CN102548005A - Method and equipment for scheduling wireless time frequency resources in wireless communication system - Google Patents

Abstract

The invention relates to a method and equipment for scheduling wireless time frequency resources in a wireless communication system. The method comprises the steps of obtaining user data to be transferred to at least one user equipment by the equipment; and subsequently, identifying the user data type of the user data, and scheduling the wireless time frequency resources for the user data according to the user data type and the wireless bearing priority. The method and the equipment have the advantages of avoiding the influence of certain high-flow services such as Emule, BT (BitTorrent), FTP (file transfer protocol) and the like on the normal user data, and improving the network service quality.

Description

The method and apparatus of the wireless running time-frequency resource of scheduling in wireless communication system

Technical field

The present invention relates to wireless communication field, relate in particular to the method and apparatus of the wireless running time-frequency resource of scheduling in wireless communication system.

Background technology

It is predicted to have increasing service application meeting in new Radio Access Network (E-UTRAN), to use, for example support LTE and Wimax system of high data rate and spectrum efficiency etc.Because some is applied in a burst or a duration may produce very big flow; Such as electric donkey, BT and FTP so will bring top load to network; And influencing those has normal discharge or guarantees bit rate (guaranteed bit rate, other services GBR).

In order to address this problem; Existing solution based on the LTE agreement is by strategy and charging rule functions module (Police and Charging Rules Function; PCRF) characteristic of the Qos class letter symbol (QCI) of standard is provided; This QCI characteristic comprises resource type (GBR:guaranteed bit rate or non--GBR:non guaranteed bit rate), especially Packet Delay Budget (PDB) and bag wrong Loss Rate (PELR), specifically can see table one.These parameters can be used as the part of base station (eNodeB) input parameter, are used to dispatch the running time-frequency resource of air interface.

For example, eNodeB utilizes following function calculation radio bearer Qos priority: Wu=F (resource type (non--GBR or GBR), priority, other factors) earlier, and wherein, other factors are flow sizes, throughput or the like.Subsequently, eNodeB can dispatch the running time-frequency resource on the air interface based on Wu.

Yet, in aforesaid way, if a kind of service is that (RadioAccess Bear, RAB), and other services are services such as Web service, email to electric donkey RAB, but the service of electric donkey has identical priority and non--GRB with other services.So, under all identical situation of the channel condition of all services, electric donkey service will utilize most of resources.If also based on the considering of flow size and priority, then electric donkey service may have a strong impact on GBR and serve the weight of Qos.

Table one:

Summary of the invention

The purpose of this invention is to provide a kind of method and apparatus of in wireless communication system, dispatching wireless running time-frequency resource.

According to an aspect of the present invention, a kind of method of in wireless communication system, dispatching wireless running time-frequency resource is provided, wherein, this method may further comprise the steps:

A obtains the user data of waiting to be transmitted at least one subscriber equipment;

B discerns the user data type of said user data;

C comes to be the wireless running time-frequency resource of said scheduling user data according to said user data type and radio bearer priority.。

According to another aspect of the present invention, a kind of equipment of in wireless communication system, dispatching wireless running time-frequency resource is provided also, wherein, has comprised:

Deriving means is used to obtain the user data of waiting to be transmitted at least one subscriber equipment;

Recognition device is used to discern the user data type of said user data;

Dispatching device is used for to be the wireless running time-frequency resource of said scheduling user data according to said user data type and radio bearer priority.。

Compared with prior art, the present invention has the following advantages: can avoid some big traffic service, like electric donkey, BT, FTP etc., to the influence of normal user data, improve network service quality.

Description of drawings

Through reading the detailed description of doing with reference to following accompanying drawing that non-limiting example is done, it is more obvious that other features, objects and advantages of the present invention will become:

Fig. 1 is the wireless communication system topology figure of one aspect of the invention;

Fig. 2 is the flow chart of the method for wireless running time-frequency resource of in wireless communication system, dispatching of one aspect of the invention;

Fig. 3 is the method flow diagram of in wireless communication system, dispatching wireless running time-frequency resource of another aspect of the present invention;

Fig. 4 is the method flow diagram of in wireless communication system, dispatching wireless running time-frequency resource of another aspect of the present invention;

Fig. 5 is the equipment sketch map of in wireless communication system, dispatching wireless running time-frequency resource of one aspect of the invention;

Fig. 6 is the equipment sketch map of in wireless communication system, dispatching wireless running time-frequency resource of another aspect of the present invention;

Fig. 7 is the equipment sketch map of in wireless communication system, dispatching wireless running time-frequency resource of another aspect of the present invention;

Same or analogous Reference numeral is represented same or analogous parts in the accompanying drawing.

Embodiment

Below in conjunction with accompanying drawing the present invention is described in further detail.

Fig. 1 is wireless communication system topology figure of the present invention.Said wireless communication system comprises: subscriber equipment 11, subscriber equipment 12 ... subscriber equipment 1M, equipment 2, gateway 3, and core net.Wherein, subscriber equipment 11, subscriber equipment 12 ... subscriber equipment 1M can be any can with the communication product of base station communication, include but not limited to: mobile phone, PDA etc.; Said equipment 2 includes but not limited to: e-NodeB, network controller etc.; Said gateway 3 is connected with core net, is used for each server with said core net, for example, server 1, server 2 ... server 1N communication.Each server is respectively applied for services such as electric donkey, BT, FTP, web proxy, Web are provided.Said wireless communication system includes but not limited to: 3G, LTE or WiMAX system etc.

Fig. 2 is the flow chart of the method for wireless running time-frequency resource of in wireless communication system, dispatching of one aspect of the invention.Wherein, subscriber equipment 1 can be subscriber equipment 11, subscriber equipment 12 ... one or more among the subscriber equipment 1M, server 4 can be server 1, server 2 ... one or more among the server 1N, equipment 2 is e-NodeB.

Concrete, in step S1, subscriber equipment 1 is sent to gateway 3 with access request through equipment 2.Wherein, through human-computer interaction device's input, said human-computer interaction device includes but not limited to access request: keyboard, felt pen, touch-screen etc. by the user who uses subscriber equipment 1.For example, use the user A of subscriber equipment 11, be through keyboard input reference request 1: Www.ftp11111.comUse the user B of subscriber equipment 12 to be through felt pen input reference request 2: Www.2222.com... the user C of use subscriber equipment 1I through the access request I of keyboard input is: Www.3333.comThus, subscriber equipment 11, subscriber equipment 12 ... subscriber equipment 1I is sent to gateway 3 with access request separately through equipment 2 separately.

Then, in step S2, gateway 3 is sent to server with the access request that each subscriber equipment is sent to.For example, gateway 3 is sent to access request 1 Www.ftp11111.comPairing server for example, is server 41; Gateway 3 is sent to access request 2 Www.2222.comPairing server for example, is server 42; ... gateway 3 is sent to access request I Www.3333.comPairing server for example, is server 4N.

Then, in step S3, each server sends back gateway 3 according to corresponding access request with the needed user data of each subscriber equipment.For example, server 41 will Www.ftp11111.comPairing user data is passed gateway 3 back; Server 42 will Www.2222.comPairing user data is passed gateway 3 back; ... server 4N will Www.3333.comPairing user data is passed gateway 3 back.

Then, in step S4, each user data that gateway 3 will receive sends back equipment 2.For example, gateway 3 will Www.ftp11111.comPairing user data, Www.2222.comPairing user data ... Www.3333.comPairing user data is passed equipment 2 back.

Then, in step S5, equipment 2 obtains the user data of waiting to be transmitted at least one subscriber equipment.For example, the user data that equipment 2 receives from gateway 3, for example, Www.ftp11111.comPairing user data, Www.2222.comPairing user data ... Www.3333.comPairing user data etc.

As a kind of optimal way, equipment 2 receives the user data from gateway 3 through the S1 interface.Need to prove, the mode that equipment 2 obtains the user data that is transmitted at least one subscriber equipment be not with shown in exceed, for example, if equipment 2 is network controller, then it can obtain user data etc. through affiliated base station.

Then, in step S6, the user data type of equipment 2 each user data of identification.Wherein, said user data type includes but not limited to: electric donkey, BT, FTP, web proxy, Web etc.

At last, in step S7, equipment 2 comes to be the wireless running time-frequency resource of said scheduling user data according to said user data type and radio bearer priority.

Fig. 3 is the flow chart of the method for wireless running time-frequency resource of in wireless communication system, dispatching of another aspect of the present invention.

Concrete, step S1 to S5 details in the embodiment shown in Figure 2, comprises by reference at this, no longer repeats.

Then, in step S6 ', the port information that equipment 2 comprises according to user data is discerned said user data type.Wherein, said port comprises: target port or source port; Said target port or source port information include but not limited to: the port that 1) is used for electric donkey service: 4662; 2) be used for the port that BT serves: 6881-6889; 3) be used for the port that FTP serves: 21; 4) be used for the port of the service of web proxy: 8080; 5) be used for the port of Web service: 80 etc.

For example, equipment 2 bases Www.ftp11111.comThe port information that comprises in the pairing user data: 21, discerning this user data type is FTP service type data; Equipment 2 bases Www.2222.comThe port information of pairing user data: 80, discerning this user data type is Web service type data; ... equipment 2 bases Www.3333.comThe port information of pairing user data: 80, discern this user data type and also be Web service type data.

Then; In step S71; (Radio Access Bear, RAB) whether quantity exceeds and the corresponding predetermined threshold of said user data type with the ratio of total radio bearer quantity the radio bearer of non-GBR in the equipment 2 judges data (nonguaranteed bit rate).

As a kind of optimal way, for electric donkey service type data, predetermined threshold is: 0.2; For BT service type data, predetermined threshold is: 0.2; For FTP service type data, predetermined threshold is: 0.4; For web proxy service type data, predetermined threshold is: 0.7; For Web service type data, predetermined threshold is: 0.9.

For example, exist Www.ftp11111.comPairing user data, Www.2222.comPairing user data ... Www.3333.comIn the pairing user data, equipment 2 is judged Www.ftp11111.comThe radio bearer quantity of non-GBR in the pairing user data is 0.5 with the ratio of total radio bearer quantity; Www.2222.comThe radio bearer quantity of non-GBR in the pairing user data is 0.2 with the ratio of total radio bearer quantity; Www.3333.comThe radio bearer quantity of non-GBR in the pairing user data is 0.6 with the ratio of total radio bearer quantity.

At last, in step S72, when said ratio exceeds said predetermined threshold, equipment 2 comes to be the corresponding wireless running time-frequency resource of said scheduling user data based on corresponding predetermined penalty factor and said radio bearer priority.

As a kind of optimal way, for electric donkey service type data, predetermined penalty factor is: 0.01; For BT service type data, predetermined penalty factor is: 0.01; For FTP service type data, predetermined penalty factor is: 0.1; For web proxy service type data, predetermined penalty factor is: 0.7; For Web service type data, predetermined penalty factor is: 0.9.

For example, for Www.ftp11111.comPairing user data; Its type is FTP service type data; The radio bearer quantity of non-GBR wherein is 0.5 with the ratio of total radio bearer quantity; So equipment 2 is based on being scheduled to penalty factor accordingly: 0.1, come to be the corresponding wireless running time-frequency resource of this scheduling user data with said radio bearer priority; For Www.2222.comPairing user data; Its data type is Web service type data; The radio bearer quantity of non-GBR wherein is 0.2 (being lower than predetermined threshold 0.9) with the ratio of total radio bearer quantity, so equipment 2 is directly dispatched corresponding wireless running time-frequency resource based on radio bearer priority; For Www.3333.comPairing user data; Its data type also is Web service type data; The radio bearer quantity of non-GBR wherein is 0.6 (being lower than predetermined threshold 0.9) with the ratio of total radio bearer quantity, so equipment 2 is also directly dispatched corresponding wireless running time-frequency resource based on radio bearer priority.

Fig. 4 is the flow chart of the method for wireless running time-frequency resource of in wireless communication system, dispatching of another aspect of the present invention.

Concrete, step S1 to S5, S6 ', and S71 detail in the embodiment shown in fig. 3, comprise by reference at this, no longer repeat.

Then, in step S721, when said ratio exceeds said predetermined threshold, equipment 2 is adjusted the radio bearer Qos priority of user data according to following formula:

Wu '=Wu* Δ penalty factor,

Wherein, Wu comprises existing radio bearer Qos priority computing function.For example:

Wu=F (resource type (non--GBR or GBR), priority, other factors), wherein, other factors include but not limited to: flow size, throughput etc.

But, it should be appreciated by those skilled in the art that the existing method of calculating radio bearer Qos priority is not be listed as limit.

For example, for Www.ftp11111.comPairing user data, it is 4 that equipment 2 calculates Wu based on existing radio bearer Qos priority computing function; For Www.2222.comPairing user data, it is 2 that equipment 2 calculates Wu based on existing radio bearer Qos priority computing function; For Www.3333.comPairing user data, it is 3 that equipment 2 calculates Wu based on existing radio bearer Qos priority computing function; And for Www.ftp11111.comPairing user data, its penalty factor are 0.1, and for Www.2222.comPairing user data reaches Www.3333.comPairing user data does not all have penalty factor, so equipment is based on penalty factor 0.1 adjustment Www.ftp11111.comThe radio bearer Qos priority of pairing user data is: 4*0.1=0.4.

At last, in step S722, equipment 2 comes to be the wireless running time-frequency resource of said scheduling user data based on the radio bearer Qos priority of being adjusted.For example, equipment 2 based on Www.3333.comThe radio bearer Qos priority of pairing user data: 3, Www.2222.comThe radio bearer Qos priority of pairing user data: 2, reach Www.ftp11111.comThe radio bearer Qos priority 0.4 of pairing user data is the wireless running time-frequency resource of each scheduling user data.

Fig. 5 is the equipment sketch map of in wireless communication system, dispatching wireless running time-frequency resource of one aspect of the invention.Wherein, equipment 2 comprises: deriving means 21, recognition device 22, and dispatching device 23; Subscriber equipment 1 can be subscriber equipment 11, subscriber equipment 12 ... one or more among the subscriber equipment 1M, server 4 can be server 1, server 2 ... one or more among the server 1N.

Concrete, subscriber equipment 1 is sent to gateway 3 with access request through equipment 2 earlier.Wherein, through human-computer interaction device's input, said human-computer interaction device includes but not limited to access request: keyboard, felt pen, touch-screen etc. by the user who uses subscriber equipment 1.For example, use the user A of subscriber equipment 11, be through keyboard input reference request 1: Www.ftp11111.comUse the user B of subscriber equipment 12 to be through felt pen input reference request 2: Www.2222.com... the user C of use subscriber equipment 1I through the access request I of keyboard input is: Www.3333.comThus, subscriber equipment 11, subscriber equipment 12 ... subscriber equipment 1I is sent to gateway 3 with access request separately through equipment 2 separately.

Then, gateway 3 is sent to server with the access request that each subscriber equipment is sent to.For example, gateway 3 is sent to access request 1 Www.ftp11111.comPairing server, for example, for clothes are equipped with device 41; Gateway 3 is sent to access request 2 Www.2222.comPairing server for example, is server 42; ... gateway 3 is sent to access request I Www.3333.comPairing server for example, is server 4N.

Then, each server sends back gateway 3 according to corresponding access request with the needed user data of each subscriber equipment.For example, device 41 will fully for clothes Www.ftp11111.comPairing user data is passed gateway 3 back; Server 42 will Www.2222.comPairing user data is passed gateway 3 back; ... server 4N will Www.3333.comPairing user data is passed gateway 3 back.

Then, gateway 3 each user data that will receive sends back equipment 2.For example, gateway 3 will Www.ftp11111.comPairing user data, Www.2222.comPairing user data ... Www.3333.comPairing user data is passed equipment 2 back.

Then, deriving means 21 obtains the user data of waiting to be transmitted at least one subscriber equipment.For example, the user data that deriving means 21 receives from gateway 3, for example, Www.ftp11111.comPairing user data, Www.2222.comPairing user data ... Www.3333.comPairing user data etc.

As a kind of optimal way, deriving means 21 receives the user data from gateway 3 through the S1 interface.Need to prove, the mode that deriving means 21 obtains the user data that is transmitted at least one subscriber equipment be not with shown in exceed, for example, if equipment 2 is network controller, then deriving means 21 can obtain user data etc. through affiliated base station.

Then, the user data type of recognition device 22 each user data of identification.Wherein, said user data type includes but not limited to: electric donkey service type data, BT service type data, FTP service type data, web proxy service type data, Web service type data etc.

At last, dispatching device 23 comes to be the wireless running time-frequency resource of said scheduling user data according to said user data type and radio bearer priority.

Fig. 6 is the equipment sketch map of in wireless communication system, dispatching wireless running time-frequency resource of another aspect of the present invention.Wherein, equipment 2 comprises: deriving means 21, recognition device 22, and dispatching device 23; Said dispatching device 23 comprises again: the judgment means 231 and first dispatching device 232.

Concrete, the process that deriving means 21 obtains the user data of waiting to be transmitted at least one subscriber equipment details in the embodiment shown in fig. 5, comprises by reference at this, no longer repeats.

Then, the port information that comprises according to user data of recognition device 22 is discerned said user data type.Wherein, said port comprises: target port or source port; Said target port or source port information include but not limited to: the port that 1) is used for electric donkey service: 4662; 2) be used for the end that BT serves: 6881-6889; 3) be used for the port that FTP serves: 21; 4) be used for the port of the service of web proxy: 8080; 5) be used for the port of Web service: 80 etc.

For example, recognition device 22 bases Www.ftp11111.comThe port information that comprises in the pairing user data: 21, discerning this user data type is FTP service type data; Recognition device 22 bases Www.2222.comThe port information of pairing user data: 80, discerning this user data type is Web service type data; ... recognition device 22 bases Www.3333.comThe port information of pairing user data: 80, discern this user data type and also be Web service type data.

Then; Radio bearer (the Radio Access Bear of non-GBR in the judgment means 231 judges data (non guaranteed bitrate); RAB) quantity with, whether the ratio of total radio bearer quantity exceeds and the corresponding predetermined threshold of said user data type.

As a kind of optimal way, for electric donkey service type data, predetermined threshold is: 0.2; For BT service type data, predetermined threshold is: 0.2; For FTP service type data, predetermined threshold is: 0.4; For web proxy service type data, predetermined threshold is: 0.7; For Web service type data, predetermined threshold is: 0.9.

For example, exist Www.ftp11111.comPairing user data, Www.2222.comPairing user data ... Www.3333.comIn the pairing user data, judgment means 231 is judged Www.ftp11111.comThe radio bearer quantity of non-GBR in the pairing user data is 0.5 with the ratio of total radio bearer quantity; Www.2222.comThe radio bearer quantity of non-GBR in the pairing user data is 0.2 with the ratio of total radio bearer quantity; Www.3333.comThe radio bearer quantity of non-GBR in the pairing user data is 0.6 with the ratio of total radio bearer quantity.

At last, when said ratio exceeds said predetermined threshold, first dispatching device 232 comes to be the corresponding wireless running time-frequency resource of said scheduling user data based on corresponding predetermined penalty factor and said radio bearer priority.

As a kind of optimal way, for electric donkey service type data, predetermined penalty factor is: 0.01; For BT service type data, predetermined penalty factor is: 0.01; For FTP service type data, predetermined penalty factor is: 0.1; For web proxy service type data, predetermined penalty factor is: 0.7; For Web service type data, predetermined penalty factor is: 0.9.

For example, for Www.ftp11111.comPairing user data; Its type is FTP service type data; The radio bearer quantity of non-GBR wherein is 0.5 with the ratio of total radio bearer quantity; So first dispatching device 232 is based on being scheduled to penalty factor accordingly: 0.1, come to be the corresponding wireless running time-frequency resource of this scheduling user data with said radio bearer priority; For Www.2222.comPairing user data; Its data type is Web service type data; The radio bearer quantity of non-GBR wherein is 0.2 (being lower than predetermined threshold 0.9) with the ratio of total radio bearer quantity, so first dispatching device 232 is directly dispatched corresponding wireless running time-frequency resource based on radio bearer priority; For Www.3333.comPairing user data; Its data type also is Web service type data; The radio bearer quantity of non-GBR wherein is 0.6 (being lower than predetermined threshold 0.9) with the ratio of total radio bearer quantity, so first dispatching device 232 is also directly dispatched corresponding wireless running time-frequency resource based on radio bearer priority.

Fig. 7 is the equipment sketch map of in wireless communication system, dispatching wireless running time-frequency resource of another aspect of the present invention.Wherein, equipment 2 comprises: deriving means 21, recognition device 22, and dispatching device 23; Said dispatching device 23 comprises again: the judgment means 231 and first dispatching device 232; Said first dispatching device 232 comprises again: the adjusting device 2321 and second dispatching device 2322.

Concrete, the course of work of deriving means 21, recognition device 22 details in the embodiment shown in fig. 6, comprises by reference at this, no longer repeats.

Then, when said ratio exceeds said predetermined threshold, adjusting device 2321 is adjusted the radio bearer Qos priority of user data according to following formula:

Wu '=Wu* Δ penalty factor,

Wherein, Wu comprises existing radio bearer Qos priority computing function.For example:

Wu=F (resource type (non--GBR or GBR), priority, other factors), wherein, other factors include but not limited to: flow size, throughput etc.

But, it should be appreciated by those skilled in the art that the existing method of calculating radio bearer Qos priority is not be listed as limit.

For example, for Www.ftp11111.comPairing user data, it is 4 that adjusting device 2321 calculates Wu based on existing radio bearer Qos priority computing function; For Www.2222.comPairing user data, it is 2 that adjusting device 2321 calculates Wu based on existing radio bearer Qos priority computing function; For Www.3333.comPairing user data, it is 3 that adjusting device 2321 calculates Wu based on existing radio bearer Qos priority computing function; And for Www.ftp11111.comPairing user data, its penalty factor are 0.1, and for Www.2222.comPairing user data reaches Www.3333.comPairing user data does not all have penalty factor, so adjusting device 2321 is based on penalty factor 0.1 adjustment Www.ftp11111.comThe radio bearer Qos priority of pairing user data is: 4*0.1=0.4.

At last, in step S722, second dispatching device 2322 comes to be the wireless running time-frequency resource of said scheduling user data based on the radio bearer Qos priority of being adjusted.For example, second dispatching device 2322 based on Www.3333.comThe radio bearer Qos priority of pairing user data: 3, Www.2222.comThe radio bearer Qos priority of pairing user data: 2, reach Www.ftp11111.comThe radio bearer Qos priority 0.4 of pairing user data is the wireless running time-frequency resource of each scheduling user data.

To those skilled in the art, obviously the invention is not restricted to the details of above-mentioned example embodiment, and under the situation that does not deviate from spirit of the present invention or essential characteristic, can realize the present invention with other concrete form.Therefore; No matter from which point; All should regard embodiment as exemplary; And be nonrestrictive, scope of the present invention is limited accompanying claims rather than above-mentioned explanation, therefore is intended to the implication of the equivalents that drops on claim and all changes in the scope are included in the present invention.Should any Reference numeral in the claim be regarded as limit related claim.In addition, obviously other unit or step do not got rid of in " comprising " speech, and odd number is not got rid of plural number.A plurality of unit of stating in system's claim or device also can be realized through software or hardware by a unit or device.The first, the second word such as grade is used for representing title, and does not represent any specific order.

Claims (10)

1. One kind in wireless communication system the scheduling wireless running time-frequency resource method, wherein, this method may further comprise the steps:

   A obtains the user data of waiting to be transmitted at least one subscriber equipment;

   B discerns the user data type of said user data;

   C comes to be the wireless running time-frequency resource of said scheduling user data according to said user data type and radio bearer priority.
2. 2. method according to claim 1, wherein, said step b also comprises step:

   -the port information that comprises according to said user data is discerned said user data type.
3. 3. method according to claim 1 and 2, wherein, said step c comprises:

   -judge whether the radio bearer quantity of non-GBR in the said user data and the ratio of total radio bearer quantity exceed and the corresponding predetermined threshold of said user data type;

   -when said ratio exceeds said predetermined threshold, then come to be the corresponding wireless running time-frequency resource of said scheduling user data based on corresponding predetermined penalty factor and said radio bearer priority.
4. 4. method according to claim 3, wherein, saidly come also to comprise for the step of the wireless running time-frequency resource scheduling of said scheduling user data based on said predetermined penalty factor and said radio bearer priority:

   -adjust the radio bearer Qos priority of said user data according to following formula:

   Wu '=Wu* Δ penalty factor,

   Wherein, Wu comprises existing radio bearer Qos priority computing function;

   -come to be the wireless running time-frequency resource of said scheduling user data based on the radio bearer Qos priority of being adjusted.
5. 5. according to each described method in the claim 1 to 4, wherein, said wireless communication system comprises 3G, LTE or WiMAX system.
6. One kind in wireless communication system the scheduling wireless running time-frequency resource equipment, wherein, comprising:

   Deriving means is used to obtain the user data of waiting to be transmitted at least one subscriber equipment;

   Recognition device is used to discern the user data type of said user data;

   Dispatching device is used for to be the wireless running time-frequency resource of said scheduling user data according to said user data type and radio bearer priority.
7. 7. equipment according to claim 6, wherein, said recognition device also is used for discerning said user data type according to the port information that said user data comprises.
8. 8. according to claim 6 or 7 described equipment, wherein, said dispatching device comprises:

   Judgment means is used for judging whether the radio bearer quantity of the non-GBR of said user data and the ratio of total radio bearer quantity exceed and the corresponding predetermined threshold of said user data type;

   First dispatching device is used for exceeding said predetermined threshold when said ratio, then comes to be the corresponding wireless running time-frequency resource of said scheduling user data based on corresponding predetermined penalty factor and said radio bearer priority.
9. 9. equipment according to claim 8, wherein, said first dispatching device also comprises:

   Adjusting device is used for adjusting according to following formula the radio bearer Qos priority of said user data:

   Wu '=Wu* Δ penalty factor,

   Wherein, Wu comprises existing radio bearer Qos priority computing function;

   Second dispatching device is used for to be the wireless running time-frequency resource of said scheduling user data based on the radio bearer Qos priority of being adjusted.
10. 10. according to each described equipment in the claim 6 to 9, wherein, said wireless communication system comprises 3G, LTE or WiMAX system, and said equipment comprises e-NodeB, network controller.

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