CN101350941B - Network service control method, apparatus and system capable of providing high speed up packet service - Google Patents

Abstract

The invention discloses a network service control method, a device and a system for providing high-speed uplink package service, which are used for realizing the network service for supporting the high-speed uplink package access terminals to acquire high-speed uplink package service; moreover, the invention could select proper MAC-es protocol data unit structure according to the terminal actual requests, which is more flexible and operable. The network service control method for providing high-speed uplink package service comprises that a reception terminal submits the high-speed uplink package access capacity information and the size of TSN which is needed for the terminal is confirmed in the process of the terminal supporting the multi-carrier high-speed uplink package access according to the high-speed uplink package access capacity information; and based on the size of the TSN which is needed for the terminal, the MAC-es protocol data unit structure which is suitable to the terminal is selected from at least two MAC-es protocol data unit structures; the terminal is informed of the bit number of the MAC-es protocol data unit structure which is suitable to the terminal.

Description

Network service control method, the Apparatus and system of high speed up packet service are provided

Technical field

The present invention relates to the mobile communication technology field, particularly the network service control technology of high speed up packet service.

Background technology

WCDMA (Wideband Code Division Multiple Access, Wideband Code Division Multiple Access (WCDMA)) protocol version the earliest is R99, in this version, the carrying of uplink and downlink business all is based on dedicated channel, and the message transmission rate that can reach is 384kbps.But along with the user is more and more higher to the requirement of transmitted data rates, the procotol of having released R4, R5, R6 three phases is subsequently successively organized in the WCDMA standard formulation, introduced HSDPA (High Speed Downlink Packet Access, high speed downlink packet inserts) technology and HSUPA (High Speed Uplink Packet Access, high speed uplink packet inserts) technology, peak rate up to 14.4Mbps and 5.76Mbps can be provided respectively, simultaneously, also improved spectrum efficiency greatly.

Wherein, HSUPA has adopted based on the physical layer of soft merging and has mixed re-transmission, lacks three kinds of major technology of frame transmission based on the fast dispatch and the Transmission Time Interval of base station, five new physical channels have been introduced: enhancing Dedicated Physical Control Channel, absolute grant channel, the relative authorization channel of the enhancing Dedicated Physical Data Channel of transmission data, transmission accompanied by physical layer signaling and indicate the whether correct channel of up process data transmission, and introduced MAC-es (MAC:Medium Access Control, medium access control) entity.

Under the HSUPA network environment, SRNC (Serving Radio Network Controller, service wireless network controller) at each UE (User Equipment, subscriber equipment) a MAC-es entity all can be arranged, main queue and rearrangement distribution function, reordering function and the distribution MAC-dPDU (Protocol Data Unit, protocol Data Unit) of realizing is to the MAC-d entity.The structure of above-mentioned MAC-es PDU as shown in Figure 1, MAC-es PDU is made up of head and some MAC-es SDU (Service Data Unit, Service Data Unit) of MAC-es PDU; Each MAC-es SDU is exactly a MAC-d PDU, the head of MAC-es PDU is formed (Transmission SequenceNumber by TSN, transmission sequence number), be illustrated in E-DCH (Enhance-Dedicated Channel, the enhancing dedicated channel) transmission sequence number of MAC-es PDU on the transmission channel, the TSN maximum that existing single carrier HSUPA supports is 64, and TSN takies 6 bits.

In conjunction with MAC-es PDU structure as shown in Figure 1, the queue and rearrangement distribution function of above-mentioned MAC-es entity is responsible for MAC-es PDUs is sent to the reorder buffer that is positioned at the last correspondence of SRNC; Reordering function is responsible for according to TSN MAC-es PDUs being reordered, and wherein the continuous MAC-esPDU of TSNs waits until and disassembles, and the discontinuous MAC-es PDUs of TSNs waits until re-transmission; Distribution MAC-d PDU is that MAC-es PDUs is disassembled to the MAC-d entity, and the head of each MAC-es PDU is removed, and the MAC-d PDU that disassembles out is forwarded to the MAC-d entity.

In the mobile communication system of supporting HSUPA, along with the introducing of multicarrier characteristic, the existing MAC-es PDU structure of single carrier HSUPA that is applicable to can not satisfy the demand of multi-carrier HSUPA.Reason is that the TSN of existing MAC-es PDU structure is 6 bits, and the TSN maximum can only be 64, and under identical retransmission condition, multi-carrier HSUPA will enlarge the demand of TSN, and this moment, the TSN of 6 bits was just obviously not enough.

Now illustrate: under the situation of multi-carrier HSUPA, multi-carrier HSUPA should be supported 3 carrier waves at least, and promptly N frequency points should be 3 at least.Have under the situation of identical retransmission condition with single carrier HSUPA at multi-carrier HSUPA, the TSN maximum of this multi-carrier HSUPA correspondence is determined by the following method:

TSN _Many=TSN _Single* N ... ... ... ... ... ... (1)

In the above-mentioned formula 1, TSN _SingleThe TSN maximum of representing single carrier HSUPA to support, TSN _ManyRepresentative and this single carrier HSUPA have the TSN maximum that the multi-carrier HSUPA of identical retransmission condition is supported, maximum carrier numbers that on behalf of this multi-carrier HSUPA, N support, 6 carrier waves of multipotency support of existing multi-carrier HSUPA.

The relation of TSN maximum that multicarrier or single carrier HSUPA support and the required TSN bit number of this HSUPA is shown in following formula 2:

$\left(\underset{i=0}{\overset{n-2}{\mathrm{\&Sigma;}}}{2}^i\right)+1<{\mathrm{TSN}}_{\max }\&le;\left(\underset{i=0}{\overset{n-1}{\mathrm{\&Sigma;}}}{2}^i\right)+1$ .............................(2)

In the above-mentioned formula 2, n is required TSN bit number, TSN _MaxThe TSN maximum of representing this multicarrier or single carrier HSUPA to support.

In conjunction with above-mentioned formula 1 and formula 2, work as TSN _Single=64, during N=3, TSN _Many=64*3=192, the TSN of the multi-carrier HSUPA of 3 carrier waves of this support is 8 bits, and TSN is the MAC-esPDU structure of 6 bits, can only carry 64 MAC-es PDU at most, can't satisfy the demand of this multi-carrier HSUPA; Work as TSN _Single=64, during N=6, TSN _Many=64*6=384, the TSN of the multi-carrier HSUPA of 6 carrier waves of this support is 9 bits, can't satisfy the demand of this multi-carrier HSUPA and TSN is the MAC-es PDU structure of 6 bits; Work as TSN _Single〉=64, N 〉=6 o'clock, TSN _ManyCorresponding TSN bit number is also greater than TSN _SingleCorresponding TSN bit number.

As seen, the existing MAC-es PDU structure of single carrier HSUPA of supporting provides the service of HSUPA network can only for the terminal of support single carrier HSUPA, supports the terminal of multi-carrier HSUPA that the service of HSUPA network is provided and can't give; If make amendment and will have MAC-es PDU structure now, its TSN bit number is increased, can occur amended MAC-es PDU structure again and the service of HSUPA network is provided for the terminal of support multi-carrier HSUPA, and the problem of HSUPA network service is provided for the terminal of originally only supporting single carrier HSUPA.

Concerning the high speed up packet service of existing HSPA+ network, also there be the problem the same with existing HSUPA.Support the MAC-es PDU structure of uplink single-carrier HSPA+ the service of HSPA+ network is provided for the terminal of support uplink single-carrier HSPA+, support the terminal of up multicarrier HSPA+ that the service of HSPA+ network is provided and can't give.

As fully visible, the terminal that the MAC-es PDU structure that the high speed up packet service of existing single carrier adopts inserts for the high speed uplink packet of supporting single carrier provide the network service of high speed up packet service, and the terminal that insert for the high speed uplink packet of supporting multicarrier provide the network service of high speed up packet service; If make amendment and will have MAC-es PDU structure now, its TSN bit number is increased, can occur amended MAC-es PDU structure again and the network service of high speed up packet service is provided for the terminal of the high speed uplink packet access of supporting multicarrier, and the problem of the network service of high speed up packet service can't be provided to the terminal that the high speed uplink packet of originally only supporting single carrier inserts.

Summary of the invention

Network service control method, the Apparatus and system that high speed up packet service is provided of the present invention, the terminal that terminal that inserts in order to high speed uplink packet that realize to support single carrier and the high speed uplink packet of supporting multicarrier insert can both obtain high speed up packet service the network service.

A kind of network service control method that high speed up packet service is provided of the embodiment of the invention may further comprise the steps:

The high speed uplink packet access capability information that receiving terminal reports;

When confirming that according to described high speed uplink packet access capability information described terminal supports that the high speed uplink packet of multicarrier inserts, judge the TSN size that this terminal needs;

TSN size according to described terminal needs, the MAC-es protocol Data Unit structure of from least two MAC-es protocol Data Unit structures, selecting described terminal to be suitable for, the TSN bit number of described at least two MAC-es protocol Data Unit structures is inequality, comprise first structure and second structure in described at least two MAC-es protocol Data Unit structures, the TSN maximum that the TSN bit number of described first structure is supported according to the high speed uplink packet access of single carrier determines that the TSN maximum that the TSN bit number of described second structure is supported according to the high speed uplink packet access of multicarrier is definite;

The TSN bit number of the MAC-es protocol Data Unit structure that described terminal is suitable is notified described terminal.

A kind of network service control device that high speed up packet service is provided of the embodiment of the invention comprises: first receiving element is used for the high speed uplink packet access capability information that receiving terminal reports; First memory cell, be used to store at least two MAC-es protocol Data Unit structures of setting, the TSN bit number of described at least two MAC-es protocol Data Unit structures is inequality, comprise first structure and second structure in described at least two MAC-es protocol Data Unit structures, the TSN maximum that the TSN bit number of described first structure is supported according to the high speed uplink packet access of single carrier determines that the TSN maximum that the TSN bit number of described second structure is supported according to the high speed uplink packet access of multicarrier is definite; First judging unit is used for when confirming that according to described high speed uplink packet access capability information terminal supports that the high speed uplink packet of multicarrier inserts, and judges the TSN size that described terminal needs and exports judged result; First selected cell, be used for TSN size, select the suitable MAC-es protocol Data Unit structure of terminal of the high speed uplink packet access of described support multicarrier at least in two MAC-es protocol Data Unit structures from described first memory cell according to described terminal needs; First notification unit, the TSN bit number information that is used for the MAC-es protocol Data Unit structure that is suitable for that described first selected cell is selected sends to described terminal.

A kind of network service control method that high speed up packet service is provided of the embodiment of the invention may further comprise the steps:

The high speed uplink packet access capability information that receiving terminal reports;

When confirming that according to described high speed uplink packet access capability information described terminal supports that high speed uplink packet inserts, judge the TSN size that described terminal needs;

TSN size according to described terminal needs, the MAC-es protocol Data Unit structure of from least two MAC-es protocol Data Unit structures, selecting described terminal to be suitable for, the TSN bit number of described at least two MAC-es protocol Data Unit structures is inequality, comprise first structure and second structure in described at least two MAC-es protocol Data Unit structures, the TSN maximum that the TSN bit number of described first structure is supported according to the high speed uplink packet access of single carrier determines that the TSN maximum that the TSN bit number of described second structure is supported according to the high speed uplink packet access of multicarrier is definite;

The TSN bit number of the MAC-es protocol Data Unit structure that described terminal is suitable is notified described terminal.

A kind of network service control device that high speed up packet service is provided of the embodiment of the invention comprises:

Second receiving element is used for the high speed uplink packet access capability information that receiving terminal reports;

Second memory cell, be used to store at least two MAC-es protocol Data Unit structures of setting, the TSN bit number of described at least two MAC-es protocol Data Unit structures is inequality, comprise first structure and second structure in described at least two MAC-es protocol Data Unit structures, the TSN maximum that the TSN bit number of described first structure is supported according to the high speed uplink packet access of single carrier determines that the TSN maximum that the TSN bit number of described second structure is supported according to the high speed uplink packet access of multicarrier is definite;

Second judging unit, be used for judging according to described high speed uplink packet access capability information whether described terminal supports high speed uplink packet to insert, and when described terminal supports that high speed uplink packet inserts, judge the TSN size that described terminal needs and export judged result;

Second selected cell is used for the MAC-es protocol Data Unit structure that is suitable for according to the terminal that described judged result selects described support high speed uplink packet to insert from least two MAC-es protocol Data Unit structures of described second memory cell;

Second notification unit, the TSN bit number information that is used for described suitable MAC-es protocol Data Unit structure that described second selected cell is selected sends to described terminal.

A kind of network service control method that high speed up packet service is provided of the embodiment of the invention may further comprise the steps: the high speed uplink packet access capability information of reporting terminal;

Reception is according to the high speed uplink packet access capability information of described terminal, the TSN bit number information of the MAC-es protocol Data Unit structure that is suitable for that the TSN size that described terminal needs is selected, wherein from least two MAC-es protocol Data Unit structures, select the suitable MAC-es protocol Data Unit structure of described terminal, comprise first structure and second structure in described at least two MAC-es protocol Data Unit structures, the TSN maximum that the TSN bit number of described first structure is supported according to the high speed uplink packet access of single carrier determines that the TSN maximum that the TSN bit number of described second structure is supported according to the high speed uplink packet access of multicarrier is definite.

A kind of network service control device that high speed up packet service is provided of the embodiment of the invention comprises:

Report the unit, be used for the high speed uplink packet access capability information of reporting terminal;

The reception notification unit, be used to receive the high speed uplink packet access capability information that reports the terminal that the unit reports according to described, the TSN bit number information of the MAC-es protocol Data Unit structure that is suitable for that the TSN size that described terminal needs is selected, wherein from least two MAC-es protocol Data Unit structures, select the suitable MAC-es protocol Data Unit structure of described terminal, comprise first structure and second structure in described at least two MAC-es protocol Data Unit structures, the TSN maximum that the TSN bit number of described first structure is supported according to the high speed uplink packet access of single carrier determines that the TSN maximum that the TSN bit number of described second structure is supported according to the high speed uplink packet access of multicarrier is definite.

A kind of network service control system that high speed up packet service is provided of the embodiment of the invention comprises:

Terminal, be used for reporting the high speed uplink packet access capability information of described terminal, the TSN bit number information of the MAC-es protocol Data Unit structure that is suitable for that the TSN size of the high speed uplink packet access capability information according to described terminal that reception SRNC returns, described terminal needs is selected to SRNC;

SRNC, be used to receive the high speed uplink packet access capability information of described terminal to report, judge the ability that described terminal support high speed uplink packet inserts according to described high speed uplink packet access capability information, when described terminal supports that high speed uplink packet inserts, support the ability that high speed uplink packet inserts according to described terminal, the MAC-es protocol Data Unit structure that the TSN size that described terminal needs selects described terminal to be suitable for, and notify described terminal with the TSN bit number information of described suitable MAC-es protocol Data Unit structure, comprise first structure and second structure in described at least two MAC-es protocol Data Unit structures, the TSN maximum that the TSN bit number of described first structure is supported according to the high speed uplink packet access of single carrier determines that the TSN maximum that the TSN bit number of described second structure is supported according to the high speed uplink packet access of multicarrier is definite.

When the embodiment of the invention supports that in terminal the high speed uplink packet of multicarrier inserts, carry out the terminal data transmission according to the MAC-es protocol Data Unit structure that the TSN size of described terminal needs is selected to be suitable for from least two TSN bit numbers MAC-es protocol Data Unit structure inequality, the terminal that the high speed uplink packet of supporting multicarrier is inserted obtains the network service of high speed up packet service; When terminal supports that the high speed uplink packet of single carrier inserts, the MAC-es protocol Data Unit structure that selection is determined according to the TSN maximum of the high speed uplink packet access support of single carrier is carried out the terminal data transmission, makes the network service of the terminal acquisition high speed up packet service of the high speed uplink packet access of supporting single carrier.In addition, when the embodiment of the invention supports that in terminal high speed uplink packet inserts, carry out the terminal data transmission according to the MAC-es protocol Data Unit structure that the TSN size of described terminal needs is selected to be suitable for from least two TSN bit numbers MAC-es protocol Data Unit structure inequality, make the terminal of supporting high speed uplink packet to insert obtain the network service of high speed up packet service.The terminal that the embodiment of the invention not only makes the support high speed uplink packet under the network environment that high speed up packet service is provided insert can both obtain the network service of high speed up packet service, and network side can more possess flexibility and operability according to the suitable MAC-es protocol Data Unit structure of resource situation selection of terminal real business demand and network.

Description of drawings

Fig. 1 is existing MAC-es PDU structural representation;

Fig. 2 is a kind of high speed uplink packet access network service control method flow chart of the embodiment of the invention;

Fig. 3 is a kind of high speed uplink packet access network service control device schematic diagram of the embodiment of the invention;

Fig. 4 is a kind of high speed uplink packet access network service control device schematic diagram of the embodiment of the invention;

Fig. 5 is a kind of high speed uplink packet access network service control method flow chart of the embodiment of the invention;

Fig. 6 is a kind of high speed uplink packet access network service control device schematic diagram of the embodiment of the invention;

Fig. 7 is a kind of high speed uplink packet access network service control method flow chart of the embodiment of the invention;

Fig. 8 is a kind of high speed uplink packet access network service control device schematic diagram of the embodiment of the invention;

Fig. 9 is a kind of high speed uplink packet access network operation control system schematic diagram of the embodiment of the invention.

Embodiment

The network service of high speed up packet service is provided owing to the terminal that can only insert to the high speed uplink packet of support single carrier in the MAC-es PDU structure that has now under the network environment that high speed up packet service is provided, and the terminal that can't give the high speed uplink packet access of supporting multicarrier provides the network service of high speed up packet service and the network service that the MAC-es PDU structure after the bit number increase of TSN can only be provided high speed up packet service to the terminal that the high speed uplink packet of supporting multicarrier inserts, and the terminal that can't give the high speed uplink packet access of supporting single carrier provides the network service of high speed up packet service, the embodiment of the invention provides the network service control method of high speed up packet service, Apparatus and system, support the ability that high speed uplink packet inserts according to terminal, the TSN size that this terminal needs, carry out the terminal data transmission by the MAC-es PDU structure of in the different MAC-es PDU structure of a plurality of TSN bit numbers, selecting to be suitable for, guaranteeing is providing under the network environment of high speed up packet service, and the terminal of supporting high speed uplink packet to insert can both obtain the network service of high speed up packet service.

With the HSUPA network environment is example, and the network service control method that high speed up packet service is provided of the embodiment of the invention relates to following groundwork principle:

One, the setting of the TSN bit number of MAC-es PDU structure

The embodiment of the invention need be set at least two MAC-es PDU structures that the TSN bit number is inequality, selects the MAC-es PDU structure that is suitable for for from above-mentioned at least two MAC-es PDU structures of setting the terminal of supporting HSUPA.

For making the terminal of supporting HSUPA can both obtain the network service of HSUPA, should set first structure and second structure at least, the TSN bit number of above-mentioned first structure determines that according to the TSN maximum that single carrier HSUPA supports the TSN maximum that the TSN bit number of above-mentioned second structure is supported according to multi-carrier HSUPA is determined.

The TSN bit number of above-mentioned first structure determines that by related algorithm it determines that method is according to the TSN maximum that single carrier HSUPA supports:

.................................(3)

Said n 1 is the TSN bit number of this first structure, above-mentioned TSN _{Max is single}TSN maximum for single carrier HSUPA support.

For example: according to the transmission mechanism of existing HSUPA, under the environment of single carrier HSUPA, the peaked corresponding relation of number of retransmissions, retransmit interval and TSN is as shown in table 1, as seen the TSN maximum that current single carrier HSUPA supports is 64, according to above-mentioned formula 3 as can be known, the TSN maximum is that the TSN of 64 MAC-esPDU structure takies 6 bits.

Table 1

Because the TSN maximum that existing single carrier HSUPA supports is 64, so the embodiment of the invention can be set first structure that TSN takies 6 bits according to above-mentioned formula 3.If the TSN maximum that single carrier HSUPA supports is greater than 64, according to formula 3 as can be known $\left(\underset{i=0}{\overset{5}{\mathrm{\&Sigma;}}}{2}^i\right)+1=64,$ So can set first structure according to this TSN maximum and formula 3 greater than 64, the TSN bit number of this first structure is greater than 6 bits.Above-mentioned first structure can make all terminals of supporting single carrier HSUPA obtain the network service of HSUPA.

The TSN maximum that the TSN bit number of above-mentioned second structure is supported according to multi-carrier HSUPA determines that by related algorithm it determines that method is:

Said n 2 is the TSN bit number of this second structure, above-mentioned TSN _{Max is many}TSN maximum for the multi-carrier HSUPA support.

Wherein, when the maximum carrier number that has identical retransmission condition and an above-mentioned multi-carrier HSUPA support as above-mentioned multi-carrier HSUPA and above-mentioned single carrier HSUPA is N1, above-mentioned TSN _{Max is many}Can determine by the following method:

TSN _{Max is many}=TSN _{Max is single}* N1............................... (5)

Now illustrate: when the retransmit interval of single carrier HAUPA be 8TTI, when number of retransmissions is 4, the TSN maximum that this single carrier HAUPA supports is 64, according to above-mentioned formula 3 as can be known, can set first structure that TSN takies 6 bits; When the retransmit interval of multi-carrier HSUPA is that 8TTI, number of retransmissions are 4 and it is when supporting 6 carrier waves at most, according to above-mentioned formula 5 as can be known, the TSN maximum of this multi-carrier HSUPA support is 64*6=384, according to above-mentioned formula 4 as can be known, can set second structure that TSN takies 9 bits.

After setting above-mentioned first structure and second structure, can also set the different MAC-es PDU structure of a plurality of TSN bit numbers, these a plurality of TSN bit numbers should be greater than the TSN bit number of above-mentioned first structure and less than the TSN bit number of above-mentioned second structure.

The terminal that can make support HSUPA by the different MAC-es PDU structure of above-mentioned a plurality of TSN bit numbers is when the network side of this multi-carrier HSUPA transmits data, carry out the terminal data transmission by the MAC-esPDU structure of selecting to be suitable for, make the terminal of supporting HSUPA can both obtain the network service of HSUPA.

Two, the peaked relation of TSN of the TSN bit number of MAC-es PDU structure and its support

The TSN maximum of MAC-es PDU structural support can determine that by related algorithm it determines that method is according to its TSN bit number:

${\mathrm{TSN}}_{\max }=\left(\underset{i=0}{\overset{n-1}{\mathrm{\&Sigma;}}}{2}^i\right)+1..................................\left(6\right)$

Said n is the TSN bit number of MAC-es PDU structure, TSN _MaxTSN maximum for this MAC-es PDU structural support.

Same, the peaked relation of TSN of the TSN bit number of above-mentioned first structure and its support is as follows:

${\mathrm{TSN}}_{\max 1}=\left(\underset{i=0}{\overset{n1-1}{\mathrm{\&Sigma;}}}{2}^i\right)+1..................................\left(7\right)$

Said n 1 is the TSN bit number of first structure, TSN _Max1It is the TSN maximum of first structural support.

The peaked relation of TSN of the TSN bit number of above-mentioned second structure and its support is as follows:

${\mathrm{TSN}}_{\max 2}=\left(\underset{i=0}{\overset{n2-1}{\mathrm{\&Sigma;}}}{2}^i\right)+1.................................\left(8\right)$

Said n 2 is the TSN bit number of second structure, TSN _Max2It is the TSN maximum of second structural support.

Three, the TSN size of terminal needs and the relation of its TSN bit number that needs

The TSN bit number that terminal needs can determine that according to related algorithm it determines that method is according to the TSN size of these terminal needs:

$\left(\underset{i=0}{\overset{m-2}{\mathrm{\&Sigma;}}}{2}^i\right)+1<{\mathrm{TSN}}_{\mathrm{UE}}\&le;\left(\underset{i=0}{\overset{m-1}{\mathrm{\&Sigma;}}}{2}^i\right)+1.......................\left(9\right)$

Above-mentioned m is the TSN bit number that terminal needs, TSN _UETSN size for these terminal needs.

Four, select the MAC-es PDU structure that is suitable for for the terminal of supporting HSUPA

When selecting suitable MAC-es PDU structure to carry out the terminal data transmission from least two TSN bit numbers of above-mentioned setting MAC-es PDU structure inequality, for the terminal of supporting HSUPA, following several working method is arranged:

Mode one, support the type of HSUPA, the MAC-es PDU structure that the TSN size of these terminal needs is selected to be suitable for to carry out the terminal data transmission according to this terminal

If this terminal of A1 is supported multi-carrier HSUPA, then network side is given this terminal distribution multi-carrier HSUPA resource, TSN size according to these terminal needs, the MAC-es PDU structure that from above-mentioned at least two MAC-es PDU structures, select to be suitable for, promptly select the TSN maximum to equal or greater than and the MAC-es PDU structure of the TSN size that needs of the most approaching described terminal.

If include only above-mentioned first structure and second structure in described at least two MAC-es PDU structures, when then selecting suitable MAC-es PDU structure, mainly be divided into following two kinds of situations for the terminal of supporting multi-carrier HSUPA:

A1, when the TSN that needs when this terminal is not more than the TSN maximum of first structure, select above-mentioned first structure;

A2, the TSN that needs when this terminal select above-mentioned second structure during greater than the TSN maximum of first structure;

If except that above-mentioned first structure and second structure, also have the different MAC-es PDU structure of a plurality of TSN bit numbers (these a plurality of TSN bit numbers are greater than the TSN bit number of above-mentioned first structure and less than the TSN bit number of second structure), then select the TSN maximum to equal or greater than and the MAC-es PDU structure of the TSN that needs near this terminal.

When selecting suitable MAC-es PDU structure for the terminal of supporting multi-carrier HSUPA, can also select according to the TSN bit number of these terminal needs, promptly select the TSN bit number to equal or greater than and the MAC-es PDU structure of the TSN bit number that needs of the most approaching described terminal.

If include only above-mentioned first structure and second structure in described at least two MAC-es PDU structures, when then selecting suitable MAC-es PDU structure, mainly be divided into following two kinds of situations for the terminal of supporting multi-carrier HSUPA:

B1, when the TSN bit number that needs when this terminal is not more than the TSN bit number of first structure, select above-mentioned first structure;

B2, the TSN bit number that needs when this terminal select above-mentioned second structure during greater than the TSN bit number of first structure;

If except that above-mentioned first structure and second structure, also have the different MAC-es PDU structure of a plurality of TSN bit numbers (these a plurality of TSN bit numbers are greater than the TSN bit number of above-mentioned first structure and less than the TSN bit number of second structure), then select the TSN bit number to equal or greater than and the MAC-es PDU structure of the TSN bit number that needs near this terminal.

If the A2 terminal is only supported single carrier HSUPA, then network side is given this terminal distribution single carrier HSUPA resource, from at least two MAC-es PDU structures, select suitable MAC-es PDU structure, promptly select the TSN maximum to equal or greater than and the MAC-es PDU structure of the TSN size that needs of the most approaching described terminal, if in described at least two MAC-es PDU structures above-mentioned first structure is arranged, then selects first structure.

Mode two, the MAC-es PDU structure that big or small selection is suitable for according to the TSN of these terminal needs are carried out the terminal data transmission

Mode two is single carrier HSUPA or multi-carrier HSUPA regardless of this terminal support, all according to the TSN size of these terminal needs, the MAC-es protocol Data Unit structure of from least two MAC-es PDU structures, selecting this terminal to be suitable for, promptly select the TSN maximum to equal or greater than and the MAC-es PDU structure of the TSN size that needs of the most approaching described terminal.

If include only above-mentioned first structure and second structure in described at least two MAC-es PDU structures, when then selecting suitable MAC-es PDU structure, mainly be divided into following two kinds of situations for the terminal of supporting HSUPA:

C1, when the TSN that needs when this terminal is not more than the TSN maximum of above-mentioned first structure, select above-mentioned first structure;

C2, the TSN that needs when this terminal select above-mentioned second structure during greater than the TSN maximum of above-mentioned first structure;

If except that above-mentioned first structure and above-mentioned second structure, also have the different MAC-es PDU structure of above-mentioned a plurality of TSN bit number (these a plurality of TSN bit numbers are greater than the TSN bit number of above-mentioned first structure and less than the TSN bit number of second structure), then select the TSN maximum to equal or greater than and the MAC-es PDU structure of the TSN that needs near this terminal.

When selecting suitable MAC-es PDU structure for the terminal of supporting HSUPA, can also select according to the TSN bit number of these terminal needs, promptly select the TSN bit number to equal or greater than and the MAC-es PDU structure of the TSN bit number that needs of the most approaching described terminal.

If include only above-mentioned first structure and second structure in described at least two MAC-es PDU structures, when then selecting suitable MAC-es PDU structure, mainly be divided into following two kinds of situations for the terminal of supporting HSUPA:

D1, when the TSN bit number that needs when this terminal is not more than the TSN bit number of first structure, select above-mentioned first structure;

D2, the TSN bit number that needs when this terminal select above-mentioned second structure during greater than the TSN bit number of first structure;

If except that above-mentioned first structure and second structure, also have the different MAC-es PDU structure of a plurality of TSN bit numbers (these a plurality of TSN bit numbers are greater than the TSN bit number of above-mentioned first structure and less than the TSN bit number of second structure), then select the TSN bit number to equal or greater than and the MAC-es PDU structure of the TSN bit number that needs near this terminal.

In the HSUPA network service control method that the embodiment of the invention provides, carry out the terminal data transmission according to the HSUPA ability information of terminal, the MAC-es PDU structure that the TSN size selection of these terminal needs is suitable for, make the terminal of supporting single carrier HSUPA and the terminal of supporting multi-carrier HSUPA can both obtain the network service of HSUPA.

Be illustrated in figure 2 as the concrete workflow of a kind of high speed uplink packet access network service control method of the embodiment of the invention, it may further comprise the steps:

The HSUPA ability information that S100, receiving terminal report;

Terminal is behind normal access network, the HSUPA ability information of this terminal is offered the network side of multi-carrier HSUPA, this HSUPA ability information indicates this terminal and whether supports HSUPA, if support HSUPA, what then indicate support is single carrier HSUPA or multi-carrier HSUPA;

S200, judgement terminal are supported the ability of HSUPA;

Network side judges according to the above-mentioned HSUPA ability information of terminal to report whether this terminal supports HSUPA; If support HSUPA, then judge this terminal support single carrier HSUPA or multi-carrier HSUPA;

S300, support the TSN size of ability, these terminal needs of HSUPA to select the MAC-es PDU structure that is suitable for according to this terminal, this step S300 further may further comprise the steps:

If this terminal of s301 is not supported HSUPA, then network side does not distribute the HSUPA resource to give this terminal, and this terminal data transmission does not need to use MAC-es PDU structure;

If this terminal of s302 is supported single carrier HSUPA, then network side schedule of apportionment carrier wave HSUPA resource is given this terminal, selects the MAC-es PDU structure that is suitable for from least two MAC-es PDU structures (the TSN bit number of each MAC-es PDU structure is inequality); If comprise above-mentioned first structure at least two MAC-es PDU structures, then select first structure;

If this terminal of s303 is supported multi-carrier HSUPA, then network side distributes the multi-carrier HSUPA resource to give this terminal, the MAC-es PDU structure that adopts the method described in the aforesaid way one to select the terminal of this support multi-carrier HSUPA to be suitable for;

If include only above-mentioned first structure and second structure in above-mentioned at least two MAC-es PDU structures, then this step s303 further may further comprise the steps:

S3031, when the TSN that needs when terminal is not more than the TSN maximum of first structure, select first structure; Perhaps

When the TSN bit number of terminal needs is not more than the TSN bit number of first structure, select first structure;

S3032, the TSN that needs when terminal select second structure during greater than the TSN maximum of first structure; Perhaps

The TSN bit number that needs when terminal is selected second structure during greater than the TSN bit number of first structure;

S400, select MAC-es PDU structure after, the TSN bit number of the MAC-es PDU structure that is suitable for that will select by air interface signaling is notified this terminal.

Be illustrated in figure 3 as a kind of high speed uplink packet access network service control device of the embodiment of the invention, this device is used for the MAC-es entity on the SRNC, and it comprises:

First receiving element 31 is used for the HSUPA ability information that receiving terminal reports;

First memory cell 34 is used to store at least two MAC-es protocol Data Unit structures of setting, and the TSN bit number of above-mentioned at least two MAC-es protocol Data Unit structures is inequality;

First judging unit 32 is used for when confirming that according to described HSUPA ability information terminal is supported multi-carrier HSUPA, judges the TSN size that described terminal needs and exports judged result;

First selected cell 33, be used for TSN size according to above-mentioned terminal needs, selecting the suitable MAC-es protocol Data Unit structure of terminal of above-mentioned support multi-carrier HSUPA at least in two MAC-es protocol Data Unit structures from above-mentioned first memory cell 34, is to support the terminal of single carrier HSUPA to select suitable MAC-es protocol Data Unit structure;

First notification unit 35, the TSN bit number information that is used for the MAC-es protocol Data Unit structure that is suitable for that first selected cell 33 is selected sends to above-mentioned terminal.

Be illustrated in figure 4 as a kind of high speed uplink packet access network service control device of the embodiment of the invention, this device is used for the MAC-es entity on the SRNC, and this device has increased tenability judging unit 46 and single carrier structure selected cell 47 than device shown in Figure 3;

Tenability judging unit 46, the HSUPA ability information that is used for the terminal to report that receives according to first receiving element 41 judges whether this terminal supports HSUPA, and when this terminal is supported HSUPA, judge this terminal support single carrier HSUPA or multi-carrier HSUPA, export judged result;

Single carrier structure selected cell 47, be used for when tenability judging unit 46 judges that this terminal is supported single carrier HSUPA, supporting the terminal of single carrier HSUPA for this at least two MAC-es protocol Data Unit structures from first memory cell 44 and selecting the MAC-es protocol Data Unit structure that is suitable for.

Wherein, the single carrier structure selected cell 47 among Fig. 4 and first selected cell 43 can merge setting.

Be illustrated in figure 5 as the concrete workflow of a kind of high speed uplink packet access network service control method of the embodiment of the invention, it may further comprise the steps:

The HSUPA ability information that S01, receiving terminal report;

Terminal is behind normal access network, the HSUPA ability information of this terminal is offered the network side of multi-carrier HSUPA, this HSUPA ability information indicates this terminal and whether supports HSUPA, if support HSUPA, what then indicate support is single carrier HSUPA or multi-carrier HSUPA;

S02, judgement terminal are supported the ability of HSUPA;

Network side judges according to the above-mentioned HSUPA ability information of terminal to report whether this terminal supports HSUPA;

If do not support, then network side does not distribute the HSUPA resource to give this terminal, and this terminal data transmission does not need to use MAC-es PDU structure;

If support, then continue execution in step S03;

S03, judge the TSN size that this terminal needs, and select the MAC-es PDU structure that is suitable for according to the TSN size of these terminal needs;

If this terminal is supported HSUPA, then adopt the method described in the aforesaid way two to select the MAC-es PDU structure that is suitable for for this terminal;

S04, select MAC-es PDU structure after, the TSN bit number of the MAC-es PDU structure that is suitable for that will select by air interface signaling is notified this terminal.

Be illustrated in figure 6 as a kind of high speed uplink packet access network service control device of the embodiment of the invention, this device is used for the MAC-es entity on the SRNC, comprising:

Second receiving element 51 is used for the HSUPA ability information that receiving terminal reports;

Second memory cell 54 is used to store at least two MAC-es protocol Data Unit structures of setting, and the TSN bit number of above-mentioned at least two MAC-es protocol Data Unit structures is inequality;

Second judging unit 52 is used for judging according to above-mentioned HSUPA ability information whether above-mentioned terminal supports HSUPA, and judges the TSN size that above-mentioned terminal needs and export judged result when above-mentioned terminal is supported HSUPA;

Second selected cell 53 is used for the MAC-es protocol Data Unit structure of selecting the terminal of above-mentioned support HSUPA to be suitable for according to above-mentioned judged result from least two MAC-es protocol Data Unit structures of above-mentioned second memory cell 54;

Second notification unit 55, the TSN bit number information that is used for above-mentioned suitable MAC-es protocol Data Unit structure that above-mentioned second selected cell 53 is selected sends to above-mentioned terminal.

Be illustrated in figure 7 as a kind of high speed uplink packet access network service control method flow process of the embodiment of the invention, may further comprise the steps:

The HSUPA ability information of S10, reporting terminal;

S20, receive the TSN bit number information of the MAC-es protocol Data Unit structure of selecting according to the TSN size of the HSUPA ability information of above-mentioned terminal, above-mentioned terminal needs that is suitable for.

The TSN size that above-mentioned terminal needs is determined according to the business need of this terminal and the resource situation of network.

Be illustrated in figure 8 as a kind of high speed uplink packet access network service control device of the embodiment of the invention, this device is used for terminal, comprising:

Report unit 71, be used for the HSUPA ability information of reporting terminal;

Reception notification unit 72 is used to receive the TSN bit number information according to the big or small MAC-es protocol Data Unit structure of selecting that is suitable for of the TSN of the HSUPA ability information of the terminal that reports unit 71 to report, above-mentioned terminal needs.

Be illustrated in figure 9 as a kind of high speed uplink packet access network operation control system of the embodiment of the invention, this system comprises:

Terminal 81, be used for reporting this terminal 81 to support the ability information of HSUPA the TSN bit number information of the MAC-es protocol Data Unit structure that is suitable for that the TSN size of the HSUPA ability information according to terminal 81 that reception SRNC82 returns, terminal 81 needs is selected to SRNC82;

SRNC82, be used for the HSUPA ability information that receiving terminal 81 reports, judge the ability of terminal 81 support HSUPA according to the HSUPA ability information of terminal 81, when terminal 81 is supported HSUPA, support the TSN size of ability, terminal 81 needs of HSUPA to select the structure of the MAC-es protocol Data Unit that terminal 81 is suitable for according to terminal 81, and the TSN bit number information of will be above-mentioned suitable MAC-es protocol Data Unit structure is notified terminal 81.

Embodiment one

Suppose that under the multi-carrier HSUPA environment the maximum carrier number of multi-carrier HSUPA support is N1, the TSN maximum that single carrier HSUPA supports is 64, and the network side of multi-carrier HSUPA has only MAC-es PDU structure A1 and MAC-es PDU structure A2; Wherein, MAC-es PDU structure A1 determines that by above-mentioned formula 3 the TSN maximum of this structure A1 is 64 according to the TSN maximum that single carrier HSUPA supports, TSN takies 6 bits; MAC-es PDU structure A2 determines by above-mentioned formula 4 according to the TSN maximum that multi-carrier HSUPA is supported, if wherein multi-carrier HSUPA has identical retransmission condition with above-mentioned single carrier HSUPA, the TSN maximum of this structure A2 can be defined as 64*N1 according to formula 5, and determines that according to formula 4 TSN among this structure A2 need take S _A2Bit storage space.

It is as follows that present embodiment makes the terminal of the support HSUPA that is under the multi-carrier HSUPA environment obtain HSUPA network service method flow process:

Be in terminal under this multi-carrier HSUPA environment sends HSUPA ability information from this terminal to network side;

RNC receives the HSUPA ability information that this terminal is sent;

RNC judges according to described HSUPA ability information whether this terminal supports HSUPA; If support HSUPA, then judge this terminal support single carrier HSUPA or multi-carrier HSUPA;

If this terminal is not supported HSUPA, then RNC does not distribute the HSUPA resource to give this terminal, and these terminal transmission data do not need to use MAC-es PDU structure;

If this terminal is only supported single carrier HSUPA, then RNC gives this terminal distribution single carrier HSUPA resource, selects MAC-es PDU structure A1;

If this terminal is supported multi-carrier HSUPA, then RNC distributes to this terminal multi-carrier HSUPA resource, and judges the TSN size of these terminal needs according to the resource situation of the business need of this terminal and network;

When the TSN of these terminal needs was not more than 64, RNC selected MAC-es PDU structure A1; The TSN that needs when this terminal is greater than 64 the time, and RNC selects MAC-es PDU structure A2;

After selecting MAC-es PDU structure, RNC notifies this terminal by the TSN bit number of the MAC-es PDU structure that is suitable for that air interface signaling will have been selected.

Embodiment two

After the RNC judgement of present embodiment in the foregoing description one learns that this terminal is supported HSUPA, no matter this terminal support is single carrier HSUPA or multi-carrier HSUPA, all judge the TSN size of these terminal needs according to the resource situation of the business need of this terminal and network; When the TSN of these terminal needs was not more than 64, RNC selected MAC-es PDU structure A1; The TSN that needs when this terminal is greater than 64 the time, and RNC selects MAC-es PDU structure A2.

Embodiment three

Suppose that under the multi-carrier HSUPA environment the maximum carrier number of multi-carrier HSUPA support is N2, the TSN maximum of single carrier HSUPA correspondence is TSN _B1, the network side of this multi-carrier HSUPA has MAC-es PDU structure B1, MAC-es PDU structure B2 and MAC-es PDU structure B3.Wherein, MAC-es PDU structure B1 determines that by above-mentioned formula 3 the TSN maximum among this structure B1 is TSN according to the TSN maximum that single carrier HSUPA supports _B1, take S _B1Bit storage space; MAC-es PDU structure B3 determines by above-mentioned formula 4 according to the TSN maximum that multi-carrier HSUPA is supported, if when wherein multi-carrier HSUPA has identical retransmission condition with above-mentioned single carrier HSUPA, is TSN according to the TSN maximum of formula 5 definite this structure B3 _B1* N2 determines that according to formula 4 TSN of this structure B3 takies S _B3Bit storage space; The TSN maximum of T SN of MAC-es PDU structure B2 _B2Between TSN _B1With TSN _B1* between the N2.

It is as follows that present embodiment makes the terminal of the support HSUPA that is under the multi-carrier HSUPA environment obtain HSUPA network service method flow process:

Be in terminal under this multi-carrier HSUPA environment sends HSUPA ability information from this terminal to network side;

RNC receives the HSUPA ability information that this terminal is sent;

RNC judges according to the HSUPA ability information of this terminal whether this terminal supports HSUPA; If support HSUPA, then judge this terminal support single carrier HSUPA or multi-carrier HSUPA;

If this terminal is not supported HSUPA, then RNC does not distribute the HSUPA resource to give this terminal, and these terminal transmission data do not need to use MAC-es PDU structure;

If this terminal is only supported single carrier HSUPA, then RNC gives this terminal distribution single carrier HSUPA resource, selects MAC-es PDU structure B1;

If this terminal is supported multi-carrier HSUPA, then RNC distributes the multi-carrier HSUPA resource to give this terminal, and the TSN size of judging these terminal needs according to the business need and the resource situation of this terminal;

The TSN that needs when this terminal is not more than TSN _B1The time, select MAC-es PDU structure B1; The TSN that needs when this terminal is greater than TSN _B1, and be less than or equal to TSN _B2The time, select MAC-es PDU structure B2; The TSN that needs when this terminal is greater than TSN _B2The time, select MAC-es PDU structure B3;

After selecting MAC-es PDU structure, RNC notifies this terminal by the TSN bit number of the MAC-es PDU structure that is suitable for that air interface signaling will have been selected.

Embodiment four

After the RNC judgement of present embodiment in the foregoing description three learns that this terminal is supported HSUPA, no matter this terminal support is single carrier HSUPA or multi-carrier HSUPA, all judge the TSN size of these terminal needs according to the resource situation of the business need of this terminal and network; The TSN that needs when this terminal is not more than TSN _B1The time, select MAC-es PDU structure B1; The TSN that needs when this terminal is greater than TSN _B1, and be less than or equal to TSN _B2The time, select MAC-es PDU structure B2; The TSN that needs when this terminal is greater than TSN _B2The time, select MAC-es PDU structure B3.

Above embodiment understands that for example the MAC-es PDU structure of selecting to be suitable for carries out the terminal data transmission in the different MAC-esPDU structure of two or three TSN bit numbers, but the MAC-esPDU structure that the embodiment of the invention is not limited to select to be suitable in the different MAC-es PDU structure of three TSN bit numbers is carried out the terminal data transmission, also should be included in the specific embodiment that carries out the terminal data transmission more than the MAC-es PDU structure of selecting in the different MAC-esPDU structure of three TSN bit numbers to be suitable for.

Following table 2 is the uplink transmission channels information table of 10.3.5.2-increase or modification, and the operation principle of the embodiment of the invention can be described by this table.Table 2 has increased MAC-es transmission sequence number Length Indication, this indication is used for notifying the form of the MAC-es PDU structure that terminal is suitable for by network side, and is different and cause and can't make this terminal obtain the problem that the HSUPA network is served with the form of avoiding network side and terminal to use.

Table 2

Condition	Explain
		Non-enhancing dedicated channel	If the uplink transport channel type is dedicated channel or Uplink Shared Channel, then this information unit is to exist, otherwise does not just exist.

The embodiment of the invention is carried out the terminal data transmission by the MAC-es PDU structure of selecting to be suitable in the different MAC-es PDU structure of a plurality of TSN bit numbers, guarantee under the multi-carrier HSUPA environment, support the terminal of HSUPA can both obtain the service of HSUPA network, and network side can more possess flexibility and operability according to the suitable MAC-es protocol Data Unit structure of resource situation selection use of terminal real business demand and network.

Concerning the high speed up packet service of HSPA+ network, the method that can use the embodiment of the invention to provide makes the terminal of the support uplink single-carrier HSPA+ that is under the HSPA+ network environment and supports the terminal of up multicarrier HSPA+ can both obtain the network service of high speed up packet service equally.Concrete workflow under the concrete workflow of implementing the network service control method that high speed up packet service is provided of the embodiment of the invention under the HSPA+ network environment coexists above-mentioned HSUPA environment, no longer superfluous here stating.

The embodiment of the invention is carried out the terminal data transmission by the MAC-es PDU structure of selecting to be suitable in the different MAC-es PDU structure of a plurality of TSN bit numbers, guaranteeing is providing under the network environment of high speed up packet service, the terminal of supporting high speed uplink packet to insert can both obtain the network service of high speed up packet service, and network side can more possess flexibility and operability according to the suitable MAC-es protocol Data Unit structure of resource situation selection of terminal real business demand and network.

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, if of the present invention these are revised and modification belongs within the scope of claim of the present invention and equivalent technologies thereof, then the present invention also is intended to comprise these changes and modification interior.

Claims (22)

1. the network service control method that high speed up packet service is provided is characterized in that, may further comprise the steps:

The high speed uplink packet access capability information that receiving terminal reports;

When confirming that according to described high speed uplink packet access capability information described terminal supports that the high speed uplink packet of multicarrier inserts, judge the TSN size that this terminal needs;

TSN size according to described terminal needs, the MAC-es protocol Data Unit structure of from least two MAC-es protocol Data Unit structures, selecting described terminal to be suitable for, the TSN bit number of described at least two MAC-es protocol Data Unit structures is inequality, comprise first structure and second structure in described at least two MAC-es protocol Data Unit structures, the TSN maximum that the TSN bit number of described first structure is supported according to the high speed uplink packet access of single carrier determines that the TSN maximum that the TSN bit number of described second structure is supported according to the high speed uplink packet access of multicarrier is definite;

The TSN bit number of the MAC-es protocol Data Unit structure that described terminal is suitable is notified described terminal.

2. the method for claim 1, it is characterized in that, when from described two MAC-es protocol Data Unit structures, selecting MAC-es protocol Data Unit structure that described terminal is suitable at least, select the TSN maximum to equal or greater than and the MAC-es protocol Data Unit structure of the TSN size that needs of the most approaching described terminal.

3. method as claimed in claim 2 is characterized in that, the TSN maximum of described MAC-es protocol Data Unit structure is determined according to the TSN bit number of described MAC-es protocol Data Unit structure.

4. method as claimed in claim 3 is characterized in that, definite method of the TSN bit number of described MAC-es protocol Data Unit structure is:

${\mathrm{TSN}}_{\max }=\left(\underset{i=0}{\overset{n-1}{\mathrm{\&Sigma;}}}{2}^i\right)+1$

Described TSN _MaxBe the TSN maximum of described MAC-es protocol Data Unit structure, described n is the TSN bit number of described MAC-es protocol Data Unit structure.

5. the method for claim 1 is characterized in that, the TSN size that described terminal needs is determined according to the business need of described terminal and the resource situation of network.

6. the method for claim 1 is characterized in that, the high speed uplink packet access capability information of described terminal to report indicates the ability that described terminal supports that high speed uplink packet inserts.

7. the method for claim 1 is characterized in that, the TSN bit number of other MAC-es protocol Data Unit structure outside described first structure and second structure is greater than the TSN bit number of described first structure and less than the TSN bit number of described second structure.

8. method as claimed in claim 7 is characterized in that, definite method of the TSN bit number of described first structure is:

Described n1 is the TSN bit number of described first structure, described TSN _{Max is single}Insert the TSN maximum of support for the high speed uplink packet of single carrier.

9. method as claimed in claim 7 is characterized in that, definite method of the TSN bit number of described second structure is:

Described n2 is the TSN bit number of described second structure, described TSN _{Max is many}Insert the TSN maximum of support for the high speed uplink packet of multicarrier.

10. method as claimed in claim 7 is characterized in that, if when confirming that according to described high speed uplink packet access capability information described terminal supports that the high speed uplink packet of single carrier inserts, selects described first structure.

11. the method for claim 1 is characterized in that, the MAC-es protocol Data Unit structure of selecting described terminal to be suitable for from least two MAC-es protocol Data Unit structures according to the TSN size of described terminal needs further may further comprise the steps:

Determine the TSN bit number of described terminal needs according to the TSN size of described terminal needs;

Select the TSN bit number to equal or greater than and the MAC-es protocol Data Unit structure of the TSN bit number that needs of the most approaching described terminal.

12. method as claimed in claim 11 is characterized in that, definite method of the TSN bit number that described terminal needs is:

$\left(\underset{i=0}{\overset{m-2}{\mathrm{\&Sigma;}}}{2}^i\right)+1<{\mathrm{TSN}}_{\mathrm{UE}}\&le;\left(\underset{i=0}{\overset{m-1}{\mathrm{\&Sigma;}}}{2}^i\right)+1$

Described m is the TSN bit number that described terminal needs, described TSN _UETSN size for described terminal needs.

13. the network service control device that high speed up packet service is provided is characterized in that, comprising:

First receiving element is used for the high speed uplink packet access capability information that receiving terminal reports;

First memory cell, be used to store at least two MAC-es protocol Data Unit structures of setting, the TSN bit number of described at least two MAC-es protocol Data Unit structures is inequality, comprise first structure and second structure in described at least two MAC-es protocol Data Unit structures, the TSN maximum that the TSN bit number of described first structure is supported according to the high speed uplink packet access of single carrier determines that the TSN maximum that the TSN bit number of described second structure is supported according to the high speed uplink packet access of multicarrier is definite;

First judging unit is used for when confirming that according to described high speed uplink packet access capability information terminal supports that the high speed uplink packet of multicarrier inserts, and judges the TSN size that described terminal needs and exports judged result;

First selected cell, be used for TSN size, select the suitable MAC-es protocol Data Unit structure of terminal of the high speed uplink packet access of described support multicarrier at least in two MAC-es protocol Data Unit structures from described first memory cell according to described terminal needs;

First notification unit, the TSN bit number information that is used for the MAC-es protocol Data Unit structure that is suitable for that described first selected cell is selected sends to described terminal.

14. device as claimed in claim 13 is characterized in that, further comprises:

The tenability judging unit, be used for judging according to the high speed uplink packet access capability information of described terminal to report whether described terminal supports high speed uplink packet to insert, and when supporting that high speed uplink packet inserts, described terminal judges that it still is the high speed uplink packet access of multicarrier that described terminal supports the high speed uplink packet of single carrier to insert, the output judged result;

The single carrier structure selected cell, being used for when the described terminal of described tenability judgment unit judges supports that the high speed uplink packet of single carrier inserts, is that the terminal of the high speed uplink packet access of described support single carrier is selected suitable MAC-es protocol Data Unit structure at least two MAC-es protocol Data Unit structures from described first memory cell.

15. the network service control method that high speed up packet service is provided is characterized in that, may further comprise the steps:

The high speed uplink packet access capability information that receiving terminal reports;

When confirming that according to described high speed uplink packet access capability information described terminal supports that high speed uplink packet inserts, judge the TSN size that described terminal needs;

TSN size according to described terminal needs, the MAC-es protocol Data Unit structure of from least two MAC-es protocol Data Unit structures, selecting described terminal to be suitable for, the TSN bit number of described at least two MAC-es protocol Data Unit structures is inequality, comprise first structure and second structure in described at least two MAC-es protocol Data Unit structures, the TSN maximum that the TSN bit number of described first structure is supported according to the high speed uplink packet access of single carrier determines that the TSN maximum that the TSN bit number of described second structure is supported according to the high speed uplink packet access of multicarrier is definite;

The TSN bit number of the MAC-es protocol Data Unit structure that described terminal is suitable is notified described terminal.

16. method as claimed in claim 15, it is characterized in that, when from least two MAC-es protocol Data Unit structures, selecting MAC-es protocol Data Unit structure that described terminal is suitable for according to the TSN size of described terminal needs, select the TSN maximum to equal or greater than and the MAC-es protocol Data Unit structure of the TSN size that needs of the most approaching described terminal.

17. method as claimed in claim 15 is characterized in that, the MAC-es protocol Data Unit structure of selecting described terminal to be suitable for from least two MAC-es protocol Data Unit structures according to the TSN size of described terminal needs further may further comprise the steps:

Determine the TSN bit number of described terminal needs according to the TSN size of described terminal needs;

From described two MAC-es protocol Data Unit structures, select the TSN bit number to equal at least or greater than and the MAC-es protocol Data Unit structure of the TSN bit number that needs of the most approaching described terminal.

18. the network service control device that high speed up packet service is provided is characterized in that, comprising:

Second receiving element is used for the high speed uplink packet access capability information that receiving terminal reports;

Second memory cell, be used to store at least two MAC-es protocol Data Unit structures of setting, the TSN bit number of described at least two MAC-es protocol Data Unit structures is inequality, comprise first structure and second structure in described at least two MAC-es protocol Data Unit structures, the TSN maximum that the TSN bit number of described first structure is supported according to the high speed uplink packet access of single carrier determines that the TSN maximum that the TSN bit number of described second structure is supported according to the high speed uplink packet access of multicarrier is definite;

Second judging unit, be used for judging according to described high speed uplink packet access capability information whether described terminal supports high speed uplink packet to insert, and when described terminal supports that high speed uplink packet inserts, judge the TSN size that described terminal needs and export judged result;

Second selected cell is used for the MAC-es protocol Data Unit structure that is suitable for according to the terminal that described judged result selects described support high speed uplink packet to insert from least two MAC-es protocol Data Unit structures of described second memory cell;

Second notification unit, the TSN bit number information that is used for described suitable MAC-es protocol Data Unit structure that described second selected cell is selected sends to described terminal.

19. the network service control method that high speed up packet service is provided is characterized in that, may further comprise the steps:

The high speed uplink packet access capability information of reporting terminal;

Reception is according to the high speed uplink packet access capability information of described terminal, the TSN bit number information of the MAC-es protocol Data Unit structure that is suitable for that the TSN size that described terminal needs is selected, wherein from least two MAC-es protocol Data Unit structures, select the suitable MAC-es protocol Data Unit structure of described terminal, comprise first structure and second structure in described at least two MAC-es protocol Data Unit structures, the TSN maximum that the TSN bit number of described first structure is supported according to the high speed uplink packet access of single carrier determines that the TSN maximum that the TSN bit number of described second structure is supported according to the high speed uplink packet access of multicarrier is definite.

20. method as claimed in claim 19 is characterized in that, the TSN size that described terminal needs is determined according to the business need of described terminal and the resource situation of network.

21. the network service control device that high speed up packet service is provided is characterized in that, comprising:

Report the unit, be used for the high speed uplink packet access capability information of reporting terminal;

The reception notification unit, be used to receive the high speed uplink packet access capability information that reports the terminal that the unit reports according to described, the TSN bit number information of the MAC-es protocol Data Unit structure that is suitable for that the TSN size that described terminal needs is selected, wherein from least two MAC-es protocol Data Unit structures, select the suitable MAC-es protocol Data Unit structure of described terminal, comprise first structure and second structure in described at least two MAC-es protocol Data Unit structures, the TSN maximum that the TSN bit number of described first structure is supported according to the high speed uplink packet access of single carrier determines that the TSN maximum that the TSN bit number of described second structure is supported according to the high speed uplink packet access of multicarrier is definite.

22. the network service control system that high speed up packet service is provided is characterized in that, comprising:

Terminal, be used for reporting the high speed uplink packet access capability information of described terminal, the TSN bit number information of the MAC-es protocol Data Unit structure that is suitable for that the TSN size of the high speed uplink packet access capability information according to described terminal that reception SRNC returns, described terminal needs is selected to SRNC;

SRNC, be used to receive the high speed uplink packet access capability information of described terminal to report, judge the ability that described terminal support high speed uplink packet inserts according to described high speed uplink packet access capability information, when described terminal supports that high speed uplink packet inserts, support the ability that high speed uplink packet inserts according to described terminal, the MAC-es protocol Data Unit structure that the TSN size that described terminal needs selects described terminal to be suitable for, and notify described terminal with the TSN bit number information of described suitable MAC-es protocol Data Unit structure, comprise first structure and second structure in described at least two MAC-es protocol Data Unit structures, the TSN maximum that the TSN bit number of described first structure is supported according to the high speed uplink packet access of single carrier determines that the TSN maximum that the TSN bit number of described second structure is supported according to the high speed uplink packet access of multicarrier is definite.

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