CN102523624A

CN102523624A - Carrier wave resource distribution method and equipment thereof

Info

Publication number: CN102523624A
Application number: CN2011104101718A
Authority: CN
Inventors: 刘嘉
Original assignee: Datang Mobile Communications Equipment Co Ltd
Current assignee: Datang Mobile Communications Equipment Co Ltd
Priority date: 2011-12-09
Filing date: 2011-12-09
Publication date: 2012-06-27
Anticipated expiration: 2031-12-09
Also published as: CN102523624B

Abstract

Embodiments of the invention disclose a carrier wave resource distribution method and equipment thereof and relates to a wireless communication technology field. The method and the equipment are used for increasing a utilization rate of system carrier wave resources. The method is characterized in that: after distributing high speed downlink packet access (HSDPA) carrier wave resources for a service of a terminal, a network side determines whether an uplink transmission rate of the service reaches a high speed uplink packet access (HSUPA) rate threshold; when the uplink transmission rate of the service reaches the HSUPA rate threshold, the network side determines whether the uplink transmission rate of the service reaches a HSUPA uplink enhancement APE rate threshold; if the uplink transmission rate of the service reaches the HSUPA uplink enhancement APE rate threshold, APE carrier wave resources are distributed for the service and a terminal is indicated to carry out service access on the APE carrier wave resources; otherwise, high speed packet access (HSPA) carrier wave resources are distributed for the service and the terminal is indicated to carry out the service access on the HSPA carrier wave resources. By using the method and the equipment of the invention, the utilization rate of the system carrier wave resources can be increased.

Description

Carrier wave resource allocation method and equipment

Technical field

The present invention relates to wireless communication field, relate in particular to a kind of carrier wave resource allocation method and equipment.

Background technology

General existing network all can be taked the cell configuration of mixed service type, and the ratio of the uplink and downlink timeslot of cell configuration is 2: 4, and up have only 2 time slots.The carrier wave of cell configuration generally includes R4 carrier wave (refer to define in the edition 4 of LTE system carrier wave), high speed downlink packet inserts (High Speed Downlink Packet Access, HSDPA) carrier wave.Up from now on increase high speed uplink packet inserts (High Speed Uplink Packet Access; HSUPA) after the business; Can the independent high-speed packet of configuration insert (High Speed Packet Access; HSPA) carrier wave, HSPA carrier wave comprise up HSUPA carrier wave and descending HSDPA carrier wave.Data class is downloaded and speech business is often used the most frequent on network; Therefore existing network basically all can dispose several HSDPA carrier waves and common R4 carrier wave; And the uplink service widespread usage is less; So the quantity during the HSUPA carrier wave that will increase from now on maybe be at 1 to 2, the configuration taked of existing network so from now on is so possibly: 2 R4 carrier waves, 2 HSDPA carrier waves, 1 or 2 HSPA carrier waves just illustrate the configuring condition of each traffic carrier here.

The HSUPA carrier wave exists only in 1 ascending time slot, professional shared channel (EPUCH) data of the up HSUPA of transmission on the HSUPA of this ascending time slot carrier wave.After adopting the up enhancing of HSUPA (APE) technology, require another ascending time slot also is configured to transmit the time slot of EPUCH data, also promptly 2 ascending time slots are all distributed to EPUCH; (Dedicated Physical Channel, DPCH) (Shared Information Channel SICH) adopts time-multiplexed mode to coexist with EPUCH to special-purpose physical channel in another ascending time slot with shared information channel.The carrier wave that takies two ascending time slot transmission EPUCH data is called the APE carrier wave.

The method of salary distribution that has following two kinds of carrier resources at present:

First; The user activates packet switching (Packet Switched at existing network; When PS) professional, whether network side can reach the setting thresholding according to the professional uplink speed of PS, is PS traffic assignments HSDPA carrier wave or HSPA carrier wave; Generally all can be set to about 1k for this thresholding of existing network, can guarantee like this that PS is professional transmits data through the HSDPA carrier wave as far as possible.If the PS traffic assignments HSPA carrier wave; Uplink traffic possibly very little or only be present in paroxysmal use after the general user surfed the Net; At this moment common dedicated channel (Dedicated Channel perhaps; DCH) bandwidth of time slot has just satisfied the user uplink demand, so the HSUPA carrier wave in the occupied HSPA carrier wave just possibly cause waste.

Second; The user is when setting up the APE business, and network side at first will be for APE traffic assignments R4 carrier wave, on the R4 carrier wave, to set up signaling; And for single service-user; Can only a certain user signaling and business be based upon under the same carrier wave at present,, and can not directly the APE business be based upon on the APE carrier wave like this no matter all need consider earlier whether the R4 carrier wave has available resources when perhaps switch the sub-district for APE is professional initial the access.The professional access procedure of APE comes to this so: be APE traffic assignments R4 carrier wave earlier; So that the APE business is based upon on the R4 carrier wave, the rise speed in the 4A report of the scheduling of the PS through terminal to report subsequently determines whether the APE business reorganization to the APE carrier wave; If; Then be APE traffic assignments APE carrier wave, with the APE business reorganization to the APE carrier wave, when switch the sub-district and top process basically identical.

In realizing process of the present invention, the inventor finds to exist in the prior art following technical problem:

After realizing, APE technology make the ascending time slot that resource is just deficient originally seem more crowded, so the resource allocation of the network side important that just seems.Behind the common up configuration HSUPA carrier wave; Basically can only satisfy the transfer of data of H business (HSDPA and HSUPA are professional); Speech business or other business all are to accomplish at other carrier waves to insert, and the data services of ascending time slot be applied in often utilize in daily real life or the work and occupancy and few seldom or constantly, but the descending time slot business is often taking or is carrying out professional transmission all the time; Therefore necessary rational allocation carrier resource; Improve scheduling of resource mechanism, the carrier wave utilance is improved, and then reduce the waste of wireless network resource.

Summary of the invention

The embodiment of the invention provides a kind of carrier wave resource allocation method and equipment, is used to improve the utilance of system carrier resource.

A kind of carrier wave resource allocation method, this method comprises:

Network side confirms whether this professional uplink speed reaches predefined HSUPA speed threshold value behind the traffic assignments HSDPA carrier resource that is the terminal;

When network side reaches predefined HSUPA speed threshold value in definite this professional uplink speed; Confirm whether this professional uplink speed reaches predefined APE speed threshold value; If; Then be this traffic assignments APE carrier resource, and indicating terminal is engaged in inserting in the enterprising industry of this APE carrier resource; Otherwise, be this traffic assignments HSPA carrier resource, and indicating terminal is engaged in inserting in the enterprising industry of this HSPA carrier resource.

A kind of carrier resource distributor, this device comprises:

The first thresholding identifying unit is used for confirming for behind the traffic assignments HSDPA carrier resource at terminal whether this professional uplink speed reaches predefined HSUPA speed threshold value;

The second thresholding identifying unit is used for when definite this professional uplink speed reaches predefined HSUPA speed threshold value, confirming whether this professional uplink speed reaches predefined APE speed threshold value;

First resource allocation unit be used for when this professional uplink speed reaches predefined APE speed threshold value, being this traffic assignments APE carrier resource, and indicating terminal is engaged in inserting in the enterprising industry of this APE carrier resource; When this professional uplink speed does not reach predefined APE speed threshold value, be this traffic assignments HSPA carrier resource, and indicating terminal is engaged in inserting in the enterprising industry of this HSPA carrier resource.

In this programme, network side confirms whether this professional uplink speed reaches predefined HSUPA speed threshold value behind the traffic assignments HSDPA carrier resource that is the terminal; When network side reaches predefined HSUPA speed threshold value in definite this professional uplink speed; Confirm whether this professional uplink speed reaches predefined APE speed threshold value; If; Then be this traffic assignments APE carrier resource, and indicating terminal is engaged in inserting in the enterprising industry of this APE carrier resource; Otherwise, be this traffic assignments HSPA carrier resource, and indicating terminal is engaged in inserting in the enterprising industry of this HSPA carrier resource.It is thus clear that; Among the present invention behind the traffic assignments HSDPA carrier resource that is the terminal; According to the decision of predefined speed threshold value whether with this business migration on APE carrier wave or HSPA carrier wave; Also promptly whether carry out business migration on APE carrier wave or HSPA carrier wave, thereby improved the utilance of system carrier resource according to the upstream rate demand decision of business.

Description of drawings

The method flow sketch map that Fig. 1 provides for the embodiment of the invention;

Fig. 2 A is the realization flow sketch map of the embodiment of the invention one;

Fig. 2 B is the realization flow sketch map of the embodiment of the invention two;

The apparatus structure sketch map that Fig. 3 provides for the embodiment of the invention.

Embodiment

In order to improve the utilance of carrier resource; The embodiment of the invention provides a kind of carrier wave resource allocation method; In this method, network side behind the traffic assignments HSDPA carrier resource that is the terminal, according to the decision of predefined speed threshold value whether with this business migration on APE carrier wave or HSPA carrier wave.

Referring to Fig. 1, the carrier wave resource allocation method that the embodiment of the invention provides may further comprise the steps:

Step 10: network side confirms whether this professional uplink speed reaches predefined HSUPA speed threshold value behind the traffic assignments HSDPA carrier resource that is the terminal;

Here, HSUPA speed threshold value is the numerical value greater than 0;

Step 11: when network side reaches predefined HSUPA speed threshold value in definite this professional uplink speed; Confirm whether this professional uplink speed reaches predefined APE speed threshold value; If; Then be this traffic assignments APE carrier resource, and indicating terminal is engaged in inserting this APE carrier resource service data transmission of terminal use in the enterprising industry of this APE carrier resource; Otherwise, be this traffic assignments HSPA carrier resource, and indicating terminal is engaged in inserting this HSPA carrier resource service data transmission of terminal use in the enterprising industry of this HSPA carrier resource.

Here, APE speed threshold value is greater than 0 and greater than the numerical value of HSUPA speed threshold value.

Before step 10, can be according to following two kinds of methods traffic assignments HSDPA carrier resource that is the terminal:

The first, network side receives the APE activation of service of terminal transmission and sets up request, is this APE traffic assignments R4 carrier resource, and indicating terminal is engaged in inserting this R4 carrier resource service data transmission of terminal use in the enterprising industry of this R4 carrier resource;

Network side confirms whether the professional downlink transfer speed of this APE reaches predefined HSDPA speed threshold value; Confirming as when being; Be this APE traffic assignments HSDPA carrier resource; And indicating terminal is engaged in inserting this HSDPA carrier resource service data transmission of terminal use in the enterprising industry of this HSDPA carrier resource.

Here; HSDPA speed threshold value is the numerical value greater than 0; HSDPA speed threshold value can equal HSUPA speed threshold value, when HSDPA speed threshold value equals HSUPA speed threshold value, a speed threshold value can be set represent HSDPA speed threshold value and HSUPA speed threshold value simultaneously.

The second, network side is this APE traffic assignments HSDPA carrier resource after the APE at terminal business switches to Target cell, and indicating terminal is engaged in inserting this HSDPA carrier resource service data transmission of terminal use in the enterprising industry of this HSDPA carrier resource.Perhaps, network side is this HSPDA traffic assignments HSDPA carrier resource after the HSPDA at terminal business switches to Target cell, and indicating terminal is engaged in inserting this HSDPA carrier resource service data transmission of terminal use in the enterprising industry of this HSDPA carrier resource.

Preferable, after being traffic assignments APE carrier resource, can be this business reorganization distributing carrier wave resource according to the real-time Transmission speed of business, with the utilance of further raising carrier resource, concrete:

When network side is lower than APE speed threshold value and is higher than HSUPA speed threshold value in this professional uplink speed; Be this traffic assignments HSPA carrier resource; And indicating terminal is engaged in inserting this HSPA carrier resource service data transmission of terminal use in the enterprising industry of this HSPA carrier resource; Perhaps,

When network side is lower than HSUPA speed threshold value in the uplink speed of business, be this traffic assignments HSDPA carrier resource, and indicating terminal is engaged in inserting this HSDPA carrier resource service data transmission of terminal use in the enterprising industry of this HSDPA carrier resource.

Preferable, after being traffic assignments HSPA carrier resource, can be this business reorganization distributing carrier wave resource according to the real-time Transmission speed of business, with the utilance of further raising carrier resource, concrete:

When network side is lower than HSUPA speed threshold value in this professional uplink speed, be this traffic assignments HSDPA carrier resource, and indicating terminal is engaged in inserting this HSDPA carrier resource service data transmission of terminal use in the enterprising industry of this HSDPA carrier resource.

Preferable, after being this traffic assignments HSDPA carrier resource, can be this business reorganization distributing carrier wave resource according to the real-time Transmission speed of business, with the utilance of further raising carrier resource, concrete:

When network side is lower than HSDPA speed threshold value in the downlink transfer speed of business, be this traffic assignments R4 carrier resource, and indicating terminal is engaged in inserting this R4 carrier resource service data transmission of terminal use in the enterprising industry of this R4 carrier resource.

The present invention will be described below in conjunction with specific embodiment:

In RRM (RRM) algorithm, add APE speed threshold value, the value of APE speed threshold value can be set according to the existing network operating position.This thresholding was as the decision threshold that distributes the APE carrier resource when user perhaps switched to Target cell when setting up business; To attempt access service on the APE carrier wave; Opposite when network side detects user rate and do not reach this thresholding, reduce to HSPA business, HSDPA business and PS business automatically.

Embodiment one:

Shown in Fig. 2 A, the resource allocation flow process of APE professional (referring to that up needs use the business of APE carrier resource transmission data, the descending HSDPA of needs carrier resource transmission data) when access network is following:

Step 1: when the APE business is set up in the needs activation in the terminal, send the APE activation of service to network side and set up request;

Step 2: network side receives the APE activation of service that sends at the terminal and sets up request, is this APE traffic assignments R4 carrier resource, and indicating terminal is engaged in inserting in the enterprising industry of this R4 carrier resource;

Step 3: network side confirms whether the professional downlink transfer speed of this APE reaches predefined HSDPA speed threshold value, if, then arrive step 4, otherwise, to step 5;

Step 4: network side is this APE traffic assignments HSDPA carrier resource, and indicating terminal is in the enterprising industry affair of this HSDPA carrier resource access, to step 6;

Step 5: network side confirms that this APE is professional professional for common PS, does not carry out carrier wave emigration, and flow process finishes;

Step 6: network side confirms whether the professional uplink speed of this APE reaches predefined HSUPA speed threshold value, if, then arrive step 7, otherwise, to step 8;

Step 7: network side confirms further whether the professional uplink speed of this APE reaches predefined APE speed threshold value, if, then arrive step 9, otherwise, to step 10;

Step 8: network side confirms that this APE is professional professional for HSDPA, does not carry out carrier wave emigration, and flow process finishes;

Step 9: network side is this APE traffic assignments APE carrier resource, and indicating terminal is engaged in inserting the flow process end in the enterprising industry of this APE carrier resource;

Step 10: network side is this APE traffic assignments HSPA carrier resource, and indicating terminal is engaged in inserting the flow process end in the enterprising industry of this HSPA carrier resource.

Further, after step 10, can carry out following carrier resource adjustment operation:

When network side is lower than APE speed threshold value and is higher than HSUPA speed threshold value in the professional uplink speed of this APE, be this APE traffic assignments HSPA carrier resource, and indicating terminal is engaged in inserting in the enterprising industry of this HSPA carrier resource; Perhaps, when network side is lower than HSUPA speed threshold value in the professional uplink speed of this APE, be this APE traffic assignments HSDPA carrier resource, and indicating terminal is engaged in inserting in the enterprising industry of this HSDPA carrier resource.

After being this APE traffic assignments HSPA carrier resource, when network side is lower than HSUPA speed threshold value in the professional uplink speed of this APE, be this APE traffic assignments HSDPA carrier resource, and indicating terminal is engaged in inserting in the enterprising industry of this HSDPA carrier resource.

After being this APE traffic assignments HSDPA carrier resource, when network side is lower than HSDPA speed threshold value in the professional downlink transfer speed of this APE, be this APE traffic assignments R4 carrier resource, and indicating terminal is engaged in inserting in the enterprising industry of this R4 carrier resource.

Network side in the present embodiment specifically can be network equipments such as RNC or base station.

Present embodiment the is perfect professional carrier resource allocation algorithm of APE rationally utilizes carrier resource, has reduced the generation of small area jam.

Embodiment two:

Shown in Fig. 2 B, the resource allocation flow process that APE business or HSDPA business switch to behind the Target cell from the cell-of-origin is following:

Step 1: the network equipment acceptance of Target cell switches to the APE business or the HSDPA business at the terminal of Target cell from the cell-of-origin;

Step 2: network equipment is this APE business or HSDPA traffic assignments HSDPA carrier resource, and indicating terminal is engaged in inserting in the enterprising industry of this HSDPA carrier resource;

Step 3: network equipment confirms whether this APE business or the professional uplink speed of HSDPA reach predefined HSUPA speed threshold value, if, then arrive step 4, otherwise, to step 5;

Step 4: network equipment confirms further whether the professional uplink speed of this APE business or HSDPA reaches predefined APE speed threshold value, if, then arrive step 6, otherwise, to step 7;

Step 5: network side is confirmed as the HSDPA business, does not carry out carrier wave emigration, and flow process finishes;

Step 6: network side is this APE business or HSDPA traffic assignments APE carrier resource, and indicating terminal is engaged in inserting the flow process end in the enterprising industry of this APE carrier resource;

Step 7: network side is this APE business or HSDPA traffic assignments HSPA carrier resource, and indicating terminal is engaged in inserting the flow process end in the enterprising industry of this HSPA carrier resource.

Further, after step 7, can carry out following carrier resource adjustment operation:

When network side is lower than APE speed threshold value and is higher than HSUPA speed threshold value in the uplink speed of this APE business or HSDPA business; Be this APE business or HSDPA traffic assignments HSPA carrier resource, and indicating terminal is engaged in inserting in the enterprising industry of this HSPA carrier resource; Perhaps, when network side is lower than HSUPA speed threshold value in the uplink speed of this APE business or HSDPA business, be this APE business or HSDPA traffic assignments HSDPA carrier resource, and indicating terminal is engaged in inserting in the enterprising industry of this HSDPA carrier resource.

After being this APE business or HSDPA traffic assignments HSPA carrier resource; When network side is lower than HSUPA speed threshold value in the uplink speed of this APE business or HSDPA business; Be this APE business or HSDPA traffic assignments HSDPA carrier resource, and indicating terminal is engaged in inserting in the enterprising industry of this HSDPA carrier resource.

Network equipment in the present embodiment specifically can be equipment such as RNC or base station.

When switching for APE business or HSDPA business, present embodiment can carry out the carrier resource adjustment according to the speed threshold value of newly establishing; And need not revise other existing global network parameters; Can differentiated service speed type through being provided with of this speed threshold value; And then distribute corresponding carrier resource, use capacity with further raising speech business resource.

Present embodiment improves the APE carrier resource allocation algorithm that has disposed when switch the sub-district; The resource that makes all kinds of business and have the business of requirement all to obtain an equitable breakdown to various speed; Business to not needing present rate or flow is in time adjusted, and discharges more Radio Resources.

To sum up; Above-mentioned two embodiment further optimize the carrier resource allocation algorithm; Rational and effective is used ascending resource more, because the introducing meeting of APE technology brings more applications to the ascending time slot resource, so need this resource of reasonable distribution; For the professional Rapid Realization intercarrier adjustment and the distribution that do not need the APE carrier resource, avoid the carrier wave waste.

Referring to Fig. 3, the embodiment of the invention provides a kind of carrier resource distributor, and this device comprises:

The first thresholding identifying unit 30 is used for confirming for behind the traffic assignments HSDPA carrier resource at terminal whether this professional uplink speed reaches predefined HSUPA speed threshold value;

The second thresholding identifying unit 31 is used for when definite this professional uplink speed reaches predefined HSUPA speed threshold value, confirming whether this professional uplink speed reaches predefined APE speed threshold value;

First resource allocation unit 32 be used for when this professional uplink speed reaches predefined APE speed threshold value, being this traffic assignments APE carrier resource, and indicating terminal is engaged in inserting in the enterprising industry of this APE carrier resource; When this professional uplink speed does not reach predefined APE speed threshold value, be this traffic assignments HSPA carrier resource, and indicating terminal is engaged in inserting in the enterprising industry of this HSPA carrier resource.

This device also comprises:

Second resource allocation unit 33 is used for the APE activation of service foundation request that receiving terminal sends, and be this APE traffic assignments R4 carrier resource, and indicating terminal is engaged in inserting in the enterprising industry of this R4 carrier resource;

The 3rd thresholding identifying unit 34 is used for confirming whether the professional downlink transfer speed of this APE reaches predefined HSDPA speed threshold value;

Information resources allocation units 35 are used for when the professional downlink transfer speed of this APE reaches predefined HSDPA speed threshold value, be this APE traffic assignments HSDPA carrier resource, and indicating terminal being engaged in inserting in the enterprising industry of this HSDPA carrier resource.

This device also comprises:

The 4th resource allocation unit 36 is used for network side after the APE at terminal business or HSPDA business switch to Target cell, is this APE business or HSPDA traffic assignments HSDPA carrier resource, and indicating terminal is engaged in inserting in the enterprising industry of this HSDPA carrier resource.

This device also comprises:

The first resource adjustment unit 37; Be used for after being this traffic assignments APE carrier resource; When the uplink speed of said business is lower than said APE speed threshold value and be higher than said HSUPA speed threshold value; Be this traffic assignments HSPA carrier resource, and indicating terminal is engaged in inserting in the enterprising industry of this HSPA carrier resource; Perhaps,

When the uplink speed of said business is lower than said HSUPA speed threshold value, be this traffic assignments HSDPA carrier resource, and indicating terminal is engaged in inserting in the enterprising industry of this HSDPA carrier resource.

This device also comprises:

The second resource adjustment unit 38; Be used for after being this traffic assignments HSPA carrier resource; When the uplink speed of said business is lower than said HSUPA speed threshold value, be this traffic assignments HSDPA carrier resource, and indicating terminal is engaged in inserting in the enterprising industry of this HSDPA carrier resource.

This device also comprises:

Information resources adjustment unit 39; Be used for after being this traffic assignments HSDPA carrier resource; When the downlink transfer speed of said business is lower than said HSDPA speed threshold value, be this traffic assignments R4 carrier resource, and indicating terminal is engaged in inserting in the enterprising industry of this R4 carrier resource.

Said APE speed threshold value is greater than said HSUPA speed threshold value.

The embodiment of the invention also provides a kind of radio network controller, and (RNC0, this radio network controller comprise said carrier resource distributor.

The embodiment of the invention also provides a kind of base station, and this base station comprises said carrier resource distributor.

To sum up, beneficial effect of the present invention comprises:

In the scheme that the embodiment of the invention provides, network side confirms whether this professional uplink speed reaches predefined HSUPA speed threshold value behind the traffic assignments HSDPA carrier resource that is the terminal; When network side reaches predefined HSUPA speed threshold value in definite this professional uplink speed; Confirm whether this professional uplink speed reaches predefined APE speed threshold value; If; Then be this traffic assignments APE carrier resource, and indicating terminal is engaged in inserting in the enterprising industry of this APE carrier resource; Otherwise, be this traffic assignments HSPA carrier resource, and indicating terminal is engaged in inserting in the enterprising industry of this HSPA carrier resource.It is thus clear that; Among the present invention behind the traffic assignments HSDPA carrier resource that is the terminal; According to the decision of predefined speed threshold value whether with this business migration on APE carrier wave or HSPA carrier wave; Also promptly whether carry out business migration on APE carrier wave or HSPA carrier wave, thereby improved the utilance of system carrier resource according to the upstream rate demand decision of business.

The present invention is that reference is described according to the flow chart and/or the block diagram of method, equipment (system) and the computer program of the embodiment of the invention.Should understand can be by the flow process in each flow process in computer program instructions realization flow figure and/or the block diagram and/or square frame and flow chart and/or the block diagram and/or the combination of square frame.Can provide these computer program instructions to the processor of all-purpose computer, special-purpose computer, Embedded Processor or other programmable data processing device to produce a machine, make the instruction of carrying out through the processor of computer or other programmable data processing device produce to be used for the device of the function that is implemented in flow process of flow chart or a plurality of flow process and/or square frame of block diagram or a plurality of square frame appointments.

These computer program instructions also can be stored in ability vectoring computer or the computer-readable memory of other programmable data processing device with ad hoc fashion work; Make the instruction that is stored in this computer-readable memory produce the manufacture that comprises command device, this command device is implemented in the function of appointment in flow process of flow chart or a plurality of flow process and/or square frame of block diagram or a plurality of square frame.

These computer program instructions also can be loaded on computer or other programmable data processing device; Make on computer or other programmable devices and to carry out the sequence of operations step producing computer implemented processing, thereby the instruction of on computer or other programmable devices, carrying out is provided for being implemented in the step of the function of appointment in flow process of flow chart or a plurality of flow process and/or square frame of block diagram or a plurality of square frame.

Although described the preferred embodiments of the present invention, in a single day those skilled in the art get the basic inventive concept could of cicada, then can make other change and modification to these embodiment.So accompanying claims is intended to be interpreted as all changes and the modification that comprises preferred embodiment and fall into the scope of the invention.

Obviously, those skilled in the art can carry out various changes and modification to the present invention and not break away from the spirit and scope of the present invention.Like this, belong within the scope of claim of the present invention and equivalent technologies thereof if of the present invention these are revised with modification, then the present invention also is intended to comprise these changes and modification interior.

Claims

1. a carrier wave resource allocation method is characterized in that, this method comprises:

Network side confirms whether this professional uplink speed reaches predefined high speed uplink packet and insert HSUPA speed threshold value behind the traffic assignments high-speed downlink packet access HSDPA carrier resource that is the terminal;

When network side reaches predefined HSUPA speed threshold value in definite this professional uplink speed; Confirm whether this professional uplink speed reaches the up enhancing of predefined HSUPA APE speed threshold value; If; Then be this traffic assignments APE carrier resource, and indicating terminal is engaged in inserting in the enterprising industry of this APE carrier resource; Otherwise for this traffic assignments high-speed packet inserts the HSPA carrier resource, and indicating terminal is engaged in inserting in the enterprising industry of this HSPA carrier resource.

2. the method for claim 1 is characterized in that, said business is that APE is professional; Said network side is the traffic assignments HSDPA carrier resource at terminal, specifically comprises:

Network side receives the APE activation of service that sends at the terminal and sets up request, is this APE traffic assignments R4 carrier resource, and indicating terminal is engaged in inserting in the enterprising industry of this R4 carrier resource;

Network side confirms whether the professional downlink transfer speed of this APE reaches predefined HSDPA speed threshold value, confirming as when being, be this APE traffic assignments HSDPA carrier resource, and indicating terminal is engaged in inserting in the enterprising industry of this HSDPA carrier resource.

3. the method for claim 1 is characterized in that, said business is that APE business or HSPDA are professional, and said network side is the traffic assignments HSDPA carrier resource at terminal, specifically comprises:

Network side is this APE business or HSPDA traffic assignments HSDPA carrier resource after the APE at terminal business or HSPDA business switch to Target cell, and indicating terminal is engaged in inserting in the enterprising industry of this HSDPA carrier resource.

4. the method for claim 1 is characterized in that, after being this traffic assignments APE carrier resource, further comprises:

Network side be this traffic assignments HSPA carrier resource, and indicating terminal is engaged in inserting in the enterprising industry of this HSPA carrier resource when the uplink speed of said business is lower than said APE speed threshold value and be higher than said HSUPA speed threshold value; Perhaps,

When network side is lower than said HSUPA speed threshold value in the uplink speed of said business, be this traffic assignments HSDPA carrier resource, and indicating terminal is engaged in inserting in the enterprising industry of this HSDPA carrier resource.

5. method as claimed in claim 4 is characterized in that, after being this traffic assignments HSPA carrier resource, further comprises:

6. like claim 4 or 5 described methods, it is characterized in that, after being this traffic assignments HSDPA carrier resource, further comprise:

When network side is lower than said HSDPA speed threshold value in the downlink transfer speed of said business, be this traffic assignments R4 carrier resource, and indicating terminal is engaged in inserting in the enterprising industry of this R4 carrier resource.

7. like arbitrary described method among the claim 1-5, it is characterized in that said APE speed threshold value is greater than said HSUPA speed threshold value.

8. a carrier resource distributor is characterized in that, this device comprises:

9. device as claimed in claim 8 is characterized in that, this device also comprises:

Second resource allocation unit is used for the APE activation of service foundation request that receiving terminal sends, and be this APE traffic assignments R4 carrier resource, and indicating terminal is engaged in inserting in the enterprising industry of this R4 carrier resource;

The 3rd thresholding identifying unit; Be used for confirming whether the professional downlink transfer speed of this APE reaches predefined HSDPA speed threshold value; Confirming as when being, be this APE traffic assignments HSDPA carrier resource, and indicating terminal is engaged in inserting in the enterprising industry of this HSDPA carrier resource.

10. device as claimed in claim 8 is characterized in that, this device also comprises:

The information resources allocation units are used for network side after the APE at terminal business or HSPDA business switch to Target cell, are this APE business or HSPDA traffic assignments HSDPA carrier resource, and indicating terminal is engaged in inserting in the enterprising industry of this HSDPA carrier resource.

11. device as claimed in claim 8 is characterized in that, this device also comprises:

The first resource adjustment unit; Be used for after being this traffic assignments APE carrier resource; When the uplink speed of said business is lower than said APE speed threshold value and be higher than said HSUPA speed threshold value; Be this traffic assignments HSPA carrier resource, and indicating terminal is engaged in inserting in the enterprising industry of this HSPA carrier resource; Perhaps,

12. device as claimed in claim 11 is characterized in that, this device also comprises:

The second resource adjustment unit; Be used for after being this traffic assignments HSPA carrier resource; When the uplink speed of said business is lower than said HSUPA speed threshold value, be this traffic assignments HSDPA carrier resource, and indicating terminal is engaged in inserting in the enterprising industry of this HSDPA carrier resource.

13., it is characterized in that this device also comprises like claim 11 or 12 described devices:

The information resources adjustment unit; Be used for after being this traffic assignments HSDPA carrier resource; When the downlink transfer speed of said business is lower than said HSDPA speed threshold value, be this traffic assignments R4 carrier resource, and indicating terminal is engaged in inserting in the enterprising industry of this R4 carrier resource.

14., it is characterized in that said APE speed threshold value is greater than said HSUPA speed threshold value like arbitrary described device among the claim 8-12.

15. a radio network controller is characterized in that, this radio network controller comprises like arbitrary described device among the claim 8-14.

16. a base station is characterized in that, this base station comprises like arbitrary described device among the claim 8-14.