CN101547433A - Method for reporting terminal capacity information, method for distributing slot resources, devices and systems - Google Patents

Abstract

The invention discloses a method for reporting terminal capability information, a method, a device and a system for allocating time slot resources. The method for reporting terminal capability information and the time slot resource allocation method include: setting the time slot configuration mode supported by each terminal multi-slot class, dividing the terminal multi-slot classes supporting the same time slot configuration mode into a group, and dividing the terminal multi-slot class into a group. The group performs terminal capability coding, establishes the corresponding relationship between the terminal capability coding and the time slot configuration group, the terminal device reports the terminal capability coding to the network side, and the network side determines the time slot corresponding to the received terminal capability coding information according to the above established correspondence Configuration mode group, select a time slot configuration mode from this group, and allocate time slot resources for terminal equipment. A new time slot resource allocation technical solution is provided, which clarifies the meaning of terminal capability information, and avoids the failure of time slot resource allocation, waste of terminal capability, and waste of time slot resources.

Description

The method of reporting terminal capacity information, time-slot resource distribution method, Apparatus and system

Technical field

The present invention relates to the network communications technology field, be specifically related to method, the time-slot resource distribution method of reporting terminal capacity information, device, distributing slot resources device and the wireless telecommunication system of reporting terminal capacity information.

Background technology

At GSM Enhanced Data rates for GSM Evolution Radio Acesss Network (Enhanced Data rates for GSM Evolution wireless access network, GERAN) in the evolution process, introduce Latency Reduction at propagation delay time and (reduced delay character, LATRED).(reduce Transmission Time Interval, RTTI) technology promptly: under the situation that the radio block size remains unchanged, make radio block take multi-slot, to reduce the TTI of radio block for Reduced Transmission Timing Interval among the LATRED.

After having introduced LATRED, for (Temporary Block Flow TBF) avoided for two steps inserted in the process, need provide one step of the request of sign to insert and use the indication information of LATRED in a step access procedure setting up Temporary Block Flow.In addition, terminal equipment also needs to report the ability information of self, so that network can be that terminal equipment distributes suitable time interval resource according to terminal capability.The step of this moment is inserted and can be called time delay one step access.

In present one step of the time delay access procedure, (strengthen GPRS, EGPRS) untapped in the packet channel request message " 101xxxxxxxx " cause value characterizes request one step access and uses LATRED and terminal ability information mainly to utilize Enhanced GPRS.Above-mentioned " 101xxxxxxxx " can be expressed as " 101mmmpprrr ", wherein: the mmm of 3 bits represents MS Tx Capability (terminal transmitting capacity), the pp of 2 bits represents Radio Priority (Radio priority level), and the rrr of 3 bits represents Random Bits (random order).At present, MS Tx Capability can carried terminal the classification coding of maximum sending time slots number (being Tx) or maximum sending time slots number with the expression terminal capability, the classification coding that MS Tx Capability also can carried terminal multi-slot class correspondence.After the classification of terminal multi-slot class correspondence coding is promptly made nearby region measurement and required change-over time terminal multi-slot class is reduced eight classes according to the maximum sending time slots number of terminal and terminal, the coding of this eight class.For example, the implication of the MS TxCapability information of carrying is as shown in table 1.

Table 1

In realizing process of the present invention, the inventor finds above-mentioned prior art, and there are the following problems at least:

Utilize maximum sending time slots number (being Tx) represent terminal transmitting capacity (being MS Tx Capability) so that the expression terminal capability situation under, though network side can be known the maximum sending time slots number of terminal Tx, but, because network side can not be known the maximum transmitting-receiving of terminal number of time slot summation Sum, therefore, may cause the failure of network allocation resource.For example, when terminal multi-slot class is 12, its maximum sending time slots number Tx is 4, maximum transmitting-receiving number of time slot summation Sum is 5, the Tx that network side reports according to terminal equipment can distribute 2 ascending time slots (i.e. 1 Packet Data Channel (Packet Data Channel for this terminal equipment, PDCH) also can be that this terminal equipment distributes 4 ascending time slots (i.e. 2 channels that PDCH is right) right channel).But, be that terminal equipment distributes under the situation of 4 ascending time slots at network, then only stayed 1 time slot, and a time slot RTTI can not be realized, thereby the distributing slot resources failure can be caused for descending.

Encode in the classification that utilizes terminal multi-slot class correspondence and to represent still to have the problem of distributing slot resources failure under the situation of terminal transmitting capacity (being MS Tx Capability) and then expression terminal capability.Below in conjunction with Fig. 1, illustrate with a concrete example.

A kind of common distributing slot resources mode as shown in Figure 1.

Among Fig. 1, descending, network side be MS1 (support CS business descending of Dual Transfer Mode (double-transmission mode, terminal DTM)) distributed time slot 1 (white box during Fig. 1 is descending), and for the uplink assignment of the CS business of MS1 time slot 1 (white box during Fig. 1 is up).At this moment, if network side need be the PS traffic assignments time interval resource of MS1, in order effectively to utilize time interval resource, then be the descending distribution time slot 0 and the time slot 2 (filling the triangle of black during Fig. 1 is descending) of the PS business of MS1, because need be from receiving the change-over time of sending out, therefore uply can not be distributed in time slot 0, simultaneously because the CS business has been monopolized time slot 1, therefore, uply time slot 1 be can not be distributed in, thereby the uplink assignment time slot 2 and the time slot 3 (filling the triangle of black during Fig. 1 is up) of the PS business of MS1 are.After this, if network side need be the PS traffic assignments time interval resource of MS2, it for the multi-slot class 9,10,11 terminal, because it is 2 time slots from being dealt into the minimum conversion timeslot number Tra of receipts, therefore, can not support that the descending PS time interval resource of expressing among Fig. 1 is that time slot 0 and time slot 2, up PS time interval resource are the time interval resource configuring condition of time slot 2 and time slot 3.And for the multi-slot class 31,41 terminal, because it is 1 time slot from being dealt into the minimum conversion timeslot number Tra of receipts, concerning the multi-slot class is 36 terminal, when to=0, Tra also is 1 time slot, therefore, network can be that the descending time slot resource of 31,36,41 terminal distribution is that time slot 0 and time slot 2 (filling the triangle of wave during Fig. 1 is descending), ascending time slot resource are time slot 2 and time slot 3 (filling the triangle of wave during Fig. 1 is up) for the multi-slot class.

Therefore it is 001 o'clock at the MS of terminal to report Tx Capability, terminal multi-slot class may be in 9,10,11,31,36,41, if terminal multi-slot class be in 9,10,11 one and network according to distribution time interval resource shown in Figure 1, then can cause the distributing slot resources failure; Distribute time interval resource if terminal multi-slot class is in 31,36,41 one and network side according to basic conventional configuration mode, then can cause the waste of terminal capability and time interval resource.

Summary of the invention

Embodiment of the present invention provides method, time-slot resource distribution method and the device of reporting terminal capacity information, can successfully realize distributing slot resources, avoids the waste of terminal capability and time interval resource.

The method of the reporting terminal capacity information that embodiment of the present invention provides comprises:

Terminal equipment obtains its terminal capability coding;

Described terminal equipment reports the described terminal capability coding that obtains to network side;

Corresponding terminal multi-slot class group of terminal capability coding of described terminal equipment, each the terminal multi-slot class in the described terminal multi-slot class group is supported identical time slot configuration mode.

The time-slot resource distribution method that embodiment of the present invention provides comprises:

The terminal capability coded message that receiving terminal apparatus sends, the corresponding terminal multi-slot class group of described terminal capability coded message, each the terminal multi-slot class in the described terminal multi-slot class group is supported identical time slot configuration mode;

Determine the terminal multi-slot class group of the terminal capability coded message correspondence of described reception according to described corresponding relation, and from the time slot configuration mode that this group is supported, select the time slot configuration mode;

Time slot configuration mode according to described selection is that described terminal equipment carries out distributing slot resources.

The device of the reporting terminal capacity information that embodiment of the present invention provides is arranged in terminal equipment, comprising:

Acquisition module (700) is used to obtain the terminal capability coding of terminal equipment;

Reporting module (710) is used for encoding to the terminal capability that network side reports described acquisition module (700) to obtain, and carries out distributing slot resources with the indication network lateral root according to capability code time slot corresponding configuration mode;

Corresponding terminal multi-slot class group of terminal capability coding of the terminal equipment that described acquisition module (700) obtains, each the terminal multi-slot class in the described terminal multi-slot class group is supported identical time slot configuration mode.

The distributing slot resources device that embodiment of the present invention provides comprises:

Receiver module (800) is used for the terminal capability coded message that receiving terminal apparatus sends;

Select module (810), be used for determining the corresponding terminal time slot class group of terminal capability coded message that receiver module (800) receives with the corresponding relation of terminal multi-slot class group, and from the time slot configuration mode that this group is supported, select the time slot configuration mode according to the terminal capability coding; Each terminal multi-slot class in the described terminal multi-slot class group is supported identical time slot configuration mode;

Distribution module (820), being used for according to the time slot configuration mode of selecting module (810) to select is that terminal equipment carries out distributing slot resources.

The wireless telecommunication system that embodiment of the present invention provides comprises the device and the distributing slot resources device of above-mentioned reporting terminal capacity information.

Embodiment of the present invention also provides another kind of wireless telecommunication system, comprising:

Terminal equipment is used to obtain its terminal capability coding, and reports described terminal capability coding to network side; The corresponding terminal multi-slot class group of described terminal capability coding, each the terminal multi-slot class in the described terminal multi-slot class group is supported identical time slot configuration mode;

Network side, be used for the terminal capability coded message that receiving terminal apparatus sends, and according to the definite corresponding terminal time slot class group of terminal capability coded message that receives of the corresponding relation of terminal capability coding and terminal multi-slot class group, and from the time slot configuration mode that this group is supported, select the time slot configuration mode.

Description by technique scheme as can be known, embodiment of the present invention has been considered the time slot configuration mode that each terminal multi-slot class is supported, by utilizing the terminal multi-slot class group of supporting identical time slot configuration mode, make terminal equipment can pass through the reporting terminal capacity coded message, making network side is that terminal is selected the time slot configuration mode that meets the terminal multislot capability, thereby can avoid the waste of terminal capability and time interval resource successfully for terminal equipment distributes time interval resource.

Description of drawings

Fig. 1 is a distributing slot resources schematic diagram one;

Fig. 2 is a distributing slot resources schematic diagram two;

Fig. 3 is a distributing slot resources schematic diagram three;

Fig. 4 is a distributing slot resources schematic diagram four;

Fig. 5 is a distributing slot resources schematic diagram five;

Fig. 6 is a distributing slot resources schematic diagram six;

Fig. 7 is the device schematic diagram of reporting terminal capacity information;

Fig. 8 is a distributing slot resources device schematic diagram.

Embodiment

Need to set up the corresponding relation of terminal capability coding and terminal multi-slot class group in the embodiment of the present invention.The terminal capability coding is man-to-man relation with the corresponding relation of terminal multi-slot class group, i.e. the corresponding terminal multi-slot class group of terminal capability coding.At least comprise a terminal multi-slot class in the terminal multi-slot class group, promptly the corresponding relation between terminal capability coding and the terminal multi-slot class is one to one or the relation of one-to-many.Each terminal multi-slot class in terminal multi-slot class group is supported one group of identical time slot configuration mode, i.e. corresponding at least one the time slot configuration mode of terminal multi-slot class group.

Embodiment of the present invention is under the situation that takes into full account each time slot configuration mode that each terminal multi-slot class supports respectively this corresponding relation to be set.Be provided with this corresponding relation process can for: at first list the time slot configuration mode that each terminal multi-slot class is supported respectively, then, to support the terminal multi-slot class of identical time slot configuration mode to be divided into one group, and be respectively each group terminal multi-slot class and carry out the terminal capability coding, thereby set up this corresponding relation.Because a terminal multi-slot class group also is a time slot configuration mode group, therefore, the corresponding relation between terminal capability coding and the time slot configuration mode has also promptly been set up in the foundation of above-mentioned corresponding relation.Terminal multi-slot class basically can corresponding a plurality of time slot configuration modes, and therefore, terminal multi-slot class group basically can corresponding a plurality of time slot configuration modes, i.e. a terminal capability corresponding a plurality of time slot configuration mode of encoding.The corresponding relation of above-mentioned setting can exist with the form of table, database, text document, can certainly exist with other form, for example, by the corresponding relation that the IF ELSE statement is provided with above-mentioned setting is set.

When listing the time slot configuration mode that each terminal multi-slot class supports respectively, can choose normally used time slot configuration mode in the network, too much may cause the too much phenomenon of terminal multi-slot class group number to avoid the time slot configuration mode.Avoid multi-slot class group number too much, can reduce the length of terminal capability coding.

Consider RTTI and BTTI in the present network and the situation of depositing, the time slot configuration mode that the terminal multi-slot class in the embodiment of the present invention is supported can be for based on RTTI time slot configuration mode with based on BTTI time slot configuration mode.Though in following execution mode, be mostly to describe the method for reporting terminal capacity information and time-slot resource distribution method at RTTI and BTTI and the situation of depositing, but the time slot configuration mode that embodiment of the present invention is not got rid of the support of terminal multi-slot class comprises based on RTTI time slot configuration mode with based on the situation of any time slot configuration mode in the BTTI time slot configuration mode.And when including only a kind of time slot configuration mode, the implementation procedure of reporting terminal capacity information technical scheme and distributing slot resources technical scheme is similar substantially to the technical scheme of following description.Embodiment of the present invention is repeat specification no longer.

When the time slot configuration mode of terminal multi-slot class support comprises based on RTTI time slot configuration mode and do not comprise based on BTTI time slot configuration mode, support the terminal multi-slot class of identical time slot configuration mode can be the terminal multi-slot class of supporting identical time slot configuration mode based on RTTI in the embodiment of the present invention.

Comprise based on BTTI time slot configuration mode and during in the time slot configuration mode of terminal multi-slot class support based on BTTI time slot configuration mode, support in the embodiment of the present invention identical time slot configuration mode terminal multi-slot class can for: supports identical time slot configuration mode and adopting based on RTTI to lower category to handle the terminal multi-slot class that the back support is identical based on the time slot configuration mode of BTTI.Lower category to handle and to adopt the existing processing method that lowers category to realize, for example, do not use Shift USF mode etc.Embodiment of the present invention does not limit the specific implementation process that lowers category and handle.

After network side was provided with above-mentioned corresponding relation, terminal equipment can be encoded to the network side transmitting terminal capacity.Can directly store its terminal capability coded message in the terminal equipment, like this, terminal equipment can directly get access to its terminal capability coded message from canned data, and sends to network side.Also can the storage terminal capability code in the terminal equipment and the corresponding relation of terminal multi-slot class group, when terminal equipment need send its terminal capability coded message, terminal equipment can obtain its terminal multi-slot category information earlier, and utilize this terminal multi-slot category information to search its stored relation, determining its terminal capability coded message, and send the terminal capability coded message that finds to network side.

Terminal equipment can be by expanding existing message in the present network, come to network side transmitting terminal capacity coded message, for example, terminal equipment is carried at the terminal capability coded message in the EGPRS packet channel request message and sends, thereby can realize step access under the situation of request application LATRED.Embodiment of the present invention does not limit the concrete title and the form of the message of carried terminal capability code information.Certainly, embodiment of the present invention also can utilize newly-installed message to come carried terminal capability code information.

Network side can be determined the corresponding terminal multi-slot class group of terminal capability coding that the terminal equipment transmission comes according to the above-mentioned terminal capability coding and the corresponding relation of terminal multi-slot class group after the terminal capability coded message that receives the terminal equipment transmission.From foregoing description as can be known, terminal multi-slot class group is a time slot configuration mode group just, i.e. the corresponding multiple time slot configuration mode of terminal multi-slot class group.Network side is after having determined terminal multi-slot class group, also just determined terminal capability coding time slot corresponding configuration mode group, network side can be selected a kind of time slot configuration mode from the corresponding terminal multi-slot class group of terminal capability coding, for example, network side is selected a kind of time slot configuration mode according to the operating position of current wireless resource (as time interval resource).Then, utilize the time slot configuration mode of selecting to carry out distributing slot resources for this terminal equipment.For example, can to adopt existing distributing slot resources process according to the time slot configuration mode of selecting be that terminal equipment carries out distributing slot resources to embodiment of the present invention.Embodiment of the present invention does not limit the specific implementation process of carrying out distributing slot resources according to the time slot configuration mode of selecting.

Below in conjunction with accompanying drawing, describe with method, the time-slot resource distribution method of in time delay one step access procedure, realizing the distributing slot resources reporting terminal capacity information that to be example provide embodiment of the present invention.

Embodiment of the present invention is expressed as d+u with network side to the time interval resource configuration mode of terminal equipment, and wherein, d represents that network side is the descending time slot number that terminal equipment distributes, and u represents that network side is the ascending time slot number that terminal equipment distributes.Of particular note, if network side is that the terminal equipment distributed time slot is discontinuous, then d or u should comprise those and be positioned in the middle of the discontinuous position of time slot, the unallocated number of time slot of giving this terminal equipment.

In realizing one step of time delay access technology scheme, terminal equipment can be at type i and only be used for the terminal equipment of full duplex type, and the terminal multi-slot class of these terminal equipments can comprise: 5,6,7,9,10,11,12,31,32,33,34,36,37,38,39,41,42,43,44,45.Certainly, above-mentioned terminal multi-slot class only is a kind of exemplifying, and the above-mentioned terminal multi-slot class that exemplifies can suitably increase according to the situation of real network, reduce, and embodiment of the present invention does not limit the concrete manifestation form of the terminal multi-slot class that specifically comprises.

In one step of terminal equipment application time delay access procedure, network side can be the time interval resource of this terminal equipment distribution based on BTTI, also can be that this terminal equipment distributes the time interval resource based on RTTI.The distribution of time interval resource should take into account up-down bidirectional.

At the BTTI mode, at down direction, network side is generally signaling and distributes time interval resource.When network side adopts the BTTI mode to be terminal equipment allocation of downlink time interval resource, generally can be 1 PDCH channel of descending distribution; At up direction, network side can distribute a plurality of PDCH channels for it according to the ability of terminal equipment, for example, can distribute 1 or 2 or 3 or 4 or 5 or 6 PDCH channels for terminal equipment.

In conjunction with the uplink and downlink distributing slot resources of BTTI mode, network side is that the d+u based on the time slot configuration mode of BTTI that meets the terminal multislot capability that terminal equipment distributes comprises:

(1) 1+1, is 1 time interval resource of uplink assignment simultaneously at 1 time interval resource of descending distribution;

(2) 1+2, is 2 time interval resources of uplink assignment simultaneously at 1 time interval resource of descending distribution;

(3) 1+3, is 3 time interval resources of uplink assignment simultaneously at 1 time interval resource of descending distribution;

(4) 1+4, is 4 time interval resources of uplink assignment simultaneously at 1 time interval resource of descending distribution;

(5) 1+5, is 5 time interval resources of uplink assignment simultaneously at 1 time interval resource of descending distribution;

(6) 1+6, is 6 time interval resources of uplink assignment simultaneously at 1 time interval resource of descending distribution.

At the RTTI mode, at down direction, network side is to distribute time interval resource for signaling equally.When network side adopts the RTTI mode to be terminal equipment allocation of downlink time interval resource, generally can for 1 PDCH of descending distribution to (i.e. 2 PDCH) channel.At up direction, the main application scenario of considering the one step access of terminal equipment application time delay is the VoIP business, and for the VoIP business, network side is that 1 PDCH of uplink assignment just can satisfy business demand fully to (i.e. 2 PDCH) channel, therefore, network side fully can for PDCH of uplink assignment to (i.e. 2 PDCH) channel.Certainly, network side also can for the more PDCH of uplink assignment to channel, for example 2 PDCH are right.

There is double-transmission mode in the present real network, when having double-transmission mode, because the position at CS time slot place must be identical and the CS time slot has exclusivity in up-downgoing, therefore, in conjunction with the uplink and downlink distributing slot resources of BTTI mode, network side is that the d+u based on the time slot configuration mode of RTTI that terminal equipment distributes comprises two kinds of different situations: situation one, comprise following four kinds based on the d+u of the time slot configuration mode of RTTI: 1. 2+2 (the time slot label of the descending time slot of distribution is that the time slot label of the ascending time slot of i and i+1, distribution is i and i+1); 2. 2+3 (the time slot label of the descending time slot of distribution is i-1 and i, and the time slot label of the ascending time slot of distribution is i and i+2); 3. 3+2 (the time slot label of the descending time slot of distribution is i-2 and i, and the time slot label of the ascending time slot of distribution is i and i+1); 4. 2+2 (the time slot label of the descending time slot of distribution is i-1 and i, and the time slot label of the ascending time slot of distribution is i and i+1).Situation two, comprise following six kinds: 1. 2+2 (the time slot label of the descending time slot of distribution is that the time slot label of the ascending time slot of i and i+1, distribution is i and i+1) based on the d+u of the time slot configuration mode of RTTI; 2. 2+3 (the time slot label of the descending time slot of distribution is i-1 and i, and the time slot label of the ascending time slot of distribution is i and i+2); 3. 3+2 (the time slot label of the descending time slot of distribution is i-2 and i, and the time slot label of the ascending time slot of distribution is i and i+1); 4. 2+2 (the time slot label of the descending time slot of distribution is i-1 and i, and the time slot label of the ascending time slot of distribution is i and i+1); 5. (the time slot label of the descending time slot of distribution is i and i+1 to 2+4, and the time slot label of the ascending time slot of distribution is i, i+1, i+2 and i+3; ) 6. 2+5 (the time slot label of the descending time slot of distribution is i and i+1, and the time slot label of the ascending time slot of distribution is i, i+1, i+3 and i+4; ).For describing for purpose of brevity, the time slot label with the ascending time slot that distributes in the description of following execution mode is that the i summary is i for the ascending time slot that distributes, and other i+1, i+2, i+3, i-2, i-1 etc. also adopt the describing mode that omits the time slot label.The terminal equipment here can be for type i and only is used for the terminal equipment of full duplex type; Above-mentioned network side is that the time slot configuration mode of the basic RTTI of terminal equipment distribution is the time slot configuration mode that meets the terminal multislot capability.The value of above-mentioned i need make the time slot label more than or equal to 0 less than 8.The value of i also has same restriction in the following execution mode, follow-up no longer repeat specification.

1., 2., 3., 4. time interval resource configuration mode in above-mentioned situation one and the situation two is modal time interval resource configuration mode, below in conjunction with accompanying drawing to the time interval resource configuration mode in above-mentioned situation one and the situation two 1., 2., 3., 4. describe.

Fig. 2 is the time interval resource configuration mode schematic diagram 1. based on RTTI.

Among Fig. 2, network side is that PS business descending of terminal equipment distributed time slot 1 and time slot 2 (filling the square frame of grey during Fig. 2 is descending), and be terminal equipment the PS business uplink assignment time slot 1 and time slot 2 (square frame of filling grey during Fig. 2 is up).

Based on the time interval resource configuration mode of RTTI 2. and schematic diagram 4. Fig. 3 is.

Among Fig. 3, network side for the CS business of terminal equipment MS1 descending distributed time slot 2 (square frame of white during Fig. 3 is descending), and for the uplink assignment of the CS business of MS1 time slot 2 (square frame of white during Fig. 3 is up); At this moment, if network side will be the PS traffic assignments time interval resource of MS1, in order effectively to utilize time interval resource, descending distribution time slot 0 and time slot 1 (filling the triangle of black during Fig. 3 is descending), because need be from receiving the change-over time of sending out, therefore uply can not be distributed in time slot 0, simultaneously because the CS business of MS1 has been monopolized time slot 2, therefore, uply time slot 2 can not be distributed in, thereby the uplink assignment time slot 1 and the time slot 3 (filling the triangle of black during Fig. 3 is up) of the PS business of terminal equipment MS1 can only be.After this, if network side need be the PS business of terminal equipment MS2, the PS traffic assignments time interval resource of MS3, then network side be the descending distributed time slot resource of the PS business of MS2 be time slot 0 and time slot 1 (filling the triangle of wave during Fig. 3 is descending), for the time interval resource of the uplink assignment of the PS business of MS2 be time slot 1 and time slot 3 (filling the triangle of wave during Fig. 3 is up); Network side is that the descending distributed time slot resource of the PS business of MS3 is time slot 3 and time slot 4 (square frame of the descending filling oblique line of Fig. 3), for the time interval resource of the uplink assignment of the PS business of MS3 is time slot 4 and time slot 5 (square frame of the up filling oblique line of Fig. 3).

Based on the time interval resource configuration mode of RTTI 3. and schematic diagram 4. Fig. 4 is.

Among Fig. 4, network side for the CS business of terminal equipment MS1 descending distributed time slot 1 (square frame of white during Fig. 4 is descending), and for the uplink assignment of the CS business of MS1 time slot 1 (white box during Fig. 4 is up); At this moment, if network side need be the PS traffic assignments time interval resource of MS1, in order effectively to utilize time interval resource, network side is the descending distribution time slot 0 and the time slot 2 (filling the triangle of black during Fig. 4 is descending) of the PS business of terminal equipment MS1.Because need be from receiving the change-over time of sending out, uply can not be distributed in time slot 0, simultaneously because the CS business has been monopolized ascending time slot 1, therefore, uply can not be distributed in time slot 1, thus can only be for the uplink assignment of the PS business of terminal equipment MS1 time slot 2 and time slot 3 (filling the triangle of black during Fig. 4 is up).After this, if network side need be the PS business of terminal equipment MS2, the PS traffic assignments time interval resource of MS3, then network side be the descending distributed time slot resource of the PS business of MS2 be time slot 0 and time slot 2 (filling the triangle of wave during Fig. 4 is descending), for the time interval resource of the uplink assignment of the PS business of MS2 be time slot 2 and time slot 3 (filling the triangle of wave during Fig. 4 is up).Network side is that the descending distributed time slot resource of the PS business of MS3 is time slot 3 and time slot 4 (square frame of the descending filling oblique line of Fig. 4), for the time interval resource of the uplink assignment of the PS business of MS3 is time slot 4 and time slot 5 (square frame of the up filling oblique line of Fig. 4).

Time interval resource configuration mode in the above-mentioned situation two 5., 6. be two pairs of PDCH channels of uplink assignment to the time situation, 5., 6. the time interval resource configuration mode is modal time interval resource configuration mode too, below in conjunction with accompanying drawing to the time interval resource configuration mode in the above-mentioned situation two 5., 6. describe.

Fig. 5 is the time interval resource configuration mode schematic diagram 5. based on RTTI.

Among Fig. 5, network side is that PS business descending of terminal equipment distributed time slot 1 and time slot 2 (filling the square frame of grey during Fig. 5 is descending), and be terminal equipment the PS business uplink assignment time slot 1, time slot 2, time slot 3 and time slot 4 (square frame of filling grey during Fig. 5 is up).

Fig. 6 is the time interval resource configuration mode schematic diagram 6. based on RTTI.

Among Fig. 6, time slot 3 has been the CS time slot, therefore, the time slot 3 of up-downgoing is all monopolized by the CS business, network side is the descending distribution time slot 1 and the time slot 2 (filling the square frame of grey during Fig. 6 is descending) of the PS business of terminal equipment, and is uplink assignment time slot 1, time slot 2, time slot 4 and the time slot 5 (filling the square frame of grey during Fig. 6 is up) of the PS business of terminal equipment.

Grouping exemplifies explanation to the time slot configuration mode of supporting respectively below in conjunction with above-mentioned each definite terminal multi-slot class to terminal multi-slot class.

At first, grouping exemplifies explanation at a pair of terminal multi-slot of situation class.

The time slot configuration mode based on BTTI, RTTI of comprehensive above-mentioned situation one, all time slot configuration modes comprise following 10 kinds of situations: 1. 2+2 (descending time slot of distribution is that the ascending time slot of i and i+1, distribution is i and i+1); 2. 2+3 (descending time slot of distribution is i-1 and i, and the ascending time slot of distribution is i and i+2); 3. 3+2 (descending time slot of distribution is i-2 and i, and the ascending time slot of distribution is i and i+1); 4. 2+2 (descending time slot of distribution is i-1 and i, and the ascending time slot of distribution is i and i+1); (1) 1+1; (2) 1+2; (3) 1+3; (4) 1+4; (5) 1+5; (6) 1+6.

Terminal multi-slot class is being carried out in the grouping process, should determine the support situation of terminal multi-slot class earlier, promptly from above-mentioned 10 kinds of time slot configuration modes, be respectively the time slot configuration mode that each terminal multi-slot class is chosen its support above-mentioned 10 kinds of time slot configuration modes.For example, the time slot configuration mode of each terminal multi-slot class support is as shown in table 2.

Table 2

Terminal multi-slot class	The time slot configuration mode that terminal multi-slot class is supported
		Terminal multi-slot class 5	①(1)(2)
Terminal multi-slot class 6	①(1)(2)
		Terminal multi-slot class 7	①(1)(2)(3)
Terminal multi-slot class 9	①④(1)(2)
		Terminal multi-slot class 10	①④(1)(2)

Terminal multi-slot class 11	①④(1)(2)(3)
		Terminal multi-slot class 12	①④(1)(2)(3)(4)
Terminal multi-slot class 31	①④③(1)(2)
		Terminal multi-slot class 32	①②③④(1)(2)(3)
Terminal multi-slot class 33	①②③④(1)(2)(3)(4)
		Terminal multi-slot class 34	1. 2. 3. 4. (1) (2) (3) (4) (5), wherein (5) are based on Shift USF mode
Terminal multi-slot class 36	①④③(1)(2)
		Terminal multi-slot class 37	①②③④(1)(2)(3)
Terminal multi-slot class 38	①②③④(1)(2)(3)(4)
		Terminal multi-slot class 39	1. 2. 3. 4. (1) (2) (3) (4) (5), wherein (5) are based on Shift USF mode
Terminal multi-slot class 41	①④③(1)(2)
		Terminal multi-slot class 42	①②③④(1)(2)(3)
Terminal multi-slot class 43	①②③④(1)(2)(3)(4)
		Terminal multi-slot class 44	①②③④(1)(2)(3)(4)(5)
Terminal multi-slot class 45	1. 2. 3. 4. (1) (2) (3) (4) (5) (6), wherein (6) are based on Shift USF mode

Need to prove the numbering in the 10 kinds of situations that are numbered above-mentioned execution mode situation one description in the time slot configuration mode of the terminal multi-slot class support of above-mentioned table 2.In addition, the time slot configuration mode based on BTTI with the support of terminal multi-slot class in table 2 is expressed as (1) (2) (3), (1) (2) (3) (4) etc., embodiment of the present invention also can adopt the mode of MAX (n) to explain time slot configuration mode based on BTTI, for example, (1) (2) (3) are expressed as MAX (3), 3 time slots of promptly up maximum distribution; Again for example, (1) (2) (3) (4) are expressed as MAC (4), 4 time slots of promptly up maximum distribution.The time slot configuration mode that relates among the following embodiment based on BTTI also can adopt the mode of MAX (n) to explain, no longer repeat specification in the following embodiments.

After having determined the time slot configuration mode that each terminal multi-slot class is supported, will support the terminal multi-slot class of identical time slot configuration mode to be divided into one group.Associative list 2 exemplifies the different implementations of two kinds of division groups below.

Example one, will be from the 1+to the minimum transition number of time slot Tra (comprising measurement) that is dealt into receipts as a time slot or will be from the to the minimum transition number of time slot Trb (not comprising measurement) that is dealt into receipts as zero time slot (maximum 63 symbol intervals of in fact, 1 time slot width is 156.25 symbol intervals) situation under, group is divided the result and is:

To all support the 1. terminal multi-slot class 5 of (1) (2) of time slot configuration mode, 6,7 are divided into one group, to all support the 1. 4. terminal multi-slot class 9 of (1) (2) of time slot configuration mode, 10 are divided into one group, to all support the 1. 4. terminal multi-slot class 11 of (1) (2) (3) of time slot configuration mode, 12 are divided into one group, to all support the 1. 4. 3. terminal multi-slot class 31 of (1) (2) of time slot configuration mode, 36,41 are divided into one group, to all support the 1. 2. 3. 4. terminal multi-slot class 32 of (1) (2) (3) of time slot configuration mode, 37,42 are divided into one group, to all support the 1. 2. 3. 4. terminal multi-slot class 33 of (1) (2) (3) (4) of time slot configuration mode, 38,43 are divided into one group, to all support the 1. 2. 3. 4. terminal multi-slot class 34 of (1) (2) (3) (4) (5) of time slot configuration mode, 39 are divided into one group (wherein (5) are based on ShiftUSF), to all support the 1. 2. 3. 4. terminal multi-slot class 44 of (1) (2) (3) (4) (5) of time slot configuration mode, 45 are divided into one group.Thereby terminal multi-slot class is divided into 8 groups.

Example two, will be from the 1+to the minimum transition number of time slot Tra (comprising measurement) that is dealt into receipts as two time slots or will be from the to the minimum transition number of time slot Trb (not comprising measurement) that is dealt into receipts as a time slot (maximum 63 symbol intervals of in fact, 1 time slot width is 156.25 symbol intervals) situation under, group is divided the result and is:

Terminal multi-slot class 5,6,7 is divided into one group, terminal multi-slot class 9,10,11,36,37 is divided into one group, terminal multi-slot class 12,38,39 is divided into one group, terminal multi-slot class 31,41 is divided into one group, terminal multi-slot class 32,42 is divided into one group, terminal multi-slot class 33,43 is divided into one group, terminal multi-slot class 34 is divided into one group separately, terminal multi-slot class 44,45 is divided into one group.Thereby terminal multi-slot class is divided into 8 groups.

After being divided into 8 groups, being respectively each group and carrying out the terminal capability encoding operation.Owing to be divided into 8 groups, therefore, adopt the terminal capability coding of 3 bits to get final product.

At example one, the terminal capability coding is as shown in table 3 with an object lesson of the corresponding relation of terminal multi-slot class group and time slot configuration mode.

Table 3

The terminal capability coding	Terminal multi-slot class	The time slot configuration mode that terminal multi-slot class is supported
			000	Terminal multi-slot class 5,6,7	①(1)(2)
001	Terminal multi-slot class 9,10	①④(1)(2)
			010	Terminal multi-slot class 11,12	①④(1)(2)(3)
011	Terminal multi-slot class 31,36,41	①④③(1)(2)
			100	Terminal multi-slot class 32,37,42	①②③④(1)(2)(3)
101	Terminal multi-slot class 33,38,43	①②③④(1)(2)(3)(4)
			110	Terminal multi-slot class 34,39	1. 2. 3. 4. (1) (2) (3) (4) (5) wherein (5) based on Shift USF
111	Terminal multi-slot class 44,45	①②③④(1)(2)(3)(4)(5)

Need to prove, above-mentioned table 3 only is one and exemplifies mode, do not represent 1. (1) (2) of the group at 000 certain counterpart terminal multi-slot class, 5,6,7 places and time slot configuration mode, 000 also can corresponding other terminal multi-slot class group and time slot configuration mode, promptly 000 can be with any one numerical value exchange in 010 to 111.Same, 001 to 111 is not certain corresponding content as shown in table 3 yet.Relevant statement also is so in the following execution mode, no longer repeat specification.

If table 3 is specialized, then above-mentioned table 3 can be transformed to table 4.

Table 4

In the table 4, adopting (5) when distributing time interval resource to the terminal equipment that reports 110 terminal capability coding, need to use Shift USF mode, like this, the time slot position of the terminal equipment position of the time slot monitoring USF during with other configuration modes of not adopting Shift USF mode that monitors USF is different.Equally, to the situation of (6) of terminal multi-slot class 45, terminal equipment also needs to adopt the mode based on Shift USF to monitor USF.

In table 4, terminal multi-slot class 34 and terminal multi-slot class 39 have been carried out merging classification.Terminal multi-slot class 45 has been carried out lowering category (promptly not using (6)), terminal multi-slot class 45 and terminal multi-slot class 44 have been carried out merging sorted out.Under the BTTI mode, terminal multi-slot class 7 and terminal multi-slot class 12 have been adopted the processing that lowers category, promptly terminal multi-slot class 7 does not use (3), terminal multi-slot class 12 not to use (4).In actual applications, the group that embodiment of the present invention is divided is not limited to the mode shown in the above-mentioned table 4, can adopt other mode his-and-hers watches 4 that lower category to carry out simple conversion, for example, terminal multi-slot class 11 can be lowered category and incorporate the group at terminal multi-slot class 9 and terminal multi-slot class 10 places into, and terminal multi-slot class 12 is divided into 1 group separately.At this moment, group division result is: terminal multi-slot class 5,6,7 is one group; Terminal multi-slot class 9,10,11 is one group; Terminal multi-slot class 12 is one group; Terminal multi-slot class 31,36,41 is one group; Terminal multi-slot class 32,37,42 is one group; Terminal multi-slot class 33,38,43 is one group; Terminal multi-slot class 34,39 is one group; Terminal multi-slot class 44,45 is one group.Again for example, terminal multi-slot class 34,39 lowered category be included into the group at terminal multi-slot class 38,33,43 places after (promptly not using (5)), simultaneously terminal multi-slot class 45 or 12 or 7 is classified as one group (being that terminal multi-slot class 45 or 12 or 7 no longer lowers category) separately.Certainly, can also adopt other mode of lowering category to carry out the division of terminal multi-slot class group, exemplify no longer in detail at this.

Need to prove that processing can the least possible use in the process of dividing terminal multi-slot class group lowers category.

At example two, the terminal capability coding is as shown in table 5 with an object lesson of the corresponding relation of terminal multi-slot class group and time slot configuration mode.

Table 5

The terminal capability coding	Terminal multi-slot class	The time slot configuration mode that terminal multi-slot class is supported
			000	Terminal multi-slot class 5,6,7	①(1)(2)
001	Terminal multi-slot class 9,10,11,36,37	①④(1)(2)
			010	Terminal multi-slot class 12,38,39	①④(1)(2)(3)(4)
011	Terminal multi-slot class 31,41	①④③(1)(2)
			100	Terminal multi-slot class 32,42	①②③④(1)(2)(3)
101	Terminal multi-slot class 33,43	①②③④(1)(2)(3)(4)
			110	Terminal multi-slot class 34	①②③④(1)(2)(3)(4)(5)
111	Terminal multi-slot class 44,45	①②③④(1)(2)(3)(4)(5)

If table 5 is specialized, then above-mentioned table 5 can be expressed as table 6.

Table 6

Terminal multi-slot class 34, during 39 use (5) configurations, all need to use Shift USF, the time slot position of monitoring USF when the position of the time slot of terminal equipment monitoring USF is with other configuration of not adopting Shift USF (as terminal multi-slot class 44) mode like this is different, same, when being used (6) configuration, terminal multi-slot class 45 also needs to use Shift USF, in the above-mentioned table 6 terminal multi-slot class 34 is sorted out separately, to terminal multi-slot class 39 use (promptly not using (5)) that lowers category, to terminal multi-slot class 45 use (promptly not using (6)) that lowers category, with the merging of classifying of terminal multi-slot class 44 and terminal multi-slot class 45.

In table 6, to terminal multi-slot class 7 (promptly not using (3)), 11 and terminal multi-slot class 37 lower category, in actual applications, embodiment of the present invention is not limited to the mode shown in the above-mentioned table 6 to the grouping of terminal multi-slot class, can adopt other mode his-and-hers watches 6 that lower category to carry out simple conversion.For example, terminal multi-slot class 11 and 37 merging can be classified as one group; Perhaps terminal multi-slot class 12,38,39 is lowered category, and terminal multi-slot class 11,37,12,38,39 is classified as one group; Perhaps terminal multi-slot class 34 is lowered category and incorporate the group at terminal multi-slot class 33 and 43 places into.At this moment, group divide the result can for: terminal multi-slot class 5,6,7 is one group; Terminal multi-slot class 9,10,36 is one group; Terminal multi-slot class 11,37 is one group; Terminal multi-slot class 12,38,39 is one group; Terminal multi-slot class 31,41 is one group; Terminal multi-slot class 32,42 is one group; Terminal multi-slot class 33,43,34 is one group; Terminal multi-slot class 44,45 is one group.Group divide the result also can for: terminal multi-slot class 5,6,7 is one group; Terminal multi-slot class 9,10,36 is one group; Terminal multi-slot class 11,12,37,38,39 is one group; Terminal multi-slot class 31,41 is one group; Terminal multi-slot class 32,42 is one group; Terminal multi-slot class 33,43 is one group; Terminal multi-slot class 34 is one group; Terminal multi-slot class 44,45 is one group.Certainly, can also adopt other mode of lowering category to carry out the division of terminal multi-slot class group, exemplify no longer in detail at this.

After a pair of terminal multi-slot class grouping exemplified explanation at situation, grouping exemplified explanation at two pairs of terminal multi-slots of situation class below.

The time slot configuration mode based on BTTI, RTTI of comprehensive above-mentioned situation two, all time slot configuration modes comprise following 12 kinds of situations: 1. 2+2 (descending time slot of distribution is that the ascending time slot of i and i+1, distribution is i and i+1); 2. 2+3 (descending time slot of distribution is i-1 and i, and the ascending time slot of distribution is i and i+2); 3. 3+2 (descending time slot of distribution is i 1 and i, and the ascending time slot of distribution is i and i+1); 4. 2+2 (descending time slot of distribution is i-1 and i, and the ascending time slot of distribution is i and i+1); 5. (descending time slot of distribution is i and i+1 to 2+4, and the ascending time slot of distribution is i, i+1, i+2 and i+3; ); 6. (descending time slot of distribution is i and i+1 to 2+5, and the ascending time slot of distribution is i, i+1, i+3 and i+4; ); (1) 1+1; (2) 1+2; (3) 1+3; (4) 1+4; (5) 1+5; (6) 1+6.

Terminal multi-slot class is being carried out in the grouping process, should determine the support situation of terminal multi-slot class earlier, promptly from above-mentioned 12 kinds of time slot configuration modes, be respectively the time slot configuration mode that each terminal multi-slot class is chosen its support above-mentioned 12 kinds of time slot configuration modes.For example, the time slot configuration mode of each terminal multi-slot class support is as shown in table 7.

Table 7

Terminal multi-slot class	The time slot configuration mode that terminal multi-slot class is supported
		Terminal multi-slot class 5	①(1)(2)
Terminal multi-slot class 6	①(1)(2)
		Terminal multi-slot class 7	①(1)(2)(3)
Terminal multi-slot class 9	①④(1)(2)
		Terminal multi-slot class 10	①④(1)(2)
Terminal multi-slot class 11	①④(1)(2)(3)
		Terminal multi-slot class 12	①④(1)(2)(3)(4)
Terminal multi-slot class 31	①④③(1)(2)
		Terminal multi-slot class 32	①②③④(1)(2)(3)
Terminal multi-slot class 33	①②③④⑤(1)(2)(3)(4)
		Terminal multi-slot class 34	1. 2. 3. 4. 5. (1) (2) (3) (4) (5), wherein (5) are based on Shift USF mode
Terminal multi-slot class 36	①④③(1)(2)
		Terminal multi-slot class 37	①②③④(1)(2)(3)
Terminal multi-slot class 38	①②③④⑤(1)(2)(3)(4)
		Terminal multi-slot class 39	1. 2. 3. 4. 5. (1) (2) (3) (4) (5), wherein (5) are based on Shift USF mode
Terminal multi-slot class 41	①④③(1)(2)
		Terminal multi-slot class 42	①②③④(1)(2)(3)
Terminal multi-slot class 43	①②③④⑤(1)(2)(3)(4)
		Terminal multi-slot class 44	①②③④⑤⑥(1)(2)(3)(4)(5)
Terminal multi-slot class 45	1. 2. 3. 4. 5. 6. (1) (2) (3) (4) (5) (6), wherein (6) are based on Shift USF mode

Need to prove the numbering in the 12 kinds of time slot configuration modes that are numbered above-mentioned execution mode situation two descriptions in the time slot configuration mode of the terminal multi-slot class support of above-mentioned table 7.

After having determined the time slot configuration mode that each terminal multi-slot class is supported, will support the terminal multi-slot class of identical time slot configuration mode to be divided into one group.Below in conjunction with table 7, exemplify the different implementations of two kinds of terminal multi-slot class division groups.

Example three, will be from the 1+to the minimum transition number of time slot Tra (comprising measurement) that is dealt into receipts as a time slot or will be from the to the minimum transition number of time slot Trb (not comprising measurement) that is dealt into receipts as zero time slot (maximum 63 symbol intervals of in fact, 1 time slot width is 156.25 symbol intervals), terminal multi-slot class group is divided the result and is:

To all support the 1. terminal multi-slot class 5 of (1) (2) of time slot configuration mode, 6,7 are divided into one group, to all support the 1. 4. terminal multi-slot class 9 of (1) (2) of time slot configuration mode, 10 are divided into one group, to all support the 1. 4. terminal multi-slot class 11 of (1) (2) (3) of time slot configuration mode, 12 are divided into one group, to all support the 1. 4. 3. terminal multi-slot class 31 of (1) (2) of time slot configuration mode, 36,41 are divided into one group, to all support the 1. 2. 3. 4. terminal multi-slot class 32 of (1) (2) (3) of time slot configuration mode, 37,42 are divided into one group, to all support the 1. 2. 3. 4. 5. terminal multi-slot class 33 of (1) (2) (3) (4) of time slot configuration mode, 38,43 are divided into one group, to all support the 1. 2. 3. 4. 5. terminal multi-slot class 34 of (1) (2) (3) (4) (5) of time slot configuration mode, 39 are divided into one group (wherein (5) are based on Shift USF), to all support the 1. 2. 3. 4. 5. 6. terminal multi-slot class 44 of (1) (2) (3) (4) (5) of time slot configuration mode, 45 are divided into one group.Thereby terminal multi-slot class is divided into 8 groups.

Example four, will be from the 1+to the minimum transition number of time slot Tra (comprising measurement) that is dealt into receipts as two time slots or will be from the to the minimum transition number of time slot Trb (not comprising measurement) that is dealt into receipts as a time slot (maximum 63 symbol intervals of in fact, 1 time slot width is 156.25 symbol intervals), group is divided the result and is:

To all support the time slot configuration mode 1. the terminal multi-slot class 5,6,7 of (1) (2) be divided into one group; To all support the time slot configuration mode 1. 4. the terminal multi-slot class 9,10,36 of (1) (2) be divided into one group; To all support the time slot configuration mode 1. 4. the terminal multi-slot class 11,12,37 of (1) (2) (3) be divided into one group; To all support the time slot configuration mode 1. 4. 5. the terminal multi-slot class 38,39 of (1) (2) (3) (4) be divided into one group; To all support the time slot configuration mode 1. 4. 3. the terminal multi-slot class 31,41 of (1) (2) be divided into one group; To all support the time slot configuration mode 1. 2. 3. 4. the terminal multi-slot class 32,42 of (1) (2) (3) be divided into one group; To all support the time slot configuration mode 1. 2. 3. 4. 5. the terminal multi-slot class 33,34,43 of (1) (2) (3) (4) be divided into one group; To all support the time slot configuration mode 1. 2. 3. 4. 5. 6. the terminal multi-slot class 44,45 of (1) (2) (3) (4) (5) be divided into one group, thereby terminal multi-slot class is divided into 8 groups.

After being divided into 8 groups, being respectively each group and carrying out the terminal capability encoding operation.Owing to be divided into 8 groups, therefore, adopt the terminal capability coding of 3 bits to get final product.

At example three, the terminal capability coding is as shown in table 8 with an object lesson of the corresponding relation of terminal multi-slot class group and time slot configuration mode.

Table 8

The terminal capability coding	Terminal multi-slot class	The time slot configuration mode that terminal multi-slot class is supported
			000	Terminal multi-slot class 5,6,7	①(1)(2)
001	Terminal multi-slot class 9,10	①④(1)(2)
			010	Terminal multi-slot class 11,12	①④(1)(2)(3)
011	Terminal multi-slot class 31,36,41	①④③(1)(2)
			100	Terminal multi-slot class 32,37,42	①②③④(1)(2)(3)
101	Terminal multi-slot class 33,38,43	①②③④⑤(1)(2)(3)(4)
			110	Terminal multi-slot class 34,39	1. 2. 3. 4. 5. (1) (2) (3) (4) (5) wherein (5) based on Shift USF
111	Terminal multi-slot class 44,45	①②③④⑤⑥(1)(2)(3)(4)(5)

If table 8 is specialized, then above-mentioned table 8 can be expressed as table 9.

Table 9

Adopting (5) when distributing time interval resource to the terminal equipment that reports 110 terminal capability coding, need to use Shift USF mode, like this, to monitor the position of the time slot of USF be that the time slot position of the monitoring USF during with other configuration mode of not adopting Shift USF mode is different to terminal equipment.

To the situation of (6) of terminal multi-slot class 45, terminal equipment also needs to adopt the mode based on Shift USF to monitor USF.

In table 9, terminal multi-slot class 34 and terminal multi-slot class 39 have been carried out merging classification.Terminal multi-slot class 45 is lowered category, promptly do not use (6), terminal multi-slot class 45 and terminal multi-slot class 44 have been carried out merging sorted out.Under the BTTI mode, terminal multi-slot class 7 (promptly not using (3)) and terminal multi-slot class 12 (promptly not using (4)) have been adopted the processing that lowers category.In actual applications, embodiment of the present invention is not limited to the mode shown in the above-mentioned table 9, can adopt other mode his-and-hers watches 9 that lower category to carry out simple conversion, for example, terminal multi-slot class 34 and 39 can be lowered category and incorporate the group at terminal multi-slot class 33,38 and 43 places into, and other terminal multi-slot class that lowers category is proposed to classify one group separately as, for example, terminal multi-slot class 12 is divided into 1 group separately; Again for example, terminal multi-slot class 45 is divided into one group separately; Also have, classify terminal multi-slot class 7 as one group separately.

At example two, the terminal capability coding is as shown in table 10 with an object lesson of the corresponding relation of terminal multi-slot class group and time slot configuration mode.

Table 10

The terminal capability coding	Terminal multi-slot class	The time slot configuration mode that terminal multi-slot class is supported
			000	Terminal multi-slot class 5,6,7	①(1)(2)
001	Terminal multi-slot class 9,10,36	①④(1)(2)
			010	Terminal multi-slot class 11,12,37	①④(1)(2)(3)
011	Terminal multi-slot class 38,39	①④⑤(1)(2)(3)(4)
			100	Terminal multi-slot class 31,41	①③④(1)(2)
101	Terminal multi-slot class 32,42	①②③④(1)(2)(3)
			110	Terminal multi-slot class 33,34,43	①②③④⑤(1)(2)(3)(4)
111	Terminal multi-slot class 44,45	①②③④⑤⑥(1)(2)(3)(4)(5)

If table 10 is specialized, then can be transformed to table 11.

Table 11

When terminal multi-slot class 34,39 is used time slot configuration mode (5), all need to use Shift USF, the time slot position of monitoring USF when the position of the time slot of terminal equipment monitoring USF is with other time slot configuration mode of not using Shift USF (as terminal multi-slot class 44) like this is different, same, when being used time slot configuration mode (6), terminal multi-slot class 45 also needs to use Shift USF, to terminal multi-slot class 34 use (promptly not using (5)) that lowers category, itself and terminal multi-slot class 33,43 are merged in the above-mentioned table 11.To terminal multi-slot class 39 use (promptly not using (5)) that also lowers category, itself and terminal multi-slot class 38 are merged.To terminal multi-slot class 45 use (promptly not using (6)) that also lowers category, itself and terminal multi-slot class 44 are merged.

Can storage terminal multi-slot class in the terminal equipment and the corresponding relation of terminal capability coding, like this, when terminal equipment need send the terminal capability coded message, can find corresponding terminal capability coded message according to its terminal multi-slot class.Terminal equipment can be carried at the terminal capability coded message among the mmm of " 101mmmpprrr " of EGPRS packet channel request message and send, and certainly, also can be carried among the rrr of " 100mmmpprrr ".Embodiment of the present invention is the limiting terminal capability code information concrete manifestation form of carrying in message not.

In embodiment of the present invention, in the terminal equipment also not storage terminal multi-slot class and terminal capability the coding corresponding relation, and only store himself terminal capability coded message, like this, when terminal equipment need send the terminal capability coded message, can not search and directly obtain its terminal capability coded message.

Under the terminal capability coded message was carried at situation in the EGPRS packet channel request message, the implication of Training Sequencel (training sequence 1, TS1), Training Sequence2 (training sequence 2, TS2) does not change, and was as shown in table 12.

Table 12

(training sequence) Training Sequence (3GPP TS45.002)	Bit Bits 11...1	Packet Channel Access (grouped channels access)
			TS1	＜EGPRS Packet channel request message content (content of EGPRS packet channel request message) 〉	EGPRS with 8PSK capability in uplink (the up tool 8PSK of EGPRS ability)
TS2	＜EGPRS Packet channel request message content (content of EGPRS packet channel request message) 〉	EGPRS withou t8PSK capability in uplink (the up no 8PSK ability of EGPRS)

The message content of EGPRS packet channel request message that carries the terminal capability coded message is as shown in table 13.

Table 13

In the table 13, One Phase Access Request Reduced Latency promptly asks a step to be inserted and the request delay character.The 3 bit mmm that add among " mmmpprrr " of 8 bits of " 101 " of black italic can be expressed as MS ConfigurationCategory (terminal configuration kind) or be expressed as MS Capability (terminal capability), can also be expressed as ConfigurationCategory (configuration categories) or the like.Mmm also can be expressed as other titles, and embodiment of the present invention does not limit the concrete manifestation form of this title.The information that mmm carries is terminal capability coding, also is the coding of terminal multi-slot class group.2 bit rr can represent that Radio Priority is a Radio priority level, and 3 bit rrr can represent that Random Bits is a random order.

Network side is after receiving the EGPRS packet channel request message, obtain the information of carrying among the mmm of 101mmmpprrr, network side can utilize above-mentioned table 3 or table 5 or table 8 or table 10 to determine the information time slot corresponding configuration mode that mmm carries, and network side is selected a kind of time slot configuration mode according to the operating position of current time slots resource.For example, mmm is 001, and then network side utilizes table 3 to know that the time slot corresponding configuration mode is 1. 4. (1) (2), and network side can be according to 1. or 4. this terminal equipment being carried out distributing slot resources when adopting the RTTI mode to carry out distributing slot resources; Network side can carry out distributing slot resources to this terminal equipment according to (1) or (2) when adopting the BTTI mode to carry out distributing slot resources.

Embodiment of the present invention has been considered the time slot configuration mode that each terminal multi-slot class is supported, by utilizing the terminal multi-slot class group of supporting identical time slot configuration mode, make terminal equipment can pass through the reporting terminal capacity coded message, making network side is that terminal is selected the time slot configuration mode that meets the terminal multislot capability, thereby can avoid the waste of terminal capability and time interval resource successfully for terminal equipment distributes time interval resource.

Through the above description of the embodiments, those skilled in the art can be well understood to the present invention and can realize by the mode that software adds essential hardware platform, can certainly all implement, but the former is better execution mode under a lot of situation by hardware.Based on such understanding, all or part of can the embodying that technical scheme of the present invention contributes to background technology with the form of software product, this computer software product can be stored in the storage medium, as ROM/RAM, magnetic disc, CD etc., comprise that some instructions are with so that a computer equipment (can be a personal computer, server, the perhaps network equipment etc.) carry out the described method of some part of each embodiment of the present invention or embodiment.

The device and the distributing slot resources device of the reporting terminal capacity information that embodiment of the present invention is provided below in conjunction with accompanying drawing describe.

The device of the reporting terminal capacity information that the invention process provides can be arranged in terminal equipment.The device of the reporting terminal capacity information in the terminal equipment as shown in Figure 7.

Among Fig. 7, the device of reporting terminal capacity information comprises acquisition module 700 and reporting module 710.

Acquisition module 700 obtains the terminal capability coding of terminal equipment.The terminal capability coding here is to there being terminal multi-slot class group.The terminal capability coding is man-to-man relation with the corresponding relation of terminal multi-slot class group, comprises a terminal multi-slot class at least in the terminal multi-slot class group.Each terminal multi-slot class in terminal multi-slot class group is supported one group of identical time slot configuration mode.

Embodiment of the present invention is that the terminal capability coding is set under the situation that takes into full account each time slot configuration mode that each terminal multi-slot class supports respectively.Be provided with terminal capability coding process can for: at first list the time slot configuration mode that each terminal multi-slot class is supported respectively, then, to support the terminal multi-slot class of identical time slot configuration mode to be divided into one group, and be respectively each group terminal multi-slot class and carry out the terminal capability coding, thereby set up this terminal capability coding and corresponding relation.The object lesson of the terminal multi-slot class group that the terminal capability coding is corresponding such as the description in the above-mentioned method execution mode are in this no longer repeat specification.

Acquisition module 700 can directly get access to the terminal capability coded message from the terminal equipment canned data.Do not have in terminal equipment under the situation of direct storage terminal capability code information, acquisition module 700 can obtain submodule 701 and second by first and obtain submodule 702 and form.

At first, first obtain the terminal multi-slot category information that submodule 701 obtains terminal equipment.Then, second obtain submodule 702 and search first according to the terminal capability stored in the terminal equipment coding and the corresponding relation of terminal multi-slot class group and obtain the corresponding terminal capability of terminal multi-slot category information that submodule 701 obtains and encode.The terminal capability coding of storing in the terminal equipment can show as forms such as table, database, text document, IF ELSE with the corresponding relation of terminal multi-slot class group.

Reporting module 710 is carried out distributing slot resources according to capability code time slot corresponding configuration mode to terminal equipment with the indication network lateral root to the terminal capability coding that network side reports acquisition module 700 to obtain.Reporting module 710 can be by expanding existing message in the present network, come to network side transmitting terminal capacity coded message, for example, terminal equipment is carried at the terminal capability coded message in the EGPRS packet channel request message and sends, thereby can realize step access under the situation of request application LATRED.Embodiment of the present invention does not limit the concrete kind title of the message of carried terminal capability code information.Certainly, the reporting module in the embodiment of the present invention 710 also can utilize newly-installed message to come carried terminal capability code information.

The distributing slot resources device that the invention process provides is arranged in the network equipment of network side.The distributing slot resources device as shown in Figure 8.

Distributing slot resources device among Fig. 8 comprises receiver module 800, selects module 810 and distribution module 820.

The terminal capability coded message that receiver module 800 receiving terminal apparatus send.For example, the EGPRS packet channel request message that receiver module 800 receiving terminal apparatus send, and from " 101 " of EGPRS packet channel request message, obtain the terminal capability coded message.Description in the particular content of EGPRS packet channel request message such as the above-mentioned method execution mode.In this no longer repeat specification.

Select module 810 to determine the corresponding terminal multi-slot class group of terminal capability coded message that receiver module 800 receives with the corresponding relation of terminal multi-slot class group according to the terminal capability coding of network side storing, implement to describe as can be known from said method, terminal multi-slot class group is a time slot configuration mode group just, i.e. the corresponding multiple time slot configuration mode of terminal multi-slot class group.Select module 810 after having determined terminal multi-slot class group, also just determined terminal capability coding time slot corresponding configuration mode group, select module 810 from the corresponding terminal multi-slot class group of terminal capability coding, to select a kind of time slot configuration mode, for example, network side is selected a kind of time slot configuration mode according to the operating position of current time slots resource.

Terminal capability coding and the particular content of the corresponding relation of terminal multi-slot class group such as the description in the above-mentioned method execution mode of above-mentioned network side storing, the specific implementation process of setting up corresponding relation also as the description in the above-mentioned method execution mode, in this no longer repeat specification.

Distribution module 820 is that terminal equipment carries out distributing slot resources according to the time slot configuration mode of selecting module 810 to select.It is that terminal equipment carries out distributing slot resources that distribution module 820 can adopt existing distributing slot resources process according to the time slot configuration mode of selecting.Embodiment of the present invention does not limit distribution module 820 is carried out distributing slot resources according to the time slot configuration mode of selecting module 810 to select specific implementation process.

The wireless telecommunication system that embodiment of the present invention is provided describes below.

The wireless telecommunication system that embodiment of the present invention provides can be General Packet Radio Service (GPRS, GSM), it also can be General Packet Radio Service (GPRS, GPRS) system, can also be Enhanced Data rates for GSM Evolution (Enhanced Data rates for GSM Evolution, EDGE) system.Embodiment of the present invention does not limit the particular type of wireless telecommunication system.

The wireless telecommunication system that embodiment of the present invention provides comprises terminal equipment and network side.

Terminal equipment obtains its terminal capability coding, and reports described terminal capability coding to network side.The terminal capability coding is answered corresponding terminal multi-slot class group, and each the terminal multi-slot class in this terminal multi-slot class group is supported identical time slot configuration mode.Terminal equipment can directly obtain the terminal capability coded message from its canned data, terminal equipment also can obtain its terminal multi-slot category information earlier, and then utilizes terminal multi-slot category information to obtain the terminal capability coded message.Terminal equipment can comprise acquisition module 700 and reporting module 710, and terminal equipment obtains the particular content of the terminal multi-slot class counterpart terminal multi-slot group of storing in the specific implementation process, acquisition module 700 of terminal capability coded message and operation that reporting module 710 is carried out and the terminal equipment such as the description in the above-mentioned execution mode.In this no longer repeat specification.

The terminal capability coded message that the network side receiving terminal apparatus sends, and utilize the terminal capability coded message that receives in the corresponding relation of terminal capability coding and terminal multi-slot class group, to search, to obtain the terminal multi-slot class group of the terminal capability coded message correspondence that receives, after finding corresponding terminal multi-slot class group, from the time slot configuration mode that this multi-slot class group is pointed out, select the time slot configuration mode, and utilize the time slot configuration mode of selecting to carry out distributing slot resources for terminal equipment.Network side can comprise receiver module 800, select module 810 and distribution module 820, the concrete operations that each module is carried out, terminal capability coding and the particular content of the corresponding relation of terminal multi-slot class group such as the description in the above-mentioned execution mode are in this no longer repeat specification.

Though described the present invention by embodiment, those of ordinary skills know, the present invention has many distortion and variation and do not break away from spirit of the present invention, and the claim of application documents of the present invention comprises these distortion and variation.

Claims (19)

1, a kind of method of reporting terminal capacity information is characterized in that, described method comprises:

Terminal equipment obtains its terminal capability coding;

Described terminal equipment reports the described terminal capability coding that obtains to network side;

Corresponding terminal multi-slot class group of terminal capability coding of described terminal equipment, each the terminal multi-slot class in the described terminal multi-slot class group is supported identical time slot configuration mode.

2, the method for claim 1 is characterized in that, the time slot configuration mode of described each terminal multi-slot class support comprises: based on the time slot configuration mode that reduces time interval RTTI and/or based on the time slot configuration mode of basic Transmission Time Interval BTTI.

3, method as claimed in claim 2 is characterized in that,

The kind based on the time slot configuration mode of RTTI of described each terminal multi-slot class support comprises:

The time slot label of descending time slot configuration is i and i+1, and the time slot label of ascending time slot configuration is i and i+1;

The time slot label of descending time slot configuration is i-1 and i, and the time slot label of ascending time slot configuration is i and i+2;

The time slot label of descending time slot configuration is i-2 and i, and the time slot label of ascending time slot configuration is i and i+1;

The time slot label of descending time slot configuration is i-1 and i, and the time slot label of ascending time slot configuration is i and i+1;

Time slot label in the described time slot configuration more than or equal to 0 less than 8;

The kind based on the time slot configuration mode of BTTI of described each terminal multi-slot class support comprises:

1 time slot of downstream arrangements, up configuration 1 or 2 or 3 or 4 or 5 or 6 time slots.

4, method as claimed in claim 2 is characterized in that,

The kind based on the time slot configuration mode of RTTI of described each terminal multi-slot class support comprises:

The time slot label of descending time slot configuration is i and i+1, and the time slot label of ascending time slot configuration is i and i+1;

The time slot label of descending time slot configuration is i-1 and i, and the time slot label of ascending time slot configuration is i and i+2;

The time slot label of descending time slot configuration is i-2 and i, and the time slot label of ascending time slot configuration is i and i+1;

The time slot label of descending time slot configuration is i-1 and i, and the time slot label of ascending time slot configuration is i and i+1;

The time slot label of descending time slot configuration is i and i+1, and the time slot label of ascending time slot configuration is i, i+1, i+2 and i+3;

The time slot label of descending time slot configuration is i and i+1, and the time slot label of ascending time slot configuration is i, i+1, i+3 and i+4;

Time slot label in the described time slot configuration more than or equal to 0 less than 8;

The kind based on the time slot configuration mode of BTTI of described each terminal multi-slot class support comprises:

1 time slot of downstream arrangements, up configuration 1 or 2 or 3 or 4 or 5 or 6 time slots.

5, as claim 3 or 4 described methods, it is characterized in that:

The terminal multi-slot class of the identical time slot configuration mode of described support comprises: support identical based on RTTI the time slot configuration mode and/or support identical time slot configuration mode based on BTTI; Perhaps

The terminal multi-slot class of the identical time slot configuration mode of described support comprises: support identical time slot configuration mode and/or employing based on RTTI to lower category and handle the back and support the identical time slot configuration mode based on BTTI.

6, method as claimed in claim 5 is characterized in that, described terminal multi-slot class is divided into eight groups, is respectively:

Terminal multi-slot class 5,6,7 is one group; Terminal multi-slot class 9,10 is one group; Terminal multi-slot class 11,12 is one group; Terminal multi-slot class 31,36,41 is one group; Terminal multi-slot class 32,37,42 is one group; Terminal multi-slot class 33,38,43 is one group; Terminal multi-slot class 34,39 is one group; Terminal multi-slot class 44,45 is one group;

Perhaps described terminal multi-slot class is divided into eight groups, is respectively:

Terminal multi-slot class 5,6,7 is one group; Terminal multi-slot class 9,10,11 is one group; Terminal multi-slot class 12 is one group; Terminal multi-slot class 31,36,41 is one group; Terminal multi-slot class 32,37,42 is one group; Terminal multi-slot class 33,38,43 is one group; Terminal multi-slot class 34,39 is one group; Terminal multi-slot class 44,45 is one group.

7, method as claimed in claim 5 is characterized in that, described terminal multi-slot class is divided into eight groups, is respectively:

Terminal multi-slot class 5,6,7 is one group; Terminal multi-slot class 9,10,11,36,37 is one group; Terminal multi-slot class 12,38,39 is one group; Terminal multi-slot class 31,41 is one group; Terminal multi-slot class 32,42 is one group; Terminal multi-slot class 33,43 is one group; Terminal multi-slot class 34 is one group; Terminal multi-slot class 44,45 is one group;

Perhaps described terminal multi-slot class is divided into eight groups, is respectively:

Terminal multi-slot class 5,6,7 is one group; Terminal multi-slot class 9,10,36 is one group; Terminal multi-slot class 11,37 is one group; Terminal multi-slot class 12,38,39 is one group; Terminal multi-slot class 31,41 is one group; Terminal multi-slot class 32,42 is one group; Terminal multi-slot class 33,43,34 is one group; Terminal multi-slot class 44,45 is one group;

Perhaps described terminal multi-slot class is divided into eight groups, is respectively:

Terminal multi-slot class 5,6,7 is one group; Terminal multi-slot class 9,10,36 is one group; Terminal multi-slot class 11,12,37,38,39 is one group; Terminal multi-slot class 31,41 is one group; Terminal multi-slot class 32,42 is one group; Terminal multi-slot class 33,43 is one group; Terminal multi-slot class 34 is one group; Terminal multi-slot class 44,45 is one group.

8, method as claimed in claim 5 is characterized in that, described terminal multi-slot class is divided into eight groups, is respectively:

Terminal multi-slot class 5,6,7 is one group; Terminal multi-slot class 9,10,36 is one group; Terminal multi-slot class 11,12,37 is one group; Terminal multi-slot class 38,39 is one group; Terminal multi-slot class 31,41 is one group; Terminal multi-slot class 32,42 is one group; Terminal multi-slot class 33,34,43 is one group; Terminal multi-slot class 44,45 is one group.

9, the method for claim 1 is characterized in that, described terminal equipment obtains its terminal capability coding and comprises:

Terminal equipment obtains its terminal multi-slot category information, and determines the terminal capability coding of terminal equipment according to the terminal capability coding that sets in advance and the corresponding relation of terminal multi-slot class group.

10, a kind of time-slot resource distribution method is characterized in that, described method comprises:

The terminal capability coded message that receiving terminal apparatus sends, the corresponding terminal multi-slot class group of described terminal capability coded message, each the terminal multi-slot class in the described terminal multi-slot class group is supported identical time slot configuration mode;

Determine the terminal multi-slot class group of the terminal capability coded message correspondence of described reception according to described corresponding relation, and from the time slot configuration mode that this group is supported, select the time slot configuration mode;

Time slot configuration mode according to described selection is that described terminal equipment carries out distributing slot resources.

11, method as claimed in claim 10 is characterized in that, the time slot configuration mode of described each terminal multi-slot class support comprises: based on the time slot configuration mode that reduces time interval RTTI and/or based on the time slot configuration mode of basic Transmission Time Interval BTTI.

12, method as claimed in claim 11 is characterized in that,

The kind based on the time slot configuration mode of RTTI of described each terminal multi-slot class support comprises:

The time slot label of descending time slot configuration is i and i+1, and the time slot label of ascending time slot configuration is i and i+1;

The time slot label of descending time slot configuration is i-1 and i, and the time slot label of ascending time slot configuration is i and i+2;

The time slot label of descending time slot configuration is i-2 and i, and the time slot label of ascending time slot configuration is i and i+1;

The time slot label of descending time slot configuration is i-1 and i, and the time slot label of ascending time slot configuration is i and i+1;

Time slot label in the described time slot configuration more than or equal to 0 less than 8;

The kind based on the time slot configuration mode of BTTI of described each terminal multi-slot class support comprises:

1 time slot of downstream arrangements, up configuration 1 or 2 or 3 or 4 or 5 or 6 time slots.

13, method as claimed in claim 11 is characterized in that,

The kind based on the time slot configuration mode of RTTI of described each terminal multi-slot class support comprises:

The time slot label of descending time slot configuration is i and i+1, and the time slot label of ascending time slot configuration is i and i+1;

The time slot label of descending time slot configuration is i-1 and i, and the time slot label of ascending time slot configuration is i and i+2;

The time slot label of descending time slot configuration is i-2 and i, and the time slot label of ascending time slot configuration is i and i+1;

The time slot label of descending time slot configuration is i-1 and i, and the time slot label of ascending time slot configuration is i and i+1;

The time slot label of descending time slot configuration is i and i+1, and the time slot label of ascending time slot configuration is i, i+1, i+2 and i+3;

The time slot label of descending time slot configuration is i and i+1, and the time slot label of ascending time slot configuration is i, i+1, i+3 and i+4;

Time slot label in the described time slot configuration more than or equal to 0 less than 8;

The kind based on the time slot configuration mode of BTTI of described each terminal multi-slot class support comprises:

1 time slot of downstream arrangements, up configuration 1 or 2 or 3 or 4 or 5 or 6 time slots.

14, as claim 12 or 13 described methods, it is characterized in that:

The terminal multi-slot class of the identical time slot configuration mode of described support comprises: support identical based on RTTI the time slot configuration mode and/or support identical time slot configuration mode based on BTTI; Perhaps

The terminal multi-slot class of the identical time slot configuration mode of described support comprises: support identical time slot configuration mode and/or employing based on RTTI to lower category and handle the back and support the identical time slot configuration mode based on BTTI.

15, a kind of device of reporting terminal capacity information is arranged in terminal equipment, it is characterized in that, comprising:

Acquisition module (700) is used to obtain the terminal capability coding of terminal equipment;

Reporting module (710) is used for encoding to the terminal capability that network side reports described acquisition module (700) to obtain, and carries out distributing slot resources with the indication network lateral root according to capability code time slot corresponding configuration mode;

Corresponding terminal multi-slot class group of terminal capability coding of the terminal equipment that described acquisition module (700) obtains, each the terminal multi-slot class in the described terminal multi-slot class group is supported identical time slot configuration mode.

16, device as claimed in claim 15 is characterized in that, acquisition module (700) comprising:

First obtains submodule (701), is used to obtain the terminal multi-slot category information of terminal equipment;

Second obtains submodule (702), is used for searching first according to the terminal capability coding and the corresponding relation of terminal multi-slot class group and obtains the corresponding terminal capability coding of terminal multi-slot category information that submodule (701) obtains.

17, a kind of distributing slot resources device is characterized in that, comprising:

Receiver module (800) is used for the terminal capability coded message that receiving terminal apparatus sends;

Select module (810), be used for determining the corresponding terminal time slot class group of terminal capability coded message that receiver module (800) receives with the corresponding relation of terminal multi-slot class group, and from the time slot configuration mode that this group is supported, select the time slot configuration mode according to the terminal capability coding; Each terminal multi-slot class in the described terminal multi-slot class group is supported identical time slot configuration mode;

Distribution module (820), being used for according to the time slot configuration mode of selecting module (810) to select is that terminal equipment carries out distributing slot resources.

18, a kind of wireless telecommunication system comprises the device and the distributing slot resources device of aforesaid right requirement 15 and 17 described reporting terminal capacity informations.

19, a kind of wireless telecommunication system comprises:

Terminal equipment is used to obtain its terminal capability coding, and reports described terminal capability coding to network side; The corresponding terminal multi-slot class group of described terminal capability coding, each the terminal multi-slot class in the described terminal multi-slot class group is supported identical time slot configuration mode;

Network side, be used for the terminal capability coded message that receiving terminal apparatus sends, and according to the definite corresponding terminal time slot class group of terminal capability coded message that receives of the corresponding relation of terminal capability coding and terminal multi-slot class group, and from the time slot configuration mode that this group is supported, select the time slot configuration mode.

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