CN105188085A - Signaling access method and system - Google Patents

Abstract

The invention provides a signaling access method and system. The method comprises: obtaining a configured PS service resource distribution type of a current cell; and if the configured PS service resource distribution type of the current cell is dynamic frame division, carrying out signaling access to an H-carrier according to the load condition of the H-carrier. According to the signaling access method, during signaling access to the H-carrier, the configured PS service resource distribution type of the current cell is obtained and resource distribution depends on the PS service resource distribution type of a current cell; if the configured PS service resource distribution type of the current cell is the dynamic frame division, signaling access to the H-carrier is realized according to the load condition of the H-carrier. The signaling connection speed when the H-carrier of the cell does not overload can be guaranteed, and the congestion condition of the H-carrier is relieved and the perception of a user is ensured.

Description

A kind of signaling cut-in method and system

Technical field

The present invention relates to communication technical field, particularly relate to a kind of signaling cut-in method and system.

Background technology

Along with the development of network, operator is strongly required: TD SDMA (TimeDivision-SynchronousCodeDivisionMultipleAccess, TD-SCDMA) network only bears packet switching (PacketSwitching, PS) business, does not bear speech business.Therefore the cry about the pure H carrier wave of TD-SCDMA network (usually, H carrier wave refers to the carrier wave being specifically designed to data service) networking is more and more higher.

Therefore, need voice signaling and service needed by Generation Mobile Telecommunication System technology (2-Generation when carrying out networking planning, 2G) bear, G mobile communication (3rd-Generation, 3G) needs to bear PS signaling and PS business.

Existing signaling access strategy: do not distinguish and whether open frame for PS business and be tapped into mode, the signaling of all H of being linked into carrier waves adopts continuation mode to access (a frame point mode refers to that multi-user uses a certain resource in turn, and continuation mode refers to that same resource can only by a CU) without exception.Not only result in a large amount of PS signaling to be linked into H carrier wave in a continuous manner and to cause the congested of H carrier wave; And be that continuous user can not seize frame and divides user owing to seizing principle at present, if inadequate resource during signaling access, can not user be divided the frame accessed to seize, cause PS signaling call completing rate to decline, affect user awareness.

Summary of the invention

The invention provides a kind of signaling cut-in method and system, adopt continuation mode to access without exception to solve the signaling of existing signaling access strategy to all H of being linked into carrier waves, cause the problem that H carrier wave is congested.

In order to solve the problem, the invention discloses a kind of signaling cut-in method, comprising:

Obtain the PS traffic resource assignment type of current area configuration;

If the PS traffic resource assignment type of current area configuration is that dynamic frame divides, then according to the load condition of H carrier wave, signaling is linked into H carrier wave.

Preferably, if the PS traffic resource assignment type of described current area configuration is that dynamic frame divides, then according to the load condition of H carrier wave, signaling is linked into H carrier wave, comprises:

If the PS traffic resource assignment type of current area configuration is that dynamic frame divides, then judge H carrier wave whether excess load;

If non-excess load, then signaling is linked into H carrier wave continuously;

If excess load, then up with first preset largest frames divide multiple that signaling is linked into H carrier wave, descending successively with first preset largest frames divide multiple, second preset largest frames divide multiple that signaling is linked into H carrier wave.

Preferably, if the PS traffic resource assignment type of described current area configuration is that dynamic frame divides, then judges H carrier wave whether excess load, comprising:

Obtain the Load results of H carrier wave;

Load results and default load thresholding are compared;

If Load results is greater than default load thresholding, then determine H carrier wave excess load;

If Load results is less than or equal to default load thresholding, then determine the non-excess load of H carrier wave.

Preferably, the Load results of described acquisition H carrier wave, comprising:

Being divided by H carrier wave by the available basic resource unit of basic resource unit and H carrier wave, obtain the Load results of H carrier wave.

Preferably, before the PS traffic resource assignment type of described acquisition current area configuration, described method also comprises:

Judge whether signaling is linked into H carrier wave;

If access, then perform the operation of the PS traffic resource assignment type obtaining current area configuration;

If do not access, then according to the resource allocation policy of R4 carrier signalling, signaling is linked into R4 carrier wave.

Preferably, after the PS traffic resource assignment type of described acquisition current area configuration, described method also comprises:

If the PS traffic resource assignment type of current area configuration is continuous dispensing, then signaling is linked into H carrier wave continuously;

And/or,

If the PS traffic resource assignment type of current area configuration is that static frames is divided, then divide maximum multiple that signaling is linked into H carrier wave according to frame.

Correspondingly, the invention also discloses a kind of signaling connecting system, comprising:

Resource allocation type acquisition module, for obtaining the PS traffic resource assignment type of current area configuration;

First signaling access module, if be that dynamic frame divides for the PS traffic resource assignment type of current area configuration, is then linked into H carrier wave according to the load condition of H carrier wave by signaling.

Preferably, described first signaling access module, comprising:

Excess load judge module, if be that dynamic frame divides for the PS traffic resource assignment type of current area configuration, then judges H carrier wave whether excess load;

Continuous access module, if for the non-excess load of H carrier wave, then signaling is linked into H carrier wave continuously;

Up-downgoing access module, if for H carrier wave excess load, then up with first preset largest frames divide multiple that signaling is linked into H carrier wave, descending successively with first preset largest frames divide multiple, second preset largest frames divide multiple that signaling is linked into H carrier wave.

Preferably, described excess load judge module, comprising:

Load results acquisition module, for obtaining the Load results of H carrier wave;

Comparison module, for comparing Load results and default load thresholding;

Determination module, if be greater than default load thresholding for Load results, then determines H carrier wave excess load; If Load results is less than or equal to default load thresholding, then determine the non-excess load of H carrier wave.

Preferably, described Load results acquisition module being divided by H carrier wave by the available basic resource unit of basic resource unit and H carrier wave, the Load results of H carrier wave is obtained.

Preferably, described system also comprises:

Access judge module, for before the PS traffic resource assignment type of described resource allocation type acquisition module acquisition current area configuration, judges whether signaling is linked into H carrier wave;

If signaling is linked into H carrier wave, then described resource allocation type acquisition module performs the operation of the PS traffic resource assignment type obtaining current area configuration;

R4 carrier wave access module, if be not linked into H carrier wave for signaling, is then linked into R4 carrier wave according to the resource allocation policy of R4 carrier signalling by signaling.

Preferably, described system also comprises:

Second signaling access module, after obtaining the PS traffic resource assignment type of current area configuration at described resource allocation type acquisition module, if the PS traffic resource assignment type of current area configuration is continuous dispensing, is then linked into H carrier wave by signaling continuously;

And/or,

3rd signaling access module, after obtaining the PS traffic resource assignment type of current area configuration at described resource allocation type acquisition module, if the PS traffic resource assignment type of current area configuration is that static frames is divided, then divide maximum multiple that signaling is linked into H carrier wave according to frame.

Compared with background technology, the present invention includes following advantage:

When signaling access H carrier wave, obtain the PS traffic resource assignment type of current area configuration, carry out Resourse Distribute according to PS traffic resource assignment type, if the PS traffic resource assignment type of current area configuration is that dynamic frame divides, then according to the load condition of H carrier wave, signaling is linked into H carrier wave.Both can ensure the closing speed of the signaling when community H carrier wave non-excess load, and alleviate again the congestion situation of H carrier wave, ensure that the perception of user.

Accompanying drawing explanation

Fig. 1 is the flow chart of steps of a kind of signaling cut-in method in the embodiment of the present invention one;

Fig. 2 is the flow chart of steps of a kind of signaling cut-in method in the embodiment of the present invention two;

Fig. 3 is the flow chart of steps of a kind of signaling cut-in method in the embodiment of the present invention three;

Fig. 4 is the structural representation of a kind of signaling connecting system in the embodiment of the present invention four;

Fig. 5 is the structural representation of a kind of signaling connecting system in the embodiment of the present invention five.

Embodiment

For enabling above-mentioned purpose of the present invention, feature and advantage become apparent more, and below in conjunction with the drawings and specific embodiments, the present invention is further detailed explanation.

A kind of signaling cut-in method provided by the invention and system is introduced in detail below by enumerating several specific embodiment.

Embodiment one

Introduce a kind of signaling cut-in method that the embodiment of the present invention provides in detail.

With reference to Fig. 1, show the flow chart of steps of a kind of signaling cut-in method in the embodiment of the present invention.

Step 100, obtains the PS traffic resource assignment type of current area configuration.

The PS traffic resource assignment type of current area configuration can be divided into three kinds, is respectively continuous dispensing, static frames is divided and dynamic frame divides.

Wherein, i.e. " frame does not divide " continuous dispensing, is not now carried out signaling frame and is divided in H carrier wave, distributes continuous print wireless heterogeneous networks (RadioResourceControl, RRC).Existing network seldom has cell configuration PS business to adopt the resource allocation type of continuous dispensing, and the community only having customer volume little just can configure.

Static frames is divided and is namely directly carried out signaling frame according to " frame divides maximum multiple " at H carrier wave and divide.The community that all unlatching static frames are divided, all PS business are all divided multiple (frame divides maximum multiple) to carry out signaling frame with identical frame and are divided.

Dynamic frame divides needs to determine how signaling is linked into H carrier wave further according to the load condition of H carrier wave.Concrete load condition can be divided into excess load and non-excess load two kinds.

Step 102, if the PS traffic resource assignment type of current area configuration is that dynamic frame divides, is then linked into H carrier wave according to the load condition of H carrier wave by signaling.

Specifically according to the overload state of H carrier wave, signaling can be linked into H carrier wave, or according to the non-overload state of H carrier wave, signaling be linked into H carrier wave.

In sum, embodiment of the present invention technical scheme, when signaling access H carrier wave, obtain the PS traffic resource assignment type of current area configuration, Resourse Distribute is carried out according to PS traffic resource assignment type, if the PS traffic resource assignment type of current area configuration is that dynamic frame divides, then according to the load condition of H carrier wave, signaling is linked into H carrier wave.Both can ensure the closing speed of the signaling when community H carrier wave non-excess load, and alleviate again the congestion situation of H carrier wave, ensure that the perception of user.

Embodiment two

Introduce a kind of signaling cut-in method that the embodiment of the present invention provides in detail.

With reference to Fig. 2, show the flow chart of steps of a kind of signaling cut-in method in the embodiment of the present invention.

Step 200, judges whether signaling is linked into H carrier wave, if access, then performs step 202; If do not access, then perform step 204.

Step 202, obtains the PS traffic resource assignment type of current area configuration.

The PS traffic resource assignment type of current area configuration can be divided into three kinds, is respectively continuous dispensing, static frames is divided and dynamic frame divides.

Wherein, i.e. " frame does not divide " continuous dispensing, is not now carried out signaling frame and is divided in H carrier wave, distributes continuous print wireless heterogeneous networks (RadioResourceControl, RRC).Existing network seldom has cell configuration PS business to adopt the resource allocation type of continuous dispensing, and the community only having customer volume little just can configure.

Static frames is divided and is namely directly carried out signaling frame according to " frame divides maximum multiple " at H carrier wave and divide.The community that all unlatching static frames are divided, all PS business are all divided multiple (frame divides maximum multiple) to carry out signaling frame with identical frame and are divided.

Dynamic frame divides needs to determine how signaling is linked into H carrier wave further according to the load condition of H carrier wave.Concrete load condition can be divided into excess load and non-excess load two kinds.

Step 204, is linked into R4 carrier wave according to the resource allocation policy of R4 carrier signalling by signaling.

Usually, R4 carrier wave refers to the carrier wave being specifically designed to speech business or Low rate data traffic.

Step 206, if the PS traffic resource assignment type of current area configuration is that dynamic frame divides, is then linked into H carrier wave according to the load condition of H carrier wave by signaling.

Specifically according to the overload state of H carrier wave, signaling can be linked into H carrier wave, or according to the non-overload state of H carrier wave, signaling be linked into H carrier wave.

Preferably, described step 206 can comprise:

Step 2061, if the PS traffic resource assignment type of current area configuration is that dynamic frame divides, then judges H carrier wave whether excess load, if non-excess load, then and execution step 2062; If excess load, then perform step 2063.

Preferably, described step 2061 can comprise:

Step 611, obtains the Load results of H carrier wave.

Preferably, described step 611 can be: being divided by H carrier wave by the available basic resource unit of basic resource unit and H carrier wave, obtain the Load results of H carrier wave.

Step 612, compares Load results and default load thresholding, if Load results is greater than default load thresholding, then determines H carrier wave excess load; If Load results is less than or equal to default load thresholding, then determine the non-excess load of H carrier wave.

Step 2062, is linked into H carrier wave continuously by signaling.

Step 2063, up with first preset largest frames divide multiple that signaling is linked into H carrier wave, descending successively with first preset largest frames divide multiple, second preset largest frames divide multiple that signaling is linked into H carrier wave.

Community for unlatching dynamic frame divides: in the timesharing of H carrier signalling frame, if the non-excess load of H carrier wave, then adopt continuation mode access; If H carrier wave excess load, up employing largest frames divides multiple to access, and descending employing successively 2 times, 4 times frame point modes access.This is that general up largest frames divides multiple to be 2 times, and descending largest frames divides multiple to be 4 times because dynamic frame timesharing is opened in community.And the access strategy of dynamic frame timesharing PS, access in a continuous manner when the non-excess load of H carrier wave, uply when H carrier wave excess load to be tapped into 2 times of frames, descendingly adopt 2 times, 4 times frame point modes to access successively.

That is, described first presets largest frames divides multiple can be 2 times, and described second presets largest frames divides multiple can be 4 times.

Step 208, if the PS traffic resource assignment type of current area configuration is continuous dispensing, is then linked into H carrier wave by signaling continuously; And/or, if the PS traffic resource assignment type of current area configuration is that static frames is divided, then divide maximum multiple that signaling is linked into H carrier wave according to frame.

Because existing network seldom has configuration PS business to adopt the community of continuous dispensing, the community only having customer volume little just can be configured to the mode that PS business adopts continuous dispensing.Therefore for adopting the mode of continuous dispensing that signaling is linked into H carrier wave, H carrier wave not only can not have been caused congested but also the quick access of signaling can be ensured.

Owing to opening the community that static frames is divided, all PS business all divide multiple (frame divides maximum multiple) to perform with identical frame.In order to make signaling carry out multiplexing with the business of H carrier wave better, the signaling of access H carrier wave also divides multiple to access with the frame identical with PS business.Namely " frame divides maximum multiple " is adopted to access at H carrier wave.

It should be noted that, described step 208 and above-mentioned steps 206 can be coordination.

In sum, embodiment of the present invention technical scheme, when signaling access H carrier wave, obtain the PS traffic resource assignment type of current area configuration, Resourse Distribute is carried out according to PS traffic resource assignment type, if the PS traffic resource assignment type of current area configuration is that dynamic frame divides, then according to the load condition of H carrier wave, signaling is linked into H carrier wave.Both can ensure the closing speed of the signaling when community H carrier wave non-excess load, and alleviate again the congestion situation of H carrier wave, ensure that the perception of user.

Embodiment three

Introduce a kind of signaling cut-in method that the embodiment of the present invention provides in detail.

With reference to Fig. 3, show the flow chart of steps of a kind of signaling cut-in method in the embodiment of the present invention.

Step 300, signaling accesses.

Step 302, judges whether signaling is linked into H carrier wave, if so, then performs step 304; If not, then step 306 is performed.

Step 304, obtains the PS traffic resource assignment mode of current area configuration.

If PS traffic resource assignment mode is continuous dispensing, then perform step 308; If PS traffic resource assignment mode is static allocation, then perform step 310; If PS traffic resource assignment mode is dynamic assignment, then perform step 312.

Step 306, distributes according to the resource allocation policy of R4 carrier signalling.

Step 308, signaling is linked into H carrier wave in a continuous manner.

Step 310, signaling divides multiple to be linked into H carrier wave with largest frames.

Step 312, signaling is linked into H carrier wave according to H carrier load situation.

In sum, embodiment of the present invention technical scheme, when signaling access H carrier wave, obtain the PS traffic resource assignment type of current area configuration, Resourse Distribute is carried out according to PS traffic resource assignment type, if the PS traffic resource assignment type of current area configuration is that dynamic frame divides, then according to the load condition of H carrier wave, signaling is linked into H carrier wave.Both can ensure the closing speed of the signaling when community H carrier wave non-excess load, and alleviate again the congestion situation of H carrier wave, ensure that the perception of user.

Embodiment four

Introduce a kind of signaling connecting system that the embodiment of the present invention provides in detail.

With reference to Fig. 4, show the structural representation of a kind of signaling connecting system in the embodiment of the present invention.

Described system can comprise: resource allocation type acquisition module 400, first signaling access module 402.

Introduce the relation between the function of each module and each module below respectively in detail.

Resource allocation type acquisition module 400, for obtaining the PS traffic resource assignment type of current area configuration.

First signaling access module 402, if be that dynamic frame divides for the PS traffic resource assignment type of current area configuration, is then linked into H carrier wave according to the load condition of H carrier wave by signaling.

In sum, embodiment of the present invention technical scheme, when signaling access H carrier wave, obtain the PS traffic resource assignment type of current area configuration, Resourse Distribute is carried out according to PS traffic resource assignment type, if the PS traffic resource assignment type of current area configuration is that dynamic frame divides, then according to the load condition of H carrier wave, signaling is linked into H carrier wave.Both can ensure the closing speed of the signaling when community H carrier wave non-excess load, and alleviate again the congestion situation of H carrier wave, ensure that the perception of user.

Embodiment five

Introduce a kind of signaling connecting system that the embodiment of the present invention provides in detail.

With reference to Fig. 5, show the structural representation of a kind of signaling connecting system in the embodiment of the present invention.

Described system can comprise: access judge module 500, resource allocation type acquisition module 502, first signaling access module 504, second signaling access module 506 and/or the 3rd signaling access module 508, and, R4 carrier wave access module 510.

Wherein, described first signaling access module 504 can comprise: excess load judge module 5041, continuous access module 5042, up-downgoing access module 5043.

Wherein, described excess load judge module 5041 can comprise: Load results acquisition module 411, comparison module 412, determination module 413.

Introduce the relation between the function of each module and each module below respectively in detail.

Access judge module 500, for obtain at described resource allocation type acquisition module 502 current area configuration PS traffic resource assignment type before, judge whether signaling is linked into H carrier wave.

If signaling is linked into H carrier wave, then described resource allocation type acquisition module 502 performs the operation of the PS traffic resource assignment type obtaining current area configuration.

R4 carrier wave access module 510, if be not linked into H carrier wave for signaling, is then linked into R4 carrier wave according to the resource allocation policy of R4 carrier signalling by signaling.

Resource allocation type acquisition module 502, for obtaining the PS traffic resource assignment type of current area configuration.

First signaling access module 504, if be that dynamic frame divides for the PS traffic resource assignment type of current area configuration, is then linked into H carrier wave according to the load condition of H carrier wave by signaling.

Preferably, described first signaling access module 504 can comprise:

Excess load judge module 5041, if be that dynamic frame divides for the PS traffic resource assignment type of current area configuration, then judges H carrier wave whether excess load.

Preferably, described excess load judge module 5041, can comprise:

Load results acquisition module 411, for obtaining the Load results of H carrier wave.

Preferably, described Load results acquisition module 411 can being divided by H carrier wave by the available basic resource unit of basic resource unit and H carrier wave, obtains the Load results of H carrier wave.

Comparison module 412, for comparing Load results and default load thresholding.

Determination module 413, if be greater than default load thresholding for Load results, then determines H carrier wave excess load; If Load results is less than or equal to default load thresholding, then determine the non-excess load of H carrier wave.

Continuous access module 5042, if for the non-excess load of H carrier wave, then signaling is linked into H carrier wave continuously.

Up-downgoing access module 5043, if for H carrier wave excess load, then up with first preset largest frames divide multiple that signaling is linked into H carrier wave, descending successively with first preset largest frames divide multiple, second preset largest frames divide multiple that signaling is linked into H carrier wave.

Second signaling access module 506, for obtain at described resource allocation type acquisition module 502 current area configuration PS traffic resource assignment type after, if the PS traffic resource assignment type of current area configuration is continuous dispensing, then signaling is linked into H carrier wave continuously.

And/or,

3rd signaling access module 508, for obtain at described resource allocation type acquisition module 502 current area configuration PS traffic resource assignment type after, if the PS traffic resource assignment type of current area configuration is that static frames is divided, then divide maximum multiple that signaling is linked into H carrier wave according to frame.

In sum, embodiment of the present invention technical scheme, when signaling access H carrier wave, obtain the PS traffic resource assignment type of current area configuration, Resourse Distribute is carried out according to PS traffic resource assignment type, if the PS traffic resource assignment type of current area configuration is that dynamic frame divides, then according to the load condition of H carrier wave, signaling is linked into H carrier wave.Both can ensure the closing speed of the signaling when community H carrier wave non-excess load, and alleviate again the congestion situation of H carrier wave, ensure that the perception of user.

For system embodiment, due to itself and embodiment of the method basic simlarity, so description is fairly simple, relevant part illustrates see the part of embodiment of the method.

Each embodiment in this specification all adopts the mode of going forward one by one to describe, and what each embodiment stressed is the difference with other embodiments, between each embodiment identical similar part mutually see.

A kind of signaling the cut-in method above embodiment of the present invention provided and system, be described in detail, apply specific case herein to set forth principle of the present invention and execution mode, the explanation of above embodiment just understands method of the present invention and core concept thereof for helping; Meanwhile, for one of ordinary skill in the art, according to thought of the present invention, all will change in specific embodiments and applications, in sum, this description should not be construed as limitation of the present invention.

Claims (12)

1. a signaling cut-in method, is characterized in that, comprising:

Obtain the PS traffic resource assignment type of current area configuration;

If the PS traffic resource assignment type of current area configuration is that dynamic frame divides, then according to the load condition of H carrier wave, signaling is linked into H carrier wave.

2. method according to claim 1, is characterized in that, if the PS traffic resource assignment type of described current area configuration is that dynamic frame divides, then according to the load condition of H carrier wave, signaling is linked into H carrier wave, comprises:

If the PS traffic resource assignment type of current area configuration is that dynamic frame divides, then judge H carrier wave whether excess load;

If non-excess load, then signaling is linked into H carrier wave continuously;

If excess load, then up with first preset largest frames divide multiple that signaling is linked into H carrier wave, descending successively with first preset largest frames divide multiple, second preset largest frames divide multiple that signaling is linked into H carrier wave.

3. method according to claim 2, is characterized in that, if the PS traffic resource assignment type of described current area configuration is that dynamic frame divides, then judges H carrier wave whether excess load, comprising:

Obtain the Load results of H carrier wave;

Load results and default load thresholding are compared;

If Load results is greater than default load thresholding, then determine H carrier wave excess load;

If Load results is less than or equal to default load thresholding, then determine the non-excess load of H carrier wave.

4. method according to claim 3, is characterized in that, the Load results of described acquisition H carrier wave, comprising:

Being divided by H carrier wave by the available basic resource unit of basic resource unit and H carrier wave, obtain the Load results of H carrier wave.

5. method according to claim 1, is characterized in that, before the PS traffic resource assignment type of described acquisition current area configuration, described method also comprises:

Judge whether signaling is linked into H carrier wave;

If access, then perform the operation of the PS traffic resource assignment type obtaining current area configuration;

If do not access, then according to the resource allocation policy of R4 carrier signalling, signaling is linked into R4 carrier wave.

6. method according to claim 1, is characterized in that, after the PS traffic resource assignment type of described acquisition current area configuration, described method also comprises:

If the PS traffic resource assignment type of current area configuration is continuous dispensing, then signaling is linked into H carrier wave continuously;

And/or,

If the PS traffic resource assignment type of current area configuration is that static frames is divided, then divide maximum multiple that signaling is linked into H carrier wave according to frame.

7. a signaling connecting system, is characterized in that, comprising:

Resource allocation type acquisition module, for obtaining the PS traffic resource assignment type of current area configuration;

First signaling access module, if be that dynamic frame divides for the PS traffic resource assignment type of current area configuration, is then linked into H carrier wave according to the load condition of H carrier wave by signaling.

8. system according to claim 7, is characterized in that, described first signaling access module, comprising:

Excess load judge module, if be that dynamic frame divides for the PS traffic resource assignment type of current area configuration, then judges H carrier wave whether excess load;

Continuous access module, if for the non-excess load of H carrier wave, then signaling is linked into H carrier wave continuously;

Up-downgoing access module, if for H carrier wave excess load, then up with first preset largest frames divide multiple that signaling is linked into H carrier wave, descending successively with first preset largest frames divide multiple, second preset largest frames divide multiple that signaling is linked into H carrier wave.

9. system according to claim 8, is characterized in that, described excess load judge module, comprising:

Load results acquisition module, for obtaining the Load results of H carrier wave;

Comparison module, for comparing Load results and default load thresholding;

Determination module, if be greater than default load thresholding for Load results, then determines H carrier wave excess load; If Load results is less than or equal to default load thresholding, then determine the non-excess load of H carrier wave.

10. system according to claim 9, is characterized in that, described Load results acquisition module being divided by H carrier wave by the available basic resource unit of basic resource unit and H carrier wave, obtains the Load results of H carrier wave.

11. systems according to claim 7, is characterized in that, described system also comprises:

Access judge module, for before the PS traffic resource assignment type of described resource allocation type acquisition module acquisition current area configuration, judges whether signaling is linked into H carrier wave;

If signaling is linked into H carrier wave, then described resource allocation type acquisition module performs the operation of the PS traffic resource assignment type obtaining current area configuration;

R4 carrier wave access module, if be not linked into H carrier wave for signaling, is then linked into R4 carrier wave according to the resource allocation policy of R4 carrier signalling by signaling.

12. systems according to claim 7, is characterized in that, described system also comprises:

Second signaling access module, after obtaining the PS traffic resource assignment type of current area configuration at described resource allocation type acquisition module, if the PS traffic resource assignment type of current area configuration is continuous dispensing, is then linked into H carrier wave by signaling continuously;

And/or,

3rd signaling access module, after obtaining the PS traffic resource assignment type of current area configuration at described resource allocation type acquisition module, if the PS traffic resource assignment type of current area configuration is that static frames is divided, then divide maximum multiple that signaling is linked into H carrier wave according to frame.