, former TBF refers to the TBF that MS sets up to the network side request in the step 402.

When step 408, network side receive the AB of public TBF transmission,, be former TBF dispatching uplink Radio Resource with former scheduling frequency according to the identification information of the former TBF that wherein carries.

Step 409, the channel-monitoring that MS distributes at former TBF utilize former TBF to send up RLC data block to network side during to the USF value.

MS can send AB to network side by PACCH, and a data block can be carried four AB on PACCH.

Above Fig. 2 is to set up up TBF with a step access procedure to the described embodiment of Fig. 4, set up up TBF if adopt two step access procedures, then the grouped channels resource that step 203 or 303 or 403 described network sides will distribute for the up TBF that will set up be carried at send to MS in the up assignment messages after, MS utilizes the up TBF that sets up before network side sends up RLC data block, further comprises:

A, MS send grouping resources request (PACKET RESOURCE REQUEST) to network side on the grouped channels resource of its distribution, request grouped channels resource.

B, network side use the packet uplink assignment messages to notify MS as the grouping resources that MS distributes.

The present invention provides a kind of realization system of ascending packet data transmission simultaneously, and this system comprises: network side and MS.

Wherein, network side comprises: common signal channel distribution module, ascending wireless resource scheduling module; MS comprises: ascending wireless resource is monitored module,

Described common signal channel distribution module, be used to distribute one or more common uplink channels, and be that the ascending wireless resource of MS scheduling is handed down to described ascending wireless resource and monitors module with described ascending wireless resource scheduling module by the common uplink channel that distributes.

Fig. 5 utilizes ascending wireless resource scheduling of the present invention system to realize the structural representation of ascending packet data system for transmitting, and as shown in Figure 5, described network side also comprises: the data block receiver module; Described MS further comprises: notice scheduling Radio Resource module and data block sending module,

Described notice scheduling Radio Resource module is monitored module with described ascending wireless resource and is linked to each other, be used for stopping or being former TBF dispatching uplink Radio Resource with the frequency that is lower than former scheduling frequency at network side, and MS determines to utilize former TBF when network side sends data block, monitor module from described ascending wireless resource and obtain ascending wireless resource, send to the data block sending module;

Described data block sending module utilizes the ascending wireless resource that obtains to send data block to described data block receiver module.

Described data block receiver module is further used for when receiving data block, and notifying described ascending wireless resource scheduling module is former TBF dispatching uplink Radio Resource;

Described ascending wireless resource scheduling module is further used for when receiving the notice of data block receiver module transmission, is former TBF dispatching uplink Radio Resource and sends to described ascending wireless resource monitoring module with former scheduling frequency;

Described ascending wireless resource is monitored module, and the ascending wireless resource that is further used for listening to sends to the data block sending module;

Described data block sending module utilizes the ascending wireless resource receive, is to send data block to described data block receiver module on the up channel that distributes of former TBF at network side.

Described common signal channel distribution module shown in Figure 5 can also be further used for setting up public TBF on the common uplink channel;

Described data block sending module can utilize the ascending wireless resource that obtains to send data block to described data block receiver module on the public TBF that sets up.

Data block sending module shown in Figure 5 can also utilize the ascending wireless resource that obtains to send data block to described data block receiver module on former TBF.

Data block sending module in the system shown in Figure 5 can also be used for the identification information of former TBF is carried at AB, utilizes the ascending wireless resource that obtains to send to described data block receiver module on the public TBF that sets up;

Described data block receiver module is used for when receiving the AB that carries former TBF identification information, and notifying described ascending wireless resource scheduling module is former TBF dispatching uplink Radio Resource;

Described ascending wireless resource scheduling module is further used for when receiving the notice of data block receiver module transmission, is former TBF dispatching uplink Radio Resource and sends to described ascending wireless resource monitoring module with former scheduling frequency;

Described ascending wireless resource is monitored module, and the ascending wireless resource that is further used for listening to sends to the data block sending module;

Described data block sending module utilizes the ascending wireless resource receive, is to send data block to described data block receiver module on the up channel that distributes of former TBF at network side.

In a word, the above is preferred embodiment of the present invention only, is not to be used to limit protection scope of the present invention.Within the spirit and principles in the present invention all, any modification of being done, be equal to replacement, improvement etc., all should be included within protection scope of the present invention.

Claims (12)

1. the method for an ascending wireless resource scheduling is characterized in that, this method comprises the steps:

Network side distributes an above common uplink channel, and issues the ascending wireless resource of dispatching into mobile station MS by the common uplink channel that distributes;

Network side stops or is former data block stream TBF dispatching uplink Radio Resource with the frequency that is lower than former scheduling frequency, and MS determines to utilize former TBF when network side sends data block, MS utilizes the ascending wireless resource that obtains from the common uplink channel, sends data block to network side;

Network side is former TBF dispatching uplink Radio Resource after receiving the data block of MS transmission; MS listens to network side when being the ascending wireless resource of former TBF scheduling, is to send data block to network side on the up channel that distributes of former TBF at network side.

2. the method for claim 1, it is characterized in that described network side distributes after the common uplink channel, MS utilizes the ascending wireless resource that obtains from the common uplink channel, before network side sent data block, also comprise: network side sent to MS with the identification information of common uplink channel.

3. the method for claim 1, it is characterized in that, described MS utilizes the ascending wireless resource that obtains from the common uplink channel, sends data block to network side to be: MS utilizes the ascending wireless resource that obtains from the common uplink channel, sends data block to network side on former TBF.

4. the method for claim 1 is characterized in that, behind the described distribution common uplink channel, further comprises: set up public TBF on the common uplink channel;

Described MS utilizes the ascending wireless resource that obtains from the common uplink channel, sends data block to network side to be: MS utilizes the ascending wireless resource that obtains from the common uplink channel, sends data block to network side on public TBF.

5. method as claimed in claim 2 is characterized in that, behind the described distribution common uplink channel, further comprises: set up public TBF on the common uplink channel;

After described network side sent to MS with the identification information of common uplink channel, described MS utilized the ascending wireless resource that obtains from the common uplink channel, sent data block to network side and further comprised:

A1, network side stop or are former data block stream TBF dispatching uplink Radio Resource with the frequency that is lower than former scheduling frequency, and MS determines to utilize former TBF when network side sends data block, MS utilizes the ascending wireless resource that obtains from the common uplink channel, the identification information of former TBF is carried to insert among the pulse AB send to network side on public TBF;

When B1, network side receive the AB of public TBF transmission, know to be former TBF dispatching uplink Radio Resource;

C1, MS listen to network side when being the ascending wireless resource of former TBF scheduling, are to send data block to network side on the up channel that distributes of former TBF at network side.

6. method as claimed in claim 5 is characterized in that, described distribution common uplink channel is: it is the common uplink channel that network side distributes a packet associated control channel PACCH.

7. as each described method in the claim 1 to 6, it is characterized in that, describedly issue ascending wireless resource by the common uplink channel that distributes and be: the common uplink channel of network side by distributing, use the peak frequency that uplink state sign USF value is dispatched among the MS of this common uplink channel to issue USF value and timeslot number according to all.

8. as each described method in the claim 2 to 6, it is characterized in that described network side sends to MS with the identification information of common uplink channel and is: network side is carried at the identification information of common uplink channel in the up assignment messages and sends to MS.

9. the system of an ascending wireless resource scheduling, this system comprises: network side and mobile station MS is characterized in that described network side comprises: common signal channel distribution module, ascending wireless resource scheduling module and data block receiver module; Described MS comprises: ascending wireless resource is monitored module, notice scheduling Radio Resource module and data block sending module,

Described common signal channel distribution module is used to distribute an above common uplink channel, and is that the ascending wireless resource of MS scheduling is handed down to described ascending wireless resource and monitors module by the common uplink channel that distributes with described ascending wireless resource scheduling module;

Described notice scheduling Radio Resource module is monitored module with described ascending wireless resource and is linked to each other, be used for stopping or being former TBF dispatching uplink Radio Resource with the frequency that is lower than former scheduling frequency at network side, and MS determines to utilize former TBF when network side sends data block, monitor module from described ascending wireless resource and obtain ascending wireless resource, send to the data block sending module;

Described data block sending module, the ascending wireless resource that utilization is obtained sends data block to described data block receiver module, and utilize the ascending wireless resource receive, be to send data block to described data block receiver module on the up channel that distributes of former TBF at network side;

Described data block receiver module is used for when receiving data block, and notifying described ascending wireless resource scheduling module is former TBF dispatching uplink Radio Resource;

Described ascending wireless resource scheduling module is used for when receiving the notice of data block receiver module transmission, is former TBF dispatching uplink Radio Resource and sends to described ascending wireless resource monitoring module with former scheduling frequency;

Described ascending wireless resource is monitored module, and the ascending wireless resource that is used for listening to sends to the data block sending module.

10. system as claimed in claim 9 is characterized in that, described common signal channel distribution module is further used for setting up public TBF on the common uplink channel;

Described data block sending module utilizes the ascending wireless resource that obtains to send data block to described data block receiver module on the public TBF that sets up.

11. system as claimed in claim 9 is characterized in that, described data block sending module utilizes the ascending wireless resource that obtains to send data block to described data block receiver module on former TBF.

12. system as claimed in claim 9 is characterized in that,

Described data block sending module is further used for the identification information of former TBF is carried among the access pulse AB, utilizes the ascending wireless resource that obtains to send to described data block receiver module on the public TBF that sets up;

Described data block receiver module is further used for when receiving the AB that carries former TBF identification information, and notifying described ascending wireless resource scheduling module is former TBF dispatching uplink Radio Resource.

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