CN104685944B - The method and network side equipment of dispatching uplink information - Google Patents

Abstract

The present invention provides the method and network side equipment of a kind of dispatching uplink information.Network side equipment is that first terminal configures the first training sequence, the second training sequence is configured for second terminal, first training sequence is different from the second training sequence, first terminal is dispatched using the first scheduling mode, second terminal is dispatched using the second scheduling mode, so that first terminal and second terminal are respectively adopted the first training sequence and the second training sequence and send uplink information on identical ascending packet data channel PDCH at least one identical block period.

Description

The method and network side equipment of dispatching uplink information

Technical field

The present embodiments relate to the methods and network side of mobile communication technology more particularly to a kind of dispatching uplink information to set It is standby.

Background technique

In general packet radio service technology (General Packet Radio Service, abbreviation GPRS) and enhancing GPRS(abbreviation EGPRS) in system, can be carried on each time slot a Packet Data Channel (Packet Data Channel, Abbreviation PDCH), a PDCH can be shared by multiple terminal time-divisions, and a terminal can also be assigned multiple PDCH.In addition, GPRS introduces the concept of radio block (radio block): the identical burst (burst) of timeslot number claims on continuous 4 TDMA frames For a radio block.Radio block is the basic unit that GPRS carries out data transmission.Data transmission in GPRS is all to pass through foundation Temporary Block Flow (Temporary Block Flow, abbreviation TBF) is come what is completed, as caused by a link in webpage clicking Data can be transmitted by establishing Temporary Block Flow.Downlink TBF sends data to terminal for network, and uplink TBF is then used for end It holds to network and sends data.

For downlink TBF, terminal will receive each nothing on the one or more downlink PDCH distributed in downlink TBF Line block checks the Temporary Block Flow instruction (Temporary Flow Identity, abbreviation TFI) in these radio block heads, if TFI is equal to the TFI of downlink TBF, then shows that the radio block belongs to downlink TBF.For uplink TBF, to avoid multiple terminals Conflict is sent, network indicates which terminal is each radio block resource of some uplink PDCH belong to by certain mode (i.e. which terminal can send data in the radio block period).

But when great amount of terminals needs simultaneously or is inscribed in section at the same time fashionable, can exist due to PDCH resource not The case where being denied access enough, and since the access that makes repeated attempts of terminal will lead to more unnecessary access interferences and connect Enter failure, reduce the success rate of wireless access, therefore, lifting system capacity becomes problem in the urgent need to address.

Summary of the invention

The first aspect of the invention is to provide a kind of method of dispatching uplink information, and the terminal for promoting communication system is held Amount.

Another aspect of the present invention is to provide a kind of network side equipment, promotes the termination capacity of communication system.

The first aspect of the invention is to provide a kind of method of dispatching uplink information, comprising:

Network side equipment is that first terminal configures the first training sequence, configures the second training sequence for second terminal, wherein First training sequence is different from second training sequence；

The network side equipment dispatches the first terminal using the first scheduling mode, dispatches institute using the second scheduling mode Second terminal is stated, so that described in the first terminal and the second terminal are respectively adopted at least one identical block period First training sequence and second training sequence send uplink information on identical ascending packet data channel PDCH.

The aspect and any possible implementation manners as described above, it is further provided a kind of implementation,

First scheduling mode includes any one in following manner: granularity scheduling mode, non-granularity scheduling mode And polling dispatching；

Second scheduling mode includes any one in following manner: the granularity scheduling mode, the non-granularity Scheduling mode, the robin manner；

Wherein, the granularity scheduling mode include with dynamically distribute the granularity scheduling mode that combines of DA scheduling mode or with The granularity scheduling mode that the dynamic allocation EDA scheduling mode of extension combines, the non-granularity scheduling mode include the DA tune Degree mode or the EDA scheduling mode.The aspect and any possible implementation manners as described above, it is further provided a kind of realization Mode, the identical uplink PDCH include at least one identical uplink PDCH；First scheduling mode is the granularity Scheduling mode；

The network side equipment dispatches the first terminal using the first scheduling mode, comprising:

If the network side equipment is using the granularity scheduling mode scheduling described first combined with DA scheduling mode Terminal, then in the initial block period in the granularity dispatching cycle of the first terminal using first training sequence described The the first uplink state mark for carrying the first terminal is sent on the corresponding downlink PDCH of at least one identical uplink PDCH The downlink radio block of knowledge；Alternatively,

If the network side equipment is using described in the granularity scheduling mode scheduling combined with the EDA scheduling mode First terminal, then using first instruction in the initial block period in the granularity dispatching cycle of the first terminal The downlink that white silk sequence sends first uplink state mark for carrying the first terminal on the first downlink PDCH is wireless Block, the first downlink PDCH are to distribute to the corresponding downlink of the uplink PDCH of the first terminal with the network side equipment PDCH, and the timeslot number of the first downlink PDCH is less than or equal in the timeslot number of at least one identical uplink PDCH Minimum timeslot number；

Wherein, the granularity dispatching cycle is made of the reserved block period of an initial block period and predetermined number.

The aspect and any possible implementation manners as described above, it is further provided a kind of implementation, described second adjusts Degree mode is the non-granularity scheduling mode, described to dispatch the second terminal using the second scheduling mode, comprising:

If the network side equipment dispatches the second terminal using the DA scheduling mode, week is dispatched in the granularity Using second training sequence described at least one reserved block period in the reserved block period of interim predetermined number The the second uplink state mark for carrying the second terminal is sent on the corresponding downlink PDCH of at least one identical uplink PDCH The downlink radio block of knowledge；Alternatively,

If the network side equipment dispatches the second terminal using the EDA scheduling mode, dispatched in the granularity Using second training sequence at least one reserved block period in the reserved block period of predetermined number in period It is sent on two downlink PDCH and carries the downlink radio block that second uplink state of the second terminal identifies, described second Downlink PDCH is to distribute to the corresponding downlink PDCH of the uplink PDCH of the second terminal with the network side equipment, and described the The timeslot number of two downlink PDCH is less than or equal to the minimum timeslot number in the timeslot number of at least one identical uplink PDCH.

The aspect and any possible implementation manners as described above, it is further provided a kind of implementation, described second adjusts Degree mode is the granularity scheduling mode, described to dispatch the second terminal using the second scheduling mode, comprising:

If the network side equipment is using described in the granularity scheduling mode scheduling combined with the DA scheduling mode Second terminal is then adopted in any one reserved block period in the reserved block period of the predetermined number in the granularity dispatching cycle Sent on the corresponding downlink PDCH of at least one described identical uplink PDCH with second training sequence carry it is described The downlink radio block of the second uplink state mark of second terminal；Alternatively,

If the network side equipment is using described in the granularity scheduling mode scheduling combined with the EDA scheduling mode Second terminal is then adopted in any one reserved block period in the reserved block period of the predetermined number in the granularity dispatching cycle The the second uplink state mark for carrying the second terminal is sent on the second downlink PDCH with second training sequence The downlink radio block of knowledge, the second downlink PDCH are the uplink PDCH that the second terminal is distributed to the network side equipment Corresponding downlink PDCH, and the timeslot number of the second downlink PDCH is less than or equal at least one described identical uplink PDCH Timeslot number in minimum timeslot number.

The aspect and any possible implementation manners as described above, it is further provided a kind of implementation, described second adjusts Degree mode is the robin manner, described to dispatch the second terminal using the second scheduling mode, comprising:

The network side equipment is corresponding at least one described identical uplink PDCH using second training sequence The downlink radio block for carrying the first reserved block instruction information is sent on downlink PDCH, the first reserved block instruction information is used for Indicate the second terminal in adjacent next piece of block period of any of the granularity dispatching cycle of the first terminal The uplink information is sent at least one described identical uplink PDCH using second training sequence in period.

The aspect and any possible implementation manners as described above, it is further provided a kind of implementation, it is described identical PDCH includes at least one identical uplink PDCH, and first scheduling mode is the robin manner, the network side Equipment dispatches the first terminal using the first scheduling mode, comprising:

The network side equipment is corresponding at least one described identical uplink PDCH using first training sequence The downlink radio block for carrying the second reserved block instruction information is sent on downlink PDCH, the second reserved block instruction information is used for Indicate that the first terminal uses first training sequence described at least one at least one described identical block period The uplink information is sent on a identical uplink PDCH.

The aspect and any possible implementation manners as described above, it is further provided a kind of implementation, described second adjusts Degree mode is the robin manner, described to dispatch the second terminal using the second scheduling mode, comprising:

The network side equipment is corresponding at least one described identical uplink PDCH using second training sequence The downlink radio block for carrying third reserved block instruction information is sent on downlink PDCH, the third reserved block instruction information is used for Indicate that the second terminal uses second training sequence described at least one at least one described identical block period The uplink information is sent on a identical uplink PDCH.

The aspect and any possible implementation manners as described above, it is further provided a kind of implementation, described second adjusts Degree mode is the non-granularity scheduling mode, described to dispatch the second terminal using the second scheduling mode, comprising:

If the network side equipment dispatches the second terminal using DA scheduling mode, respectively it is described it is identical at least Use second training sequence described at least one in the adjacent previous block period of each block period in one block period It is sent on the corresponding downlink PDCH of a identical uplink PDCH under the second uplink state mark for carrying the second terminal Row radio block；Alternatively,

If the network side equipment dispatches the second terminal using EDA scheduling mode, respectively it is described it is identical extremely Use second training sequence in third downlink in the adjacent previous block period of each block period in a few block period The downlink radio block for carrying the second uplink state mark of the second terminal is sent on PDCH, the third downlink PDCH is The corresponding downlink PDCH of the uplink PDCH of the second terminal, and the third downlink PDCH are distributed to the network side equipment Timeslot number be less than or equal to the minimum timeslot number in the timeslot number of at least one identical uplink PDCH.

The aspect and any possible implementation manners as described above, it is further provided a kind of implementation, it is described identical PDCH include at least one identical uplink PDCH, first scheduling mode be the non-granularity scheduling mode, described second Scheduling mode is the non-granularity scheduling mode；

The network side equipment dispatches the first terminal using the first scheduling mode, dispatches institute using the second scheduling mode State second terminal, comprising:

If the network side equipment dispatches the first terminal using the EDA scheduling mode, it is described it is identical extremely It is sent on the first downlink PDCH in a few block period using first training sequence and carries the of the first terminal The downlink radio block of one uplink state mark, the first downlink PDCH are that described first is distributed to the network side equipment eventually The corresponding downlink PDCH of the uplink PDCH at end, and the timeslot number of the first downlink PDCH is less than or equal at least one described phase Minimum timeslot number in the timeslot number of same uplink PDCH；

If the network side equipment dispatches the second terminal using the DA scheduling mode, described identical at least one It is sent out on the corresponding downlink PDCH of at least one described identical uplink PDCH using second training sequence in a block period Send the downlink radio block for carrying second uplink state mark of the second terminal.

The aspect and any possible implementation manners as described above, it is further provided a kind of implementation, further includes:

The network side equipment receives on the identical uplink PDCH at least one described identical block period Uplink information is mixed, the mixing uplink information is demodulated using first training sequence and obtains the upper of the first terminal transmission Row information demodulates the mixing uplink information using second training sequence and obtains the uplink letter that the second terminal is sent Breath.

Another aspect of the present invention is to provide a kind of network side equipment, comprising:

Configuration unit configures the second training sequence for configuring the first training sequence for first terminal for second terminal, In, first training sequence is different from second training sequence；

Scheduling unit dispatches institute using the second scheduling mode for dispatching the first terminal using the first scheduling mode Second terminal is stated, so that described in the first terminal and the second terminal are respectively adopted at least one identical block period First training sequence and second training sequence send uplink information on identical ascending packet data channel PDCH.

The aspect and any possible implementation manners as described above, it is further provided a kind of implementation,

First scheduling mode includes any one in following manner: granularity scheduling mode, non-granularity scheduling mode And polling dispatching；

Second scheduling mode includes any one in following manner: the granularity scheduling mode, the non-granularity Scheduling mode, the robin manner；

Wherein, the granularity scheduling mode include with dynamically distribute the granularity scheduling mode that combines of DA scheduling mode or with The granularity scheduling mode that the dynamic allocation EDA scheduling mode of extension combines, the non-granularity scheduling mode include the DA tune Degree mode or the EDA scheduling mode.

The aspect and any possible implementation manners as described above, it is further provided a kind of implementation,

The identical uplink PDCH includes at least one identical uplink PDCH；First scheduling mode is the grain Spend scheduling mode；

The scheduling unit is specifically used in the network side equipment using the granularity combined with DA scheduling mode When scheduling mode dispatches the first terminal, institute is used in the initial block period in the granularity dispatching cycle of the first terminal It states the first training sequence and is sent on the corresponding downlink PDCH of at least one described identical uplink PDCH and carry described first The downlink radio block of the first uplink state mark of terminal；Alternatively, the scheduling unit is specifically used in the network side equipment When dispatching the first terminal using the granularity scheduling mode combined with the EDA scheduling mode, eventually described first In the initial block period in the granularity dispatching cycle at end using first training sequence on the first downlink PDCH Send carry the first terminal first uplink state mark downlink radio block, the first downlink PDCH be with The network side equipment distributes to the corresponding downlink PDCH of uplink PDCH of the first terminal, and the first downlink PDCH Timeslot number is less than or equal to the minimum timeslot number in the timeslot number of at least one identical uplink PDCH；

Wherein, the granularity dispatching cycle is made of the reserved block period of an initial block period and predetermined number.

The aspect and any possible implementation manners as described above, it is further provided a kind of implementation,

Second scheduling mode is the non-granularity scheduling mode, and the scheduling unit is also particularly useful for described in the use When DA scheduling mode dispatches the second terminal, in the reserved block period of the predetermined number in the granularity dispatching cycle extremely Using second training sequence in the corresponding downlink of at least one described identical uplink PDCH in a few reserved block period The downlink radio block for carrying the second uplink state mark of the second terminal is sent on PDCH；Alternatively, the scheduling unit It is default in the granularity dispatching cycle also particularly useful for when dispatching the second terminal using the EDA scheduling mode In at least one reserved block period in the reserved block period of number using second training sequence on the second downlink PDCH Send carry the second terminal second uplink state mark downlink radio block, the second downlink PDCH be with The network side equipment distributes to the corresponding downlink PDCH of uplink PDCH of the second terminal, and the second downlink PDCH Timeslot number is less than or equal to the minimum timeslot number in the timeslot number of at least one identical uplink PDCH.

The aspect and any possible implementation manners as described above, it is further provided a kind of implementation,

Second scheduling mode is the granularity scheduling mode, the scheduling unit also particularly useful for using it is described with It is pre- in the granularity dispatching cycle when granularity scheduling mode that the DA scheduling mode combines dispatches the second terminal If using second training sequence at least one described phase in any one reserved block period in the reserved block period of number With the corresponding downlink PDCH of uplink PDCH on send carry the second terminal the second uplink state mark downlink without Line block；Alternatively, the scheduling unit is also particularly useful for using the granularity dispatching party combined with the EDA scheduling mode When formula dispatches the second terminal, any of reserved block period of predetermined number in the granularity dispatching cycle retains It is sent on the second downlink PDCH in block period using second training sequence and carries described the second of the second terminal The downlink radio block of uplink state mark, the second downlink PDCH are to distribute to the second terminal with the network side equipment The corresponding downlink PDCH of uplink PDCH, and the timeslot number of the second downlink PDCH is less than or equal to that described at least one is identical Uplink PDCH timeslot number in minimum timeslot number.

The aspect and any possible implementation manners as described above, it is further provided a kind of implementation,

Second scheduling mode is the robin manner, and the scheduling unit is also particularly useful for using described second Training sequence sends on the corresponding downlink PDCH of at least one described identical uplink PDCH and carries the instruction of the first reserved block The downlink radio block of information, the first reserved block instruction information are used to indicate the second terminal in the institute of the first terminal State in the adjacent next block period of block period any of granularity dispatching cycle using second training sequence it is described extremely The uplink information is sent on a few identical uplink PDCH.

The aspect and any possible implementation manners as described above, it is further provided a kind of implementation,

The identical PDCH includes at least one identical uplink PDCH, and first scheduling mode is the poll tune Degree mode, the scheduling unit are specifically used for using first training sequence at least one described PDCH pairs of identical uplink The downlink radio block for carrying the second reserved block instruction information is sent on the downlink PDCH answered, second reserved block indicates information Be used to indicate the first terminal at least one described identical block period using first training sequence it is described extremely The uplink information is sent on a few identical uplink PDCH.

The aspect and any possible implementation manners as described above, it is further provided a kind of implementation,

Second scheduling mode is the robin manner, and the scheduling unit is also particularly useful for using described second Training sequence sends on the corresponding downlink PDCH of at least one described identical uplink PDCH and carries the instruction of third reserved block The downlink radio block of information, the third reserved block instruction information are used to indicate the second terminal described identical at least one The uplink information is sent at least one described identical uplink PDCH using second training sequence in a block period.

The aspect and any possible implementation manners as described above, it is further provided a kind of implementation,

Second scheduling mode is the non-granularity scheduling mode, and the scheduling unit is also particularly useful for using DA tune When degree mode dispatches the second terminal, before each block period is adjacent at least one described identical block period respectively In one block period using second training sequence on the corresponding downlink PDCH of at least one described identical uplink PDCH Send the downlink radio block for carrying the second uplink state mark of the second terminal；Alternatively, the scheduling unit is also specific For using EDA scheduling mode dispatch the second terminal when, it is each at least one described identical block period respectively Carrying has been sent on third downlink PDCH using second training sequence in a adjacent previous block period of block period The downlink radio block of the second uplink state mark of second terminal is stated, the third downlink PDCH is and the network side equipment point The corresponding downlink PDCH of the uplink PDCH of second terminal described in dispensing, and the timeslot number of the third downlink PDCH is less than or equal to Minimum timeslot number in the timeslot number of at least one identical uplink PDCH.

The aspect and any possible implementation manners as described above, it is further provided a kind of implementation,

The identical PDCH includes at least one identical uplink PDCH, and first scheduling mode is the non-granularity Scheduling mode, second scheduling mode are the non-granularity scheduling mode；

The scheduling unit is specifically used for when dispatching the first terminal using the EDA scheduling mode, in the phase It is sent on the first downlink PDCH at least one same block period using first training sequence and carries described first eventually The downlink radio block of the first uplink state mark at end, the first downlink PDCH are described to distribute to the network side equipment The corresponding downlink PDCH of the uplink PDCH of first terminal, and the timeslot number of the first downlink PDCH be less than or equal to it is described at least Minimum timeslot number in the timeslot number of one identical uplink PDCH；

The scheduling unit also particularly useful for using the DA scheduling mode dispatch the second terminal when, in the phase In at least one same block period using second training sequence in the case where at least one described identical uplink PDCH is corresponding The downlink radio block for carrying second uplink state mark of the second terminal is sent on row PDCH.

The aspect and any possible implementation manners as described above, it is further provided a kind of implementation, further includes:

Receiving unit, specifically for being connect on the identical uplink PDCH at least one described identical block period Mixing uplink information is received, the mixing uplink information is demodulated using first training sequence and obtains what the first terminal was sent Uplink information demodulates the mixing uplink information using second training sequence and obtains the uplink letter that the second terminal is sent Breath.

An additional aspect of the present invention is to provide a kind of network side equipment, comprising:

Transmitter configures the second training sequence for configuring the first training sequence for first terminal for second terminal, In, first training sequence is different from second training sequence；

Processor, for dispatching the first terminal using the first scheduling mode, using described in the scheduling of the second scheduling mode Second terminal, so that the first terminal and the second terminal are respectively adopted described at least one identical block period One training sequence and second training sequence send uplink information on identical ascending packet data channel PDCH；

Bus, for connecting the transmitter and the processor, the transmitter and the processor pass through described total Line carries out information exchange.

The aspect and any possible implementation manners as described above, it is further provided a kind of implementation,

First scheduling mode includes any one in following manner: granularity scheduling mode, non-granularity scheduling mode And polling dispatching；

Second scheduling mode includes any one in following manner: the granularity scheduling mode, the non-granularity Scheduling mode, the robin manner；

Wherein, the granularity scheduling mode include with dynamically distribute the granularity scheduling mode that combines of DA scheduling mode or with The granularity scheduling mode that the dynamic allocation EDA scheduling mode of extension combines, the non-granularity scheduling mode include the DA tune Degree mode or the EDA scheduling mode.

The aspect and any possible implementation manners as described above, it is further provided a kind of implementation,

The identical uplink PDCH includes at least one identical uplink PDCH；First scheduling mode is the grain Spend scheduling mode；

The processor is specifically used in the network side equipment using the granularity tune combined with DA scheduling mode When degree mode dispatches the first terminal, using described in the initial block period in the granularity dispatching cycle of the first terminal First training sequence sends on the corresponding downlink PDCH of at least one described identical uplink PDCH and carries described first eventually The downlink radio block of the first uplink state mark at end；Alternatively, the processor is specifically used for using in the network side equipment When the granularity scheduling mode combined with the EDA scheduling mode dispatches the first terminal, in the first terminal It is sent on the first downlink PDCH in the initial block period in the granularity dispatching cycle using first training sequence Carry the first terminal first uplink state mark downlink radio block, the first downlink PDCH be with it is described Network side equipment distributes to the corresponding downlink PDCH of uplink PDCH of the first terminal, and the time slot of the first downlink PDCH The minimum timeslot number number being less than or equal in the timeslot number of at least one identical uplink PDCH；

Wherein, the granularity dispatching cycle is made of the reserved block period of an initial block period and predetermined number.

The aspect and any possible implementation manners as described above, it is further provided a kind of implementation,

Second scheduling mode is the non-granularity scheduling mode, and the processor is also particularly useful for using the DA When scheduling mode dispatches the second terminal, in the reserved block period of the predetermined number in the granularity dispatching cycle at least Using second training sequence in the corresponding downlink of at least one described identical uplink PDCH in one reserved block period The downlink radio block for carrying the second uplink state mark of the second terminal is sent on PDCH；Alternatively, the processor is also Specifically for when dispatching the second terminal using the EDA scheduling mode, presetting in the granularity dispatching cycle is a It is sent out on the second downlink PDCH at least one reserved block period in several reserved block periods using second training sequence Send carry the second terminal second uplink state mark downlink radio block, the second downlink PDCH for institute State the corresponding downlink PDCH of uplink PDCH that network side equipment distributes to the second terminal, and the second downlink PDCH when Gap number is less than or equal to the minimum timeslot number in the timeslot number of at least one identical uplink PDCH.

The aspect and any possible implementation manners as described above, it is further provided a kind of implementation,

Second scheduling mode is the granularity scheduling mode, and the processor is also particularly useful for using described and institute It is default in the granularity dispatching cycle when stating the granularity scheduling mode scheduling second terminal that DA scheduling mode combines Using second training sequence, at least one is identical described in any one reserved block period in the reserved block period of number The corresponding downlink PDCH of uplink PDCH on send carry the second terminal the second uplink state mark downlink it is wireless Block；Alternatively, the processor is also particularly useful for using the granularity scheduling mode tune combined with the EDA scheduling mode Any one reserved block week when spending the second terminal, in the reserved block period of the predetermined number in the granularity dispatching cycle Second uplink for carrying the second terminal is sent on the second downlink PDCH using second training sequence in phase The downlink radio block of status indicator, the second downlink PDCH are to distribute to the upper of the second terminal with the network side equipment The corresponding downlink PDCH of row PDCH, and the timeslot number of the second downlink PDCH be less than or equal to it is described at least one it is identical on Minimum timeslot number in the timeslot number of row PDCH.

The aspect and any possible implementation manners as described above, it is further provided a kind of implementation,

Second scheduling mode is the robin manner, and the processor is also particularly useful for using second instruction Practice sequence and sent on the corresponding downlink PDCH of at least one described identical uplink PDCH and carries the first reserved block instruction letter The downlink radio block of breath, first reserved block instruction information are used to indicate the second terminal described in the first terminal In any of the granularity dispatching cycle adjacent next block period of block period using second training sequence it is described at least The uplink information is sent on one identical uplink PDCH.

The aspect and any possible implementation manners as described above, it is further provided a kind of implementation,

The identical PDCH includes at least one identical uplink PDCH, and first scheduling mode is the poll tune Degree mode, the processor are specifically used for corresponding at least one described identical uplink PDCH using first training sequence Downlink PDCH on send the downlink radio block for carrying the second reserved block instruction information, second reserved block instruction information is used In indicate the first terminal at least one described identical block period using first training sequence it is described at least The uplink information is sent on one identical uplink PDCH.

The aspect and any possible implementation manners as described above, it is further provided a kind of implementation,

Second scheduling mode is the robin manner, and the processor is also particularly useful for using second instruction Practice sequence and sent on the corresponding downlink PDCH of at least one described identical uplink PDCH and carries third reserved block instruction letter The downlink radio block of breath, third reserved block instruction information be used to indicate the second terminal it is described it is identical at least one The uplink information is sent at least one described identical uplink PDCH using second training sequence in block period.

The aspect and any possible implementation manners as described above, it is further provided a kind of implementation,

Second scheduling mode is the non-granularity scheduling mode, and the processor is dispatched also particularly useful for using DA When mode dispatches the second terminal, each block period is adjacent previous at least one described identical block period respectively It is sent out on the corresponding downlink PDCH of at least one described identical uplink PDCH using second training sequence in a block period Send the downlink radio block for carrying the second uplink state mark of the second terminal；Alternatively, the processor also particularly useful for When dispatching the second terminal using EDA scheduling mode, each block at least one described identical block period respectively It is sent on third downlink PDCH using second training sequence in period adjacent previous block period and carries described the The downlink radio block of the second uplink state mark of two terminals, the third downlink PDCH are to distribute to the network side equipment The corresponding downlink PDCH of the uplink PDCH of the second terminal, and the timeslot number of the third downlink PDCH is less than or equal to described Minimum timeslot number in the timeslot number of at least one identical uplink PDCH.

The aspect and any possible implementation manners as described above, it is further provided a kind of implementation,

The identical PDCH includes at least one identical uplink PDCH, and first scheduling mode is the non-granularity Scheduling mode, second scheduling mode are the non-granularity scheduling mode；

The processor is specifically used for when dispatching the first terminal using the EDA scheduling mode, described identical At least one block period in sent on the first downlink PDCH using first training sequence and carry the first terminal The first uplink state mark downlink radio block, the first downlink PDCH is that described the is distributed to the network side equipment The corresponding downlink PDCH of the uplink PDCH of one terminal, and the timeslot number of the first downlink PDCH is less than or equal to described at least one Minimum timeslot number in the timeslot number of a identical uplink PDCH；

The processor also particularly useful for using the DA scheduling mode dispatch the second terminal when, described identical At least one block period in using second training sequence in the corresponding downlink of at least one described identical uplink PDCH The downlink radio block for carrying second uplink state mark of the second terminal is sent on PDCH.

The aspect and any possible implementation manners as described above, it is further provided a kind of implementation, further includes:

Receiver, specifically for being received on the identical uplink PDCH at least one described identical block period Uplink information is mixed, the mixing uplink information is demodulated using first training sequence and obtains the upper of the first terminal transmission Row information demodulates the mixing uplink information using second training sequence and obtains the uplink letter that the second terminal is sent Breath.

By foregoing invention content as it can be seen that network side equipment is that first terminal and second terminal configure different training sequences, By using the first scheduling mode to first terminal and using the second scheduling mode to second terminal, so that identical at least one In a block period on identical PDCH, first terminal sends uplink information using the first training sequence, and second terminal is using the Two training sequences send uplink information.Pass through the tune for the different training sequence of different terminal distributions and the different terminals Mutual cooperation between degree mode enables multiple terminals simultaneously at identical one or identical multiple PDCH send uplink Information improves the termination capacity of communication system to extend the quantity of terminal in communication system.

Detailed description of the invention

In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below There is attached drawing needed in technical description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this Some embodiments of invention for those of ordinary skill in the art without creative efforts, can be with It obtains other drawings based on these drawings.

Fig. 1 is the flow chart of the method for the dispatching uplink information of the embodiment of the present invention one；

Fig. 2 is the time slot schematic diagram of the method for the dispatching uplink information of the embodiment of the present invention two；

Fig. 3 is the time slot schematic diagram of the method for the dispatching uplink information of the embodiment of the present invention three；

Fig. 4 is the time slot schematic diagram of the method for the dispatching uplink information of the embodiment of the present invention four；

Fig. 5 is the time slot schematic diagram of the method for the dispatching uplink information of the embodiment of the present invention five；

Fig. 6 is the structural schematic diagram of the network side equipment of the embodiment of the present invention six；

Fig. 7 is the structural schematic diagram of the network side equipment of the embodiment of the present invention seven.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

Currently, in dispatching uplink information, network side equipment can using dynamically distribute (Dynamic Allocation, Abbreviation DA) mode or extension dynamic allocation (Extended Dynamic Allocation, abbreviation EDA) mode, scheduling movement The terminals such as platform (Mobile Station, abbreviation MS) send uplink information.For example, network side equipment distributes multiple upstream packet numbers It is believed that road (Packet Data Channel, abbreviation PDCH) gives MS, when using DA mode dispatching uplink information, MS is in uplink It all monitors that uplink state identifies (Uplink state flag, abbreviation USF) on the corresponding whole downlink PDCH of PDCH, is monitoring Uplink information is sent on to the corresponding uplink PDCH of downlink PDCH of the USF of the MS；Using EDA mode dispatching uplink information When, MS monitors USF since multiple uplink PDCH the corresponding downlink PDCH of the minimum uplink PDCH of slot index, monitoring When the USF of the MS, the monitoring higher downlink PDCH of slot index is not continued to, but in the downlink for the USF for monitoring the MS Uplink information is sent on the corresponding uplink PDCH of PDCH and the higher whole uplink PDCH of slot index.Further, in DA In mode and EDA mode, granularity scheduling mode can be combined with, when downlink radio block of the MS in some downlink PDCH monitors this When the USF of MS, no longer monitors the downlink radio block of predetermined number behind the downlink radio block on downlink PDCH, monitoring this Uplink letter is sent on the downlink radio block of the USF of MS and the corresponding up-link wireless block of the downlink radio block of back predetermined number Breath.

It is any in above-mentioned DA mode or EDA mode or above two mode to dispatch the mode combined with granularity, all It is the scheduling mode for uplink TBF.

In dispatching downlink TBF, network can be led to know whether downlink information receives correctly by the way of poll Know that terminal sends Ack/Nack response message, the reception condition for feeding back downlink information in scheduled upper row block, wherein should Downlink information can be downlink control message.In addition, the feedback cycle (i.e. polling cycle) and downlink of downlink information reception condition The handling capacity of business, which exists, mutually to be restricted, and downlink information reception condition feedback will cause the handling capacity drop of downlink business not in time It is low, if the period of feedback is accelerated to will increase the consumption of ascending resource again, the quantity of the user of uplink service is impacted.

Embodiment one

Fig. 1 is the flow chart of the method for the dispatching uplink information of the embodiment of the present invention one.As shown in Figure 1, this method includes Following procedure.

Step 101: network side equipment is that first terminal configures the first training sequence, for second terminal configuration the second training sequence Column.

Wherein, first training sequence is different from second training sequence.

Wherein, which can be base station, not limit herein.

Step 102: the network side equipment dispatches the first terminal using the first scheduling mode, using the second dispatching party Formula dispatches the second terminal, so that the first terminal and second terminal difference at least one identical block period Uplink is sent on identical ascending packet data channel PDCH using first training sequence and second training sequence Information.

Wherein, the first scheduling mode may include any one in following manner: granularity scheduling mode, the scheduling of non-granularity Mode and polling dispatching.Second scheduling mode may include any one in following manner: granularity scheduling mode, non-granularity tune Degree mode, robin manner.

Specifically, granularity scheduling mode include the granularity scheduling mode combined with DA scheduling mode or with EDA dispatching party The granularity scheduling mode that formula combines, non-granularity scheduling mode include DA scheduling mode or EDA scheduling mode.

In this step, uplink information may include: upstream data and/or uplink control message.

It should be noted that network side equipment is that first terminal and second terminal distribute uplink TBF and/or downlink respectively TBF, distribution uplink TBF can then distribute the corresponding uplink PDCH of the TBF, and it is corresponding that allocation of downlink TBF can then distribute the TBF Downlink PDCH.To make first terminal and second terminal send information on identical uplink PDCH, network side equipment can be the One terminal and second terminal distribute at least one identical uplink PDCH, or distribute at least one identical downlink PDCH, or It is identical as at least one in the uplink PDCH of second terminal in the corresponding uplink PDCH of the downlink PDCH of the first terminal of distribution Uplink PDCH.It, can be with for example, by taking first terminal as an example if network side equipment is first or second terminal distribution uplink PDCH It is also needed by carrying the uplink PDCH for distributing to first terminal and distribution in uplink TBF assignment messages for the first or second The uplink state of terminal distribution identifies (Uplink state flag, abbreviation USF).

In the present embodiment, network side equipment is that first terminal and second terminal configure different training sequences, by right First terminal uses the second scheduling mode using the first scheduling mode and to second terminal, so that in identical at least one block week In phase and on identical PDCH, first terminal sends uplink information using the first training sequence, and second terminal is using the second instruction Practice sequence and sends uplink information.By the training sequence different for different terminal distributions, multiple terminals are existed simultaneously The same PDCH sends uplink information, to extend the quantity of terminal in communication system, the terminal for improving communication system is held Amount.

It, further, after step 102, can be on the basis of the above-mentioned technical proposal of the embodiment of the present invention one The following steps are included: the network side equipment is at least one described identical block period on the identical uplink PDCH Mixing uplink information is received, the mixing uplink information is demodulated using first training sequence and obtains the first terminal transmission Uplink information, the mixing uplink information is demodulated using second training sequence and obtains the uplink that the second terminal is sent Information.

Wherein, the information in this step can be data and be also possible to control message, also, in this step, network side Equipment is decoded the uplink mixed information, obtains the information that described two terminals are respectively sent.For example, described in First training sequence demodulates the mixing uplink information, the uplink information that first terminal equipment is sent is obtained, using described second Training sequence demodulates the mixing uplink information, obtains the uplink information that second terminal equipment is sent.

As a kind of embodiment of the embodiment of the present invention, the identical uplink PDCH includes at least one is identical Row PDCH.First scheduling mode is the granularity scheduling mode.Correspondingly, the network side equipment uses the first dispatching party Formula dispatches the first terminal

If the network side equipment is using the granularity scheduling mode scheduling described first combined with DA scheduling mode Terminal, then in the initial block period in the granularity dispatching cycle of the first terminal using first training sequence described The the first uplink state mark for carrying the first terminal is sent on the corresponding downlink PDCH of at least one identical uplink PDCH The downlink radio block of knowledge；Alternatively,

If the network side equipment is using described in the granularity scheduling mode scheduling combined with the EDA scheduling mode First terminal, then using first instruction in the initial block period in the granularity dispatching cycle of the first terminal The downlink that white silk sequence sends first uplink state mark for carrying the first terminal on the first downlink PDCH is wireless Block, the first downlink PDCH are to distribute to the corresponding downlink of the uplink PDCH of the first terminal with the network side equipment PDCH, and the timeslot number of the first downlink PDCH is less than or equal in the timeslot number of at least one identical uplink PDCH Minimum timeslot number.Wherein, the granularity dispatching cycle is made of the reserved block period of an initial block period and predetermined number.

Further, second scheduling mode can be the non-granularity scheduling mode.Correspondingly, described to use second Scheduling mode dispatches the second terminal, comprising:

If the network side equipment dispatches the second terminal using the DA scheduling mode, week is dispatched in the granularity Using second training sequence described at least one reserved block period in the reserved block period of interim predetermined number The the second uplink state mark for carrying the second terminal is sent on the corresponding downlink PDCH of at least one identical uplink PDCH The downlink radio block of knowledge；Alternatively,

If the network side equipment dispatches the second terminal using the EDA scheduling mode, dispatched in the granularity Using second training sequence at least one reserved block period in the reserved block period of predetermined number in period It is sent on two downlink PDCH and carries the downlink radio block that second uplink state of the second terminal identifies, described second Downlink PDCH is to distribute to the corresponding downlink PDCH of the uplink PDCH of the second terminal with the network side equipment, and described the The timeslot number of two downlink PDCH is less than or equal to the minimum timeslot number.

Further, second scheduling mode can also be the granularity scheduling mode.Correspondingly, described to use second Scheduling mode dispatches the second terminal, comprising: if the network side equipment is combined using described with the DA scheduling mode Granularity scheduling mode dispatch the second terminal, then in the reserved block period of the predetermined number in the granularity dispatching cycle Any one reserved block period in using second training sequence in the case where at least one described identical uplink PDCH is corresponding The downlink radio block for carrying the second uplink state mark of the second terminal is sent on row PDCH；Alternatively,

If the network side equipment is using described in the granularity scheduling mode scheduling combined with the EDA scheduling mode Second terminal is then adopted in any one reserved block period in the reserved block period of the predetermined number in the granularity dispatching cycle The the second uplink state mark for carrying the second terminal is sent on the second downlink PDCH with second training sequence The downlink radio block of knowledge, the second downlink PDCH are the uplink PDCH that the second terminal is distributed to the network side equipment Corresponding downlink PDCH, and the timeslot number of the second downlink PDCH is less than or equal to the minimum timeslot number.

Further, second scheduling mode can also be the robin manner.Correspondingly, described to use second Scheduling mode dispatches the second terminal, comprising: the network side equipment is using second training sequence described at least one The downlink radio block for carrying the first reserved block instruction information is sent on the corresponding downlink PDCH of a identical uplink PDCH, it is described It is any in the granularity dispatching cycle of the first terminal that first reserved block instruction information is used to indicate the second terminal Using second training sequence at least one described identical uplink PDCH in a adjacent next block period of block period It is upper to send the uplink information.

As the another embodiment of the embodiment of the present invention, the identical PDCH includes at least one identical uplink PDCH.First scheduling mode is the robin manner.Correspondingly, the network side equipment uses the first scheduling mode Dispatch the first terminal, comprising: at least one is identical described using first training sequence for the network side equipment The downlink radio block for carrying the second reserved block instruction information is sent on the corresponding downlink PDCH of uplink PDCH, described second retains Block instruction information is used to indicate the first terminal at least one described identical block period using the first training sequence It is listed at least one described identical uplink PDCH and sends the uplink information.

Further, second scheduling mode can be the robin manner, correspondingly, described to adjust using second Degree mode dispatches the second terminal, comprising: the network side equipment using second training sequence it is described at least one Send the downlink radio block for carrying third reserved block instruction information on the corresponding downlink PDCH of identical uplink PDCH, described the Three reserved blocks instruction information is used to indicate the second terminal at least one described identical block period using described second Training sequence sends the uplink information at least one described identical uplink PDCH.

Further, second scheduling mode can also be the non-granularity scheduling mode.Correspondingly, described to use Two scheduling modes dispatch the second terminal, comprising:

If the network side equipment dispatches the second terminal using DA scheduling mode, respectively it is described it is identical at least Use second training sequence described at least one in the adjacent previous block period of each block period in one block period It is sent on the corresponding downlink PDCH of a identical uplink PDCH under the second uplink state mark for carrying the second terminal Row radio block；Alternatively,

If the network side equipment dispatches the second terminal using EDA scheduling mode, respectively it is described it is identical extremely Use second training sequence in third downlink in the adjacent previous block period of each block period in a few block period The downlink radio block for carrying the second uplink state mark of the second terminal is sent on PDCH, the third downlink PDCH is The corresponding downlink PDCH of the uplink PDCH of the second terminal, and the third downlink PDCH are distributed to the network side equipment Timeslot number be less than or equal to the minimum timeslot number in the timeslot number of at least one identical uplink PDCH.

As the another embodiment of the embodiment of the present invention, the identical PDCH includes at least one identical uplink PDCH.First scheduling mode is the non-granularity scheduling mode, and second scheduling mode is the non-granularity dispatching party Formula.Correspondingly, the network side equipment dispatches the first terminal using the first scheduling mode, is dispatched using the second scheduling mode The second terminal, comprising:

If the network side equipment dispatches the first terminal using the EDA scheduling mode, it is described it is identical extremely It is sent on the first downlink PDCH in a few block period using first training sequence and carries the of the first terminal The downlink radio block of one uplink state mark, the first downlink PDCH are that described first is distributed to the network side equipment eventually The corresponding downlink PDCH of the uplink PDCH at end, and the timeslot number of the first downlink PDCH is less than or equal at least one described phase Minimum timeslot number in the timeslot number of same uplink PDCH；

If the network side equipment dispatches the second terminal using the DA scheduling mode, described identical at least one It is sent out on the corresponding downlink PDCH of at least one described identical uplink PDCH using second training sequence in a block period Send the downlink radio block for carrying second uplink state mark of the second terminal.

Below by way of Fig. 2 to Fig. 5 introduce the embodiment of the present invention two to the embodiment of the present invention five dispatching uplink information side The above-mentioned various scheduling modes on the basis of technical solution of the embodiment of the present invention one are described in detail in method.In Fig. 2 to figure In 5, Bx, Bx+1, Bx+2, Bx+3, Bx+4, Bx+5, Bx+6, Bx+7, Bx+8 are block period, each granularity tune in granularity scheduling Spending the period has 4 block periods (USF of downlink can dispatch 4 up-link wireless blocks), first downlink in granularity dispatching cycle Block period issues the USF of appointment, referred to as the initial block period in granularity dispatching cycle, behind three downlink block periods, referred to as grain Spend the reserved block period in dispatching cycle；Uplink state identifies (Uplink state flag, abbreviation USF) for identifying scheduling Terminal, wherein USF=x1 indicate scheduling first terminal (mark in Fig. 2 into Fig. 5 and is), USF=x2 indicate dispatch second Terminal (marks into Fig. 5 in Fig. 2 and is)；The corresponding training sequence of MS1 (Training sequence, abbreviation TSC) is The corresponding TSC of TSC1, MS2 is TSC2.

Embodiment two

In the embodiment of the present invention two, the first scheduling mode uses granularity scheduling mode, and the second scheduling mode uses non-grain Spend scheduling mode or robin manner.Specifically, the first scheduling mode can be the granularity combined with DA scheduling mode Scheduling mode, correspondingly, the second scheduling mode are DA scheduling mode；Alternatively, the first scheduling mode can be and EDA scheduling mode The granularity scheduling mode combined, correspondingly, the second scheduling mode are EDA scheduling mode.

Fig. 2 is the time slot schematic diagram of the method for the dispatching uplink information of the embodiment of the present invention two, and the first scheduling mode is grain Scheduling mode is spent, the second scheduling mode is non-granularity scheduling mode.Wherein, Fig. 2 is only and DA dispatching party with the first scheduling mode The granularity scheduling mode that formula combines, and the second scheduling mode be DA scheduling mode for be explained.

As shown in Fig. 2, the method for the dispatching uplink information of the embodiment of the present invention two includes following procedure.

201, network side equipment is respectively MS1 and MS2 distribution temporary up-link block flow.

In this step, network side equipment is respectively MS1 and MS2 distribution uplink TBF.Specifically, network side equipment MS1 The uplink TBF of uplink TBF and MS2 to distribute identical uplink PDCH be PDCH1；Also, network side equipment distributes MS1 USF=x1, training sequence TSC1, and the scheduling mode of specified MS1 is granularity scheduling mode；Also, network side equipment is to MS2 USF=x2, training sequence TSC2 are distributed, also, it is non-granularity dispatching party that network side equipment, which can specify the scheduling mode of MS2, Formula or network side equipment can not specify the scheduling mode of MS2, so that non-granularity scheduling mode of the MS2 using default.

202, network side equipment is in the initial block period Bx in the granularity dispatching cycle of MS1, using TSC1 in uplink The downlink radio block scheduling MS1 for carrying USF=x1 is sent on the corresponding downlink PDCH1 of PDCH1.

Wherein, granularity dispatching cycle is made of the reserved block period of an initial block period and predetermined number, for example, In Fig. 2, the granularity of MS1 is by initial block period Bx and 3 reserved block period Bx+1, Bx+2 and Bx+3 compositions dispatching cycle.

203, at least one reserved block period of network side equipment in the reserved block period in the granularity dispatching cycle of MS1 It is interior, the downlink radio block for carrying USF=x2 is sent on downlink PDCH1 using TSC2.

It is sent out as shown in Fig. 2, TSC2 is respectively adopted in block period Bx+2 and Bx+3 on downlink PDCH1 in network side equipment Send downlink radio block to dispatch MS2.

Through the above steps 202 and 203, granularity scheduling mode and non-grain scheduling mode scheduling MS1 and MS2 is respectively adopted, So that TSC1 and TSC2, which is respectively adopted, in block period Bx+3 and Bx+4 in MS1 and MS2 sends uplink information on uplink PDCH1.

Optionally, when in a kind of implement scene, in step 201 to be the uplink PDCH of MS1 distribution be multiple, including uplink PDCH0, uplink PDCH1 and uplink PDCH2, wherein uplink PDCH0 corresponds to downlink PDCH0, and uplink PDCH1 corresponds to downlink PDCH1, uplink PDCH2 correspond to downlink PDCH2.

When the first scheduling mode is the granularity scheduling mode combined with EDA scheduling mode, then step 202 can specifically be replaced It is changed to 202a；When the first scheduling mode is the granularity scheduling mode combined with DA scheduling mode, then step 202 can specifically be replaced It is changed to 202b.

202a, network side equipment is in the initial block period Bx in the granularity dispatching cycle of MS1, using TSC1 under first The downlink radio block for carrying USF=x1 is sent on row PDCH.

Wherein, the first downlink PDCH is to distribute to the corresponding downlink PDCH of the uplink PDCH of MS1 with network side equipment, and should Minimum timeslot number in timeslot number of the timeslot number of first downlink PDCH less than or equal to uplink PDCH1.In this implement scene, the One downlink PDCH can be the corresponding downlink PDCH0 of uplink PDCH0, or the corresponding downlink PDCH1 of uplink PDCH1.

202b, network side equipment is in the initial block period Bx in the granularity dispatching cycle of MS1, using TSC1 in downlink The downlink radio block for carrying USF=x1 is sent on PDCH1.

Specifically, it in the initial block period Bx in the granularity dispatching cycle of MS1, is carried except being sent on downlink PDCH1 Have except the downlink radio block of USF=x1, can also be sent on downlink PDCH2 and/or downlink PDCH0 and carry USF=x1's Downlink radio block not limits herein.

Further, when the uplink PDCH in step 201 being MS2 distribution is multiple, including uplink uplink PDCH1, on Row PDCH2 and uplink PDCH3, wherein uplink PDCH3 corresponds to downlink PDCH3, then the second scheduling mode can use DA dispatching party Formula, then step 203 could alternatively be 203a；Second scheduling mode can use EDA scheduling mode, then step 203 can replace For 203b.

203a, at least one reserved block week of the network side equipment in the reserved block period in the granularity dispatching cycle of MS1 The downlink radio block for carrying USF=x2 is sent on downlink PDCH1 and/or downlink PDCH2 using TSC2 in phase.

For example, the downlink radio block for carrying USF=x2 is sent on downlink PDCH1 in block period Bx+2, then MS1 TSC1 and TSC2 is respectively adopted in block period Bx+3 with MS2 and sends up-link wireless block on uplink PDCH1.

203b, at least one reserved block week of the network side equipment in the reserved block period in the granularity dispatching cycle of MS1 The downlink radio block for carrying USF=x2 is sent on the second downlink PDCH using TSC2 in phase, wherein the second downlink PDCH can Think downlink PDCH1 or downlink PDCH2.

For example, when network side equipment uses TSC1 to carry in the first downlink PDCH for transmission on PDCH0 in block period Bx There is the downlink radio block scheduling MS1 of USF=x1, and uses in block period Bx+2 TSC2 in the second downlink PDCH to send out on PDCH1 Send the downlink radio block scheduling MS2 for carrying USF=x2, then MS1 and MS2 can in block period Bx+3 in uplink PDCH1 and Data are sent on uplink PDCH2；When network side equipment uses TSC1 in the first downlink PDCH to send out on PDCH0 in block period Bx Send the downlink radio block scheduling MS1 for carrying USF=x1, and use in block period Bx+2 TSC2 the second downlink PDCH for The downlink radio block scheduling MS2 for carrying USF=x2 is sent on PDCH2, then MS1 and MS2 can be in block period Bx+3 in uplink Data are sent on PDCH2.

Optionally, in another implement scene, when distributing to MS2 in step 201 is downlink PDCH1, second is adjusted Degree mode can be robin manner, and step 203 could alternatively be 203c, described in detail below.

203c, network side equipment is sent on downlink PDCH1 using TSC2 to be carried under the first reserved block instruction information Row radio block, first reserved block instruction information be used to indicate MS2 any of the granularity dispatching cycle of MS1 block period close to Next block period in uplink information sent on uplink PDCH1 using TSC2.

Wherein, next block period in the adjacent next block period of any one block period can be Bx+1 into Bx+4 Any one block period.

Embodiment three

In the embodiment of the present invention three, the first scheduling mode and the second scheduling mode are all made of granularity scheduling mode.Specifically Ground, the first scheduling mode can be the granularity scheduling mode combined with DA scheduling mode, alternatively, the first scheduling mode can be The granularity scheduling mode combined with EDA scheduling mode, correspondingly, the second scheduling mode can be to combine with DA scheduling mode Granularity scheduling mode, alternatively, the granularity scheduling mode combined with EDA scheduling mode.

Fig. 3 is the time slot schematic diagram of the method for the dispatching uplink information of the embodiment of the present invention three.Fig. 3 is only with the first dispatching party Formula and the second scheduling mode are to be explained for the granularity scheduling mode that DA scheduling mode combines.

As shown in figure 3, the method for the dispatching uplink information of the embodiment of the present invention three includes following procedure.

301, network side equipment is respectively MS1 and MS2 distribution TBF.

In this step, network side equipment is respectively MS1 and MS2 distribution uplink TBF.Specifically, network side equipment MS1 Identical uplink PDCH1 is distributed with MS2, wherein uplink PDCH1 is corresponding with downlink PDCH1；Also, network side equipment is to MS1 USF=x1, training sequence TSC1 are distributed, and the scheduling mode of specified MS1 is granularity scheduling mode；Also, network side equipment pair MS2 distributes USF=x2, training sequence TSC2, and the scheduling mode of specified MS2 is granularity scheduling mode.

302, network side equipment is in the initial block period Bx in the granularity dispatching cycle of MS1 using TSC1 in downlink The downlink radio block scheduling MS1 for carrying USF=x1 is sent on PDCH1.

As shown in figure 3, first granularity dispatching cycle of MS1 includes initial block period Bx and 3 reserved block period Bx+1 To Bx+3, first granularity dispatching cycle of MS2 includes initial block period Bx+1 and 3 reserved block period Bx+2 to Bx+4.Its In, it is reserved block period that USF=R, which is used to indicate current block period,.

303, network side equipment uses in any reserved block period in the reserved block period in the granularity dispatching cycle of MS1 TSC2 sends the downlink radio block for carrying USF=x2 on downlink PDCH1.

Specifically, network side equipment uses in the reserved block period Bx+1 in first granularity dispatching cycle of MS1 TSC2 sends the downlink radio block for carrying USF=x2 on downlink PDCH1.

Through the above steps 202 and 203, MS1 and MS2 is dispatched using granularity scheduling mode, so that MS1 and MS2 is in block week TSC1 and TSC2 is respectively adopted in phase Bx+2, Bx+3 and Bx+4 and sends uplink information on uplink PDCH1.

It should be pointed out that second granularity dispatching cycle of MS1 includes initial block period Bx+4 and 3 reserved block periods Second granularity dispatching cycle of Bx+5 to Bx+7, MS2 include initial block period Bx+5 and 3 reserved block period Bx+6 to Bx+ 8.Network side equipment is in the initial block period Bx+4 in the second granularity dispatching cycle of MS1 using TSC1 on downlink PDCH1 Send the downlink radio block scheduling MS1 for carrying USF=x1, and the initial block period Bx within the second granularity dispatching cycle of MS1 Send the downlink radio block scheduling MS2 for carrying USF=x2 in+5 on downlink PDCH1 using TSC2, then in Bx+5 to Bx+8 MS1 and MS2 sends upstream data on uplink PDCH1.

Optionally, when in a kind of implement scene, in step 301 to be the uplink PDCH of MS1 distribution be multiple, including uplink PDCH0, uplink PDCH1 and uplink PDCH2, wherein uplink PDCH0 corresponds to downlink PDCH0, and uplink PDCH1 corresponds to downlink PDCH1, uplink PDCH2 correspond to downlink PDCH2.

When the first scheduling mode is the granularity scheduling mode combined with EDA scheduling mode, then step 302 can specifically be replaced It is changed to 302a；When the first scheduling mode is the granularity scheduling mode combined with DA scheduling mode, then step 302 can specifically be replaced It is changed to 302b.

302a, network side equipment is in the initial block period Bx in the granularity dispatching cycle of MS1, using TSC1 under first The downlink radio block for carrying USF=x1 is sent on row PDCH.

Wherein, the first downlink PDCH is to distribute to the corresponding downlink PDCH of the uplink PDCH of MS1 with network side equipment, and should Minimum timeslot number in timeslot number of the timeslot number of first downlink PDCH less than or equal to uplink PDCH1.In this implement scene, the One downlink PDCH can be the corresponding downlink PDCH0 of uplink PDCH0, or the corresponding downlink PDCH1 of uplink PDCH1 makes It obtains MS1 and uplink information is at least sent on uplink PDCH1 using TSC1 in Bx+1 to Bx+4 block period.

302b, network side equipment is in the initial block period Bx in the granularity dispatching cycle of MS1, using TSC1 in downlink The downlink radio block for carrying USF=x1 is sent on PDCH1.

Specifically, it in the initial block period Bx in the granularity dispatching cycle of MS1, is carried except being sent on downlink PDCH1 Have except the downlink radio block of USF=x1, can also be carried under USF=x1 in downlink PDCH2 and/or downlink PDCH0 transmission Row radio block not limits herein.

Further, when the uplink PDCH in step 301 being MS2 distribution is multiple, including uplink PDCH1, uplink PDCH2 and uplink PDCH3, wherein uplink PDCH3 corresponds to downlink PDCH3, then the second scheduling mode can use and DA dispatching party The granularity scheduling mode that formula combines, then step 303 could alternatively be 303a；Second scheduling mode can be dispatched using with EDA The granularity scheduling mode that mode combines, then step 303 could alternatively be 303b.

303a, network side equipment in any reserved block period in the reserved block period in the granularity dispatching cycle of MS1, The downlink radio block for carrying USF=x2 is sent on downlink PDCH1 using TSC2.

It specifically, can also be in downlink in addition to being sent on downlink PDCH1 and carrying the downlink radio block of USF=x2 PDCH2 and/or downlink PDCH3 sends the downlink radio block for carrying USF=x2, not limits herein.

For example, if in 302a the first PDCH be PDCH1, and in 303a network side equipment in block period Bx+2 in downlink The downlink radio block for carrying USF=x2 is sent on PDCH1 and downlink PDCH2, then MS1 uses TSC1 in block period Bx+3 Send up-link wireless block on uplink PDCH1 and uplink PDCH2, MS2 in block period Bx+3 using TSC2 in uplink PDCH1 and Up-link wireless block is sent on uplink PDCH2.

303b, at least one reserved block week of the network side equipment in the reserved block period in the granularity dispatching cycle of MS1 The downlink radio block for carrying USF=x2 is sent on the second downlink PDCH using TSC2 in phase.

Specifically, the second downlink PDCH can be downlink PDCH1 or downlink PDCH2, so that MS2 is at this, at least one retains Uplink information is at least sent on uplink PDCH1 using TSC2 in next block period of block period.

Example IV

In the embodiment of the present invention four, the first scheduling mode and the second scheduling mode are all made of non-granularity scheduling mode.Fig. 4 For the time slot schematic diagram of the method for the dispatching uplink information of the embodiment of the present invention four.Fig. 4 is only EDA scheduling with the first scheduling mode Mode and the second scheduling mode are to be explained for DA scheduling mode, and those skilled in the art can also believe the dispatching uplink The method of breath is applied to the first scheduling mode and the second scheduling mode is the situation of EDA scheduling mode, and details are not described herein.

As shown in figure 4, the method for the dispatching uplink information of the embodiment of the present invention four includes following procedure.

401, network side equipment is respectively MS1 and MS2 distribution TBF.

In this step, network side equipment is respectively MS1 and MS2 distribution uplink TBF.Specifically, network side equipment MS1 Distribute identical 3 uplink PDCH with MS2, referring to fig. 4, above-mentioned 3 uplink PDCH are respectively that uplink PDCH1(corresponds to TS1), on Row PDCH2(corresponds to TS2) TS3 is corresponded to uplink PDCH3()；Also, network side equipment distributes USF=x1, training sequence to MS1 Scheduling mode for TSC1, and specified MS1 is EDA scheduling mode；Also, network side equipment distributes USF=x2, training sequence to MS2 It is classified as TSC2, and the scheduling mode of specified MS2 is DA scheduling mode.

402, network side equipment is sent on the corresponding downlink PDCH1 of uplink PDCH1 using TSC1 in block period Bx and is taken Downlink radio block with USF=x1 dispatches MS1.

In this step, network side equipment uses EDA scheduling mode, is sent using TSC1 in PDCH1 in block period Bx Downlink radio block dispatches MS1, then MS1 in block period Bx+1 using TSC1 in uplink PDCH1 and subsequent uplink PDCH2 and Up-link wireless block is sent on uplink PDCH3.

403, network side equipment is in block period Bx using TSC2 in the corresponding downlink PDCH2 of uplink PDCH2 and uplink The downlink radio block scheduling MS2 for carrying USF=x2 is sent on the corresponding downlink PDCH3 of PDCH3.

Due to dispatching MS2 in step 403, so that MS2 uses TSC2 in uplink PDCH2 and uplink in block period Bx+1 Up-link wireless block is sent on PDCH3, therefore, referring to fig. 4, MS1 and MS2 are in block period Bx in uplink PDCH2 and uplink PDCH3 On all send uplink information.

Embodiment five

In the embodiment of the present invention five, the scheduling of the first scheduling mode can be robin manner, and the second scheduling mode can Think any one in robin manner, DA scheduling mode and EDA scheduling mode.

Fig. 5 is the time slot schematic diagram of the method for the dispatching uplink information of the embodiment of the present invention five.Fig. 5 is only with the first dispatching party Formula is robin manner, and the second scheduling mode is to be explained for DA scheduling mode.

As shown in figure 5, the method for the dispatching uplink information of the embodiment of the present invention five includes following procedure.

501, network side equipment is respectively MS1 and MS2 distribution TBF.

In this step, network side equipment is MS1 allocation of downlink TBF, distributes uplink TBF for MS2.Specifically, network side Equipment is MS1 allocation of downlink PDCH1, distributes uplink PDCH1 for MS2, wherein uplink PDCH1 is corresponding with downlink PDCH1；Also, Network side equipment distributes USF=x1, training sequence TSC1 to MS1, and network side equipment is during sending downlink data It can be with flexible setting poll to terminal；Also, network side equipment distributes USF=x2, training sequence TSC2 to MS2, and specified The scheduling mode of MS2 is DA scheduling mode.

502, network side equipment is sent on downlink PDCH1 using TSC1 in block period Bx and carries the second reserved block and refer to Show the downlink radio block of information.

Specifically, the second reserved block indicates that information is used to indicate MS1 and uses MS1 in uplink PDCH1 in block period Bx+3 Upper transmission uplink control message.

503, network side equipment in block period Bx+1 to Bx+2 using TSC2 sent on downlink PDCH1 carry USF= The downlink radio block of x2.

To sum up, be respectively adopted in block period Bx+3 according to the scheduling of above-mentioned steps 502 and 503, MS1 and MS2 TSC1 and TSC2 sends uplink information on uplink PDCH1.

Optionally, it under a kind of implement scene, when distributing to MS2 in step 501 is downlink PDCH1, then second adjusts Degree mode uses robin manner, and step 503 could alternatively be 503a, specific as follows.

503a, network side equipment are sent on downlink PDCH1 using TSC2 in block period Bx+1 and carry third reservation The downlink radio block of block instruction information.

Specifically, third reserved block instruction information can serve to indicate that MS2 uses TSC2 upper in block period Bx+3 Uplink control message is sent on row PDCH1.

Optionally, under another implement scene, when the uplink PDCH in step 501 being MS2 distribution is multiple, including Uplink PDCH0, uplink PDCH1 and uplink PDCH2, wherein uplink PDCH0 corresponds to downlink PDCH0, and uplink PDCH1 corresponds to uplink PDCH1, then the second scheduling mode can use EDA scheduling mode, then step 503 could alternatively be 503b.

It is sent on third downlink PDCH in 503b, network side equipment block period Bx+2 using TSC2 and carries USF=x2's Downlink radio block.

Specifically, third downlink PDCH be distribute to the corresponding downlink PDCH of the uplink PDCH of MS2 with network side equipment, and Minimum timeslot number in timeslot number of the timeslot number of the third downlink PDCH less than or equal to uplink PDCH1.This implement scene In, third downlink PDCH can be downlink PDCH0 or downlink PDCH1, so that MS2 is in block period Bx+3 in uplink PDCH1 Upper transmission uplink information.

Embodiment six

Fig. 6 is the structural schematic diagram of the network side equipment of the embodiment of the present invention six.As shown in fig. 6, the network side equipment is extremely It less include: configuration unit 61 and scheduling unit 62.

Wherein, configuration unit 61 is used to configure the first training sequence for first terminal, for the second training of second terminal configuration Sequence, wherein first training sequence is different from second training sequence.

Scheduling unit 62 is used to dispatch the first terminal using the first scheduling mode, dispatches institute using the second scheduling mode Second terminal is stated, so that described in the first terminal and the second terminal are respectively adopted at least one identical block period First training sequence and second training sequence send uplink information on identical ascending packet data channel PDCH.

Wherein, first scheduling mode includes any one in following manner: granularity scheduling mode, the scheduling of non-granularity Mode and polling dispatching.Correspondingly, second scheduling mode includes any one in following manner: the granularity dispatching party Formula, the non-granularity scheduling mode, the robin manner.Wherein, the granularity scheduling mode includes and dynamically distributes DA The granularity scheduling mode or the granularity dispatching party combined with the dynamic allocation EDA scheduling mode of extension that scheduling mode combines Formula, the non-granularity scheduling mode include the DA scheduling mode or the EDA scheduling mode.

Optionally, as an implementation, the identical uplink PDCH includes at least one identical uplink PDCH. Correspondingly, first scheduling mode is the granularity scheduling mode.Correspondingly, the scheduling unit 62 is specifically used for described Network side equipment using it is described with the granularity scheduling mode scheduling first terminal that DA scheduling mode combines when, described the Using first training sequence, at least one is identical described in initial block period in the granularity dispatching cycle of one terminal The downlink radio block for carrying the first uplink state mark of the first terminal is sent on the corresponding downlink PDCH of uplink PDCH； Alternatively,

The scheduling unit 62 is specifically used for combining using described with the EDA scheduling mode in the network side equipment Granularity scheduling mode when dispatching the first terminal, it is described initial in the granularity dispatching cycle of the first terminal It is sent on the first downlink PDCH in block period using first training sequence and carries described the first of the first terminal The downlink radio block of uplink state mark, the first downlink PDCH are to distribute to the first terminal with the network side equipment The corresponding downlink PDCH of uplink PDCH, and the timeslot number of the first downlink PDCH is less than or equal to that described at least one is identical Uplink PDCH timeslot number in minimum timeslot number.Wherein, the granularity dispatching cycle by an initial block period and presets The reserved block period of number forms.

On the basis of the above embodiment, further, second scheduling mode can be the non-granularity scheduling Mode.Correspondingly, the scheduling unit 62 also particularly useful for using the DA scheduling mode dispatch the second terminal when, Described second is used at least one reserved block period in the reserved block period of predetermined number in the granularity dispatching cycle Training sequence sends on the corresponding downlink PDCH of at least one described identical uplink PDCH and carries the second terminal The downlink radio block of second uplink state mark；Alternatively, the scheduling unit 62 is also particularly useful for using the EDA dispatching party When formula dispatches the second terminal, at least one of reserved block period of predetermined number in the granularity dispatching cycle is protected It stays in block period and to send carry the second terminal described the on the second downlink PDCH using second training sequence The downlink radio block of two uplink states mark, the second downlink PDCH are that described second is distributed to the network side equipment eventually The corresponding downlink PDCH of the uplink PDCH at end, and the timeslot number of the second downlink PDCH is less than or equal to the minimum time slot Number.

On the basis of the above embodiment, further, second scheduling mode can be the granularity dispatching party Formula.Correspondingly, the scheduling unit 62 is dispatched also particularly useful for using the granularity combined with the DA scheduling mode When mode dispatches the second terminal, any of reserved block period of predetermined number in the granularity dispatching cycle is protected It stays in block period and is sent out on the corresponding downlink PDCH of at least one described identical uplink PDCH using second training sequence Send the downlink radio block for carrying the second uplink state mark of the second terminal；Alternatively, the scheduling unit 62 is also specific For described when the granularity scheduling mode that the EDA scheduling mode combines dispatches the second terminal in use, described Using the second training sequence in any one reserved block period in the reserved block period of predetermined number in granularity dispatching cycle It is listed in the downlink radio block that second uplink state mark for carrying the second terminal is sent on the second downlink PDCH, institute State the second downlink PDCH be distribute to the corresponding downlink PDCH of the uplink PDCH of the second terminal with the network side equipment, and The timeslot number of the second downlink PDCH is less than or equal to the minimum timeslot number.

On the basis of the above embodiment, further, second scheduling mode can be the polling dispatching side Formula.Correspondingly, the scheduling unit 62 also particularly useful for using second training sequence it is described at least one it is identical on The downlink radio block for carrying the first reserved block instruction information, first reserved block are sent on the corresponding downlink PDCH of row PDCH Instruction information be used to indicate the second terminal any of the granularity dispatching cycle of the first terminal block period it is tight Described in use second training sequence is sent at least one described identical uplink PDCH in adjacent next block period Uplink information.

Optionally, as another embodiment, the identical PDCH includes at least one identical uplink PDCH.Phase Ying Di, first scheduling mode are the robin manner.Correspondingly, the scheduling unit 62 is specifically used for described in use First training sequence sends on the corresponding downlink PDCH of at least one described identical uplink PDCH and carries the second reserved block Indicate the downlink radio block of information, second reserved block instruction information be used to indicate the first terminal it is described it is identical extremely The uplink is sent at least one described identical uplink PDCH using first training sequence in a few block period Information.

On the basis of above-mentioned another embodiment, further, second scheduling mode can be the poll Scheduling mode.Correspondingly, the scheduling unit 62 is also particularly useful for use second training sequence at least one described phase The downlink radio block for carrying third reserved block instruction information, the third are sent on the same corresponding downlink PDCH of uplink PDCH Reserved block instruction information is used to indicate the second terminal at least one described identical block period using second instruction Practice sequence and sends the uplink information at least one described identical uplink PDCH.

On the basis of above-mentioned another embodiment, further, second scheduling mode can be the non-grain Spend scheduling mode.Correspondingly, the scheduling unit 62 also particularly useful for using DA scheduling mode dispatch the second terminal when, Use described second in the adjacent previous block period of each block period at least one described identical block period respectively Training sequence sends on the corresponding downlink PDCH of at least one described identical uplink PDCH and carries the second terminal The downlink radio block of second uplink state mark；Alternatively,

The scheduling unit 62 also particularly useful for using EDA scheduling mode dispatch the second terminal when, respectively in institute It states and uses second training sequence at least one identical block period in the adjacent previous block period of each block period The downlink radio block for carrying the second uplink state mark of the second terminal, the third are sent on third downlink PDCH Downlink PDCH is to distribute to the corresponding downlink PDCH of the uplink PDCH of the second terminal with the network side equipment, and described the The timeslot number of three downlink PDCH is less than or equal to the minimum timeslot number in the timeslot number of at least one identical uplink PDCH.

Optionally, as another embodiment, the identical PDCH includes at least one identical uplink PDCH.Phase Ying Di, first scheduling mode are the non-granularity scheduling mode, and second scheduling mode is the non-granularity dispatching party Formula.Correspondingly, the scheduling unit 62 is specifically used for when dispatching the first terminal using the EDA scheduling mode, in institute It states at least one identical block period to send on the first downlink PDCH using first training sequence and carries described the The downlink radio block of the first uplink state mark of one terminal, the first downlink PDCH are to distribute to the network side equipment The corresponding downlink PDCH of the uplink PDCH of the first terminal, and the timeslot number of the first downlink PDCH is less than or equal to described Minimum timeslot number in the timeslot number of at least one identical uplink PDCH.Correspondingly, the scheduling unit 62 also particularly useful for When dispatching the second terminal using the DA scheduling mode, using described at least one described identical block period Two training sequences send on the corresponding downlink PDCH of at least one described identical uplink PDCH and carry the second terminal Second uplink state mark downlink radio block.

On the basis of the various embodiments of above-described embodiment and embodiment, it can also be wrapped in the network side equipment It includes: receiving unit 63.Receiving unit 63 is specifically used at least one described identical block period in the identical uplink Mixing uplink information is received on PDCH, and the mixing uplink information is demodulated using first training sequence and obtains described first eventually The uplink information sent is held, the mixing uplink information is demodulated using second training sequence and obtains the second terminal transmission Uplink information.

The network side equipment of the embodiment of the present invention six can be used for executing the embodiment of the present invention one to the embodiment of the present invention five The method of the dispatching uplink information, specific implementation process and technical effect are referred to the embodiment of the present invention one to implementation Example five, details are not described herein again.

Embodiment seven

Fig. 7 is the structural schematic diagram of the network side equipment of the embodiment of the present invention seven.As shown in fig. 7, the network side equipment is extremely It less include: transmitter 71, processor 72 and bus 70.

Wherein, transmitter 71 is used to configure the first training sequence for first terminal, for second terminal configuration the second training sequence Column, wherein first training sequence is different from second training sequence.

Processor 72 is used to dispatch the first terminal using the first scheduling mode, using described in the scheduling of the second scheduling mode Second terminal, so that the first terminal and the second terminal are respectively adopted described at least one identical block period One training sequence and second training sequence send uplink information on identical ascending packet data channel PDCH.

For bus 70 for connecting the transmitter 71 and the processor 72, the transmitter 71 and the processor 72 are logical It crosses the bus 70 and carries out information exchange.

Optionally, as an implementation, first scheduling mode includes any one in following manner: granularity Scheduling mode, non-granularity scheduling mode and polling dispatching.Correspondingly, second scheduling mode includes any in following manner It is a kind of: the granularity scheduling mode, the non-granularity scheduling mode, the robin manner.Wherein, the granularity dispatching party Formula include with dynamically distribute the granularity scheduling mode that combines of DA scheduling mode or with the dynamic allocation EDA scheduling mode phase of extension In conjunction with granularity scheduling mode, the non-granularity scheduling mode includes the DA scheduling mode or the EDA scheduling mode.

On the basis of the above embodiment, further, the identical uplink PDCH includes that at least one is identical Uplink PDCH.Correspondingly, first scheduling mode is the granularity scheduling mode.Correspondingly, the processor 72 is specifically used It is described when the granularity scheduling mode that DA scheduling mode combines dispatches the first terminal in being used in the network side equipment, Using first training sequence described at least one in the initial block period in the granularity dispatching cycle of the first terminal It is sent on the corresponding downlink PDCH of a identical uplink PDCH under the first uplink state mark for carrying the first terminal Row radio block；Alternatively, the processor 72 is specifically used in the network side equipment using described with the EDA scheduling mode phase In conjunction with granularity scheduling mode dispatch the first terminal when, in the granularity dispatching cycle of the first terminal described in It is sent and is carried described in the first terminal on the first downlink PDCH using first training sequence in initial block period The downlink radio block of first uplink state mark, the first downlink PDCH are to distribute to described first with the network side equipment The corresponding downlink PDCH of the uplink PDCH of terminal, and the timeslot number of the first downlink PDCH be less than or equal to it is described at least one Minimum timeslot number in the timeslot number of identical uplink PDCH.Wherein, the granularity dispatching cycle by an initial block period and The reserved block period of predetermined number forms.

On the basis of the above embodiment, further, second scheduling mode is the non-granularity scheduling mode. Correspondingly, the processor 72 also particularly useful for using the DA scheduling mode dispatch the second terminal when, in the grain It spends at least one reserved block period in the reserved block period of the predetermined number in dispatching cycle using the second training sequence It is listed on the corresponding downlink PDCH of at least one described identical uplink PDCH and sends on carry the second terminal second The downlink radio block of row status indicator；Alternatively, the processor 72 is also particularly useful for using EDA scheduling mode scheduling institute At least one reserved block period when stating second terminal, in the reserved block period of the predetermined number in the granularity dispatching cycle It is interior to send the second uplink shape for carrying the second terminal on the second downlink PDCH using second training sequence The downlink radio block of state mark, the second downlink PDCH is the uplink that the second terminal is distributed to the network side equipment The corresponding downlink PDCH of PDCH, and the timeslot number of the second downlink PDCH is less than or equal to the minimum timeslot number.

On the basis of the above embodiment, further, second scheduling mode is the granularity scheduling mode.Phase Ying Di, the processor 72 are dispatched also particularly useful for using the granularity scheduling mode combined with the DA scheduling mode Any one reserved block period when the second terminal, in the reserved block period of the predetermined number in the granularity dispatching cycle Interior sent on the corresponding downlink PDCH of at least one described identical uplink PDCH using second training sequence is carried The downlink radio block of the second uplink state mark of the second terminal；Alternatively, the processor 72 is also particularly useful for using When the granularity scheduling mode combined with the EDA scheduling mode dispatches the second terminal, week is dispatched in the granularity In any one reserved block period in the reserved block period of interim predetermined number using second training sequence under second The downlink radio block for carrying second uplink state mark of the second terminal, second downlink are sent on row PDCH PDCH is to distribute to the corresponding downlink PDCH of the uplink PDCH of the second terminal with the network side equipment, and under described second The timeslot number of row PDCH is less than or equal to the minimum timeslot number.

On the basis of the above embodiment, further, second scheduling mode is the robin manner.Phase Ying Di, the processor 72 is also particularly useful for use second training sequence at least one described PDCH pairs of identical uplink The downlink radio block for carrying the first reserved block instruction information is sent on the downlink PDCH answered, first reserved block indicates information Be used to indicate the second terminal any of the granularity dispatching cycle of the first terminal block period it is adjacent next The uplink information is sent at least one described identical uplink PDCH using second training sequence in a block period.

Optionally, as another embodiment, the identical PDCH includes at least one identical uplink PDCH.Phase Ying Di, first scheduling mode are the robin manner.Correspondingly, the processor 72 is specifically used for using described the One training sequence is sent on the corresponding downlink PDCH of at least one described identical uplink PDCH to be carried the second reserved block and refers to Show the downlink radio block of information, the second reserved block instruction information be used to indicate the first terminal it is described it is identical at least The uplink letter is sent at least one described identical uplink PDCH using first training sequence in one block period Breath.

On the basis of the above embodiment, further, second scheduling mode is the robin manner.Phase Ying Di, the processor 72 is also particularly useful for use second training sequence at least one described PDCH pairs of identical uplink The downlink radio block for carrying third reserved block instruction information is sent on the downlink PDCH answered, the third reserved block indicates information Be used to indicate the second terminal at least one described identical block period using second training sequence it is described extremely The uplink information is sent on a few identical uplink PDCH.

On the basis of the above embodiment, further, second scheduling mode is the non-granularity scheduling mode. Correspondingly, the processor 72 also particularly useful for using DA scheduling mode dispatch the second terminal when, respectively in the phase Use second training sequence in institute in the adjacent previous block period of each block period at least one same block period It states and sends the second uplink state for carrying the second terminal on the corresponding downlink PDCH of at least one identical uplink PDCH The downlink radio block of mark；Alternatively, the processor 72 is also particularly useful for using the EDA scheduling mode scheduling second terminal When, respectively at least one described identical block period in the adjacent previous block period of each block period using described the The downlink that two training sequences send the second uplink state mark for carrying the second terminal on third downlink PDCH is wireless Block, the third downlink PDCH are to distribute to the corresponding downlink of the uplink PDCH of the second terminal with the network side equipment PDCH, and the timeslot number of the third downlink PDCH is less than or equal in the timeslot number of at least one identical uplink PDCH Minimum timeslot number.

Optionally, as another embodiment, the identical PDCH includes at least one identical uplink PDCH.Phase Ying Di, first scheduling mode are the non-granularity scheduling mode, and second scheduling mode is the non-granularity dispatching party Formula.Correspondingly, the processor 72 is specifically used for when dispatching the first terminal using the EDA scheduling mode, described It is sent on the first downlink PDCH at least one identical block period using first training sequence and carries described first The downlink radio block of the first uplink state mark of terminal, the first downlink PDCH is distributes to institute with the network side equipment State the corresponding downlink PDCH of uplink PDCH of first terminal, and the timeslot number of the first downlink PDCH be less than or equal to it is described extremely Minimum timeslot number in the timeslot number of a few identical uplink PDCH.Correspondingly, the processor 72 is also particularly useful for adopting When dispatching the second terminal with the DA scheduling mode, using second instruction at least one described identical block period Practice sequence and sends the institute for carrying the second terminal on the corresponding downlink PDCH of at least one described identical uplink PDCH State the downlink radio block of the second uplink state mark.

Based on the above technical solution, further, the network side equipment can also include: receiver 73.It connects It receives device 73 and connects bus 70, transmitter 71, processor 72 and receiver 73 carry out information exchange by bus 70 between each other.It connects Device 73 is received to be specifically used at least one described identical block period receiving mixing uplink on the identical uplink PDCH Information demodulates the mixing uplink information using first training sequence and obtains the uplink information that the first terminal is sent, The mixing uplink information is demodulated using second training sequence and obtains the uplink information that the second terminal is sent.

The network side equipment of the embodiment of the present invention seven can be used for executing the embodiment of the present invention one to the embodiment of the present invention five The method of the dispatching uplink information, specific implementation process and technical effect are referred to the embodiment of the present invention one to implementation Example five, details are not described herein again.

It should be understood that for the various method embodiments described above, for simple description, therefore, it is stated as a series of Combination of actions, but those skilled in the art should understand that, the present invention is not limited by the sequence of acts described because According to the present invention, some steps may be performed in other sequences or simultaneously.Secondly, those skilled in the art should also know It knows, the embodiments described in the specification are all preferred embodiments, and related actions and modules is not necessarily of the invention It is necessary.

In the above-described embodiments, it all emphasizes particularly on different fields to the description of each embodiment, there is no the portion being described in detail in some embodiment Point, reference can be made to the related descriptions of other embodiments.

Those of ordinary skill in the art will appreciate that: realize that all or part of the steps of above method embodiment can pass through The relevant hardware of program instruction is completed, and program above-mentioned can be stored in a computer readable storage medium, the program When being executed, step including the steps of the foregoing method embodiments is executed；And storage medium above-mentioned includes: ROM, RAM, magnetic disk or light The various media that can store program code such as disk.

Finally, it should be noted that the above embodiments are merely illustrative of the technical solutions of the present invention, rather than its limitations；Although Present invention has been described in detail with reference to the aforementioned embodiments, those skilled in the art should understand that: it still may be used To modify the technical solutions described in the foregoing embodiments or equivalent replacement of some of the technical features； And these are modified or replaceed, technical solution of various embodiments of the present invention that it does not separate the essence of the corresponding technical solution spirit and Range.

Claims (30)

1. a kind of method of dispatching uplink information characterized by comprising

Network side equipment is that first terminal configures the first training sequence, configures the second training sequence for second terminal, wherein described First training sequence is different from second training sequence；

The network side equipment dispatches the first terminal using the first scheduling mode, using the second scheduling mode scheduling described the Two terminals, so that the first terminal and the second terminal are respectively adopted described first at least one identical block period Training sequence and second training sequence send uplink information on identical ascending packet data channel PDCH；

First scheduling mode includes any one in following manner: granularity scheduling mode, non-granularity scheduling mode and wheel Ask scheduling；Second scheduling mode includes any one in following manner: the granularity scheduling mode, the non-granularity tune Degree mode, the robin manner；

Wherein, the granularity scheduling mode include with dynamically distribute the granularity scheduling mode that combines of DA scheduling mode or with extension The granularity scheduling mode that combines of dynamic allocation EDA scheduling mode, the non-granularity scheduling mode includes the DA dispatching party Formula or the EDA scheduling mode.

2. the method according to claim 1, wherein the identical uplink PDCH includes that at least one is identical Uplink PDCH；First scheduling mode is the granularity scheduling mode；

The network side equipment dispatches the first terminal using the first scheduling mode, comprising:

If the network side equipment dispatches the first terminal using the granularity scheduling mode combined with DA scheduling mode, Then in the initial block period in the granularity dispatching cycle of the first terminal using first training sequence it is described at least The the first uplink state mark for carrying the first terminal is sent on the corresponding downlink PDCH of one identical uplink PDCH Downlink radio block；Alternatively,

If the network side equipment is using the granularity scheduling mode scheduling described first combined with the EDA scheduling mode Terminal, then using the first training sequence in the initial block period in the granularity dispatching cycle of the first terminal It is listed in the downlink radio block that first uplink state mark for carrying the first terminal is sent on the first downlink PDCH, institute State the first downlink PDCH be distribute to the corresponding downlink PDCH of the uplink PDCH of the first terminal with the network side equipment, and The timeslot number of the first downlink PDCH is less than or equal to the minimum in the timeslot number of at least one identical uplink PDCH Timeslot number；

Wherein, the granularity dispatching cycle is made of the reserved block period of an initial block period and predetermined number.

3. according to the method described in claim 2, it is characterized in that, second scheduling mode is the non-granularity dispatching party Formula, it is described that the second terminal is dispatched using the second scheduling mode, comprising:

If the network side equipment dispatches the second terminal using the DA scheduling mode, in the granularity dispatching cycle Predetermined number reserved block period at least one reserved block period in using second training sequence it is described at least The the second uplink state mark for carrying the second terminal is sent on the corresponding downlink PDCH of one identical uplink PDCH Downlink radio block；Alternatively,

If the network side equipment dispatches the second terminal using the EDA scheduling mode, in the granularity dispatching cycle In predetermined number reserved block period at least one reserved block period in using second training sequence under second The downlink radio block for carrying second uplink state mark of the second terminal, second downlink are sent on row PDCH PDCH is to distribute to the corresponding downlink PDCH of the uplink PDCH of the second terminal with the network side equipment, and under described second The timeslot number of row PDCH is less than or equal to the minimum timeslot number in the timeslot number of at least one identical uplink PDCH.

4. according to the method described in claim 2, it is characterized in that, second scheduling mode be the granularity scheduling mode, It is described that the second terminal is dispatched using the second scheduling mode, comprising:

If the network side equipment is using the granularity scheduling mode scheduling described second combined with the DA scheduling mode Terminal then uses institute in any one reserved block period in the reserved block period of the predetermined number in the granularity dispatching cycle It states the second training sequence and is sent on the corresponding downlink PDCH of at least one described identical uplink PDCH and carry described second The downlink radio block of the second uplink state mark of terminal；Alternatively,

If the network side equipment is using the granularity scheduling mode scheduling described second combined with the EDA scheduling mode Terminal then uses institute in any one reserved block period in the reserved block period of the predetermined number in the granularity dispatching cycle It states the second training sequence and sends second uplink state mark for carrying the second terminal on the second downlink PDCH Downlink radio block, the second downlink PDCH are corresponding to distribute to the uplink PDCH of the second terminal with the network side equipment Downlink PDCH, and the timeslot number of the second downlink PDCH be less than or equal at least one identical uplink PDCH when Minimum timeslot number in gap number.

5. according to the method described in claim 2, it is characterized in that, second scheduling mode be the robin manner, It is described that the second terminal is dispatched using the second scheduling mode, comprising:

The network side equipment is using second training sequence in the corresponding downlink of at least one described identical uplink PDCH The downlink radio block for carrying the first reserved block instruction information is sent on PDCH, the first reserved block instruction information is used to indicate The second terminal is in the adjacent next block period of block period any of described granularity dispatching cycle of the first terminal It is interior that the uplink information is sent at least one described identical uplink PDCH using second training sequence.

6. the method according to claim 1, wherein the identical PDCH includes at least one identical uplink PDCH, first scheduling mode are the robin manner, and the network side equipment dispatches institute using the first scheduling mode State first terminal, comprising:

The network side equipment is using first training sequence in the corresponding downlink of at least one described identical uplink PDCH The downlink radio block for carrying the second reserved block instruction information is sent on PDCH, the second reserved block instruction information is used to indicate The first terminal is at least one described identical block period using first training sequence at least one described phase The uplink information is sent on same uplink PDCH.

7. according to the method described in claim 6, it is characterized in that, second scheduling mode be the robin manner, It is described that the second terminal is dispatched using the second scheduling mode, comprising:

The network side equipment is using second training sequence in the corresponding downlink of at least one described identical uplink PDCH The downlink radio block for carrying third reserved block instruction information is sent on PDCH, the third reserved block instruction information is used to indicate The second terminal is at least one described identical block period using second training sequence at least one described phase The uplink information is sent on same uplink PDCH.

8. according to the method described in claim 6, it is characterized in that, second scheduling mode is the non-granularity dispatching party Formula, it is described that the second terminal is dispatched using the second scheduling mode, comprising:

If the network side equipment dispatches the second terminal using DA scheduling mode, respectively it is described it is identical at least one Use second training sequence at least one described phase in the adjacent previous block period of each block period in block period With the corresponding downlink PDCH of uplink PDCH on send carry the second terminal the second uplink state mark downlink without Line block；Alternatively,

If the network side equipment dispatches the second terminal using EDA scheduling mode, respectively described identical at least one Use second training sequence in third downlink PDCH in the adjacent previous block period of each block period in a block period It is upper send carry the second terminal the second uplink state mark downlink radio block, the third downlink PDCH for institute State the corresponding downlink PDCH of uplink PDCH that network side equipment distributes to the second terminal, and the third downlink PDCH when Gap number is less than or equal to the minimum timeslot number in the timeslot number of at least one identical uplink PDCH.

9. the method according to claim 1, wherein the identical PDCH includes at least one identical uplink PDCH, first scheduling mode are the non-granularity scheduling mode, and second scheduling mode is the non-granularity dispatching party Formula；

The network side equipment dispatches the first terminal using the first scheduling mode, using the second scheduling mode scheduling described the Two terminals, comprising:

If the network side equipment dispatches the first terminal using the EDA scheduling mode, described identical at least one It is sent on the first downlink PDCH on carry the first terminal first in a block period using first training sequence The downlink radio block of row status indicator, the first downlink PDCH are to distribute to the first terminal with the network side equipment The corresponding downlink PDCH of uplink PDCH, and the timeslot number of the first downlink PDCH is less than or equal to that described at least one is identical Minimum timeslot number in the timeslot number of uplink PDCH；

If the network side equipment dispatches the second terminal using the DA scheduling mode, in the identical at least one block It is sent in period and is taken on the corresponding downlink PDCH of at least one described identical uplink PDCH using second training sequence The downlink radio block of the second uplink state mark with the second terminal.

10. -9 described in any item methods according to claim 1, which is characterized in that further include:

The network side equipment receives mixing at least one described identical block period on the identical uplink PDCH Uplink information demodulates the mixing uplink information using first training sequence and obtains the uplink letter that the first terminal is sent Breath demodulates the mixing uplink information using second training sequence and obtains the uplink information that the second terminal is sent.

11. a kind of network side equipment characterized by comprising

Configuration unit configures the second training sequence for configuring the first training sequence for first terminal for second terminal, wherein First training sequence is different from second training sequence；

Scheduling unit, for dispatching the first terminal using the first scheduling mode, using the second scheduling mode scheduling described the Two terminals, so that the first terminal and the second terminal are respectively adopted described first at least one identical block period Training sequence and second training sequence send uplink information on identical ascending packet data channel PDCH；

First scheduling mode includes any one in following manner: granularity scheduling mode, non-granularity scheduling mode and wheel Ask scheduling；Second scheduling mode includes any one in following manner: the granularity scheduling mode, the non-granularity tune Degree mode, the robin manner；

Wherein, the granularity scheduling mode include with dynamically distribute the granularity scheduling mode that combines of DA scheduling mode or with extension The granularity scheduling mode that combines of dynamic allocation EDA scheduling mode, the non-granularity scheduling mode includes the DA dispatching party Formula or the EDA scheduling mode.

12. equipment according to claim 11, which is characterized in that

The identical uplink PDCH includes at least one identical uplink PDCH；First scheduling mode is the granularity tune Degree mode；

The scheduling unit is specifically used in the network side equipment using the granularity scheduling combined with DA scheduling mode When mode dispatches the first terminal, using described the in the initial block period in the granularity dispatching cycle of the first terminal One training sequence sends on the corresponding downlink PDCH of at least one described identical uplink PDCH and carries the first terminal The first uplink state mark downlink radio block；Alternatively, the scheduling unit is specifically used for using in the network side equipment When the granularity scheduling mode combined with the EDA scheduling mode dispatches the first terminal, in the first terminal It is sent on the first downlink PDCH in the initial block period in the granularity dispatching cycle using first training sequence Carry the first terminal first uplink state mark downlink radio block, the first downlink PDCH be with it is described Network side equipment distributes to the corresponding downlink PDCH of uplink PDCH of the first terminal, and the time slot of the first downlink PDCH The minimum timeslot number number being less than or equal in the timeslot number of at least one identical uplink PDCH；

Wherein, the granularity dispatching cycle is made of the reserved block period of an initial block period and predetermined number.

13. equipment according to claim 12, which is characterized in that

Second scheduling mode is the non-granularity scheduling mode, and the scheduling unit is also particularly useful for using the DA tune When degree mode dispatches the second terminal, in the reserved block period of the predetermined number in the granularity dispatching cycle at least one Using second training sequence in the corresponding downlink PDCH of at least one described identical uplink PDCH in a reserved block period It is upper to send the downlink radio block for carrying the second uplink state mark of the second terminal；Alternatively, the scheduling unit also has Body is used for the predetermined number when dispatching the second terminal using the EDA scheduling mode, in the granularity dispatching cycle Reserved block period at least one reserved block period in sent on the second downlink PDCH using second training sequence Carry the second terminal second uplink state mark downlink radio block, the second downlink PDCH be with it is described Network side equipment distributes to the corresponding downlink PDCH of uplink PDCH of the second terminal, and the time slot of the second downlink PDCH The minimum timeslot number number being less than or equal in the timeslot number of at least one identical uplink PDCH.

14. equipment according to claim 12, which is characterized in that

Second scheduling mode is the granularity scheduling mode, the scheduling unit also particularly useful for using it is described with it is described It is default a in the granularity dispatching cycle when granularity scheduling mode that DA scheduling mode combines dispatches the second terminal Using second training sequence, at least one is identical described in any one reserved block period in several reserved block periods The downlink radio block for carrying the second uplink state mark of the second terminal is sent on the corresponding downlink PDCH of uplink PDCH； Alternatively, the scheduling unit is also particularly useful for using the granularity scheduling mode tune combined with the EDA scheduling mode Any one reserved block week when spending the second terminal, in the reserved block period of the predetermined number in the granularity dispatching cycle Second uplink for carrying the second terminal is sent on the second downlink PDCH using second training sequence in phase The downlink radio block of status indicator, the second downlink PDCH are to distribute to the upper of the second terminal with the network side equipment The corresponding downlink PDCH of row PDCH, and the timeslot number of the second downlink PDCH be less than or equal to it is described at least one it is identical on Minimum timeslot number in the timeslot number of row PDCH.

15. equipment according to claim 12, which is characterized in that

Second scheduling mode is the robin manner, and the scheduling unit is also particularly useful for using second training Sequence is sent on the corresponding downlink PDCH of at least one described identical uplink PDCH carries the first reserved block instruction information Downlink radio block, first reserved block instruction information is used to indicate the second terminal in the grain of the first terminal It spends in the adjacent next block period of block period any of dispatching cycle using second training sequence described at least one The uplink information is sent on a identical uplink PDCH.

16. equipment according to claim 11, which is characterized in that

The identical PDCH includes at least one identical uplink PDCH, and first scheduling mode is the polling dispatching side Formula, the scheduling unit are specifically used for corresponding at least one described identical uplink PDCH using first training sequence The downlink radio block for carrying the second reserved block instruction information is sent on downlink PDCH, the second reserved block instruction information is used for Indicate that the first terminal uses first training sequence described at least one at least one described identical block period The uplink information is sent on a identical uplink PDCH.

17. equipment according to claim 16, which is characterized in that

Second scheduling mode is the robin manner, and the scheduling unit is also particularly useful for using second training Sequence is sent on the corresponding downlink PDCH of at least one described identical uplink PDCH carries third reserved block instruction information Downlink radio block, third reserved block instruction information is used to indicate the second terminal in the identical at least one block The uplink information is sent at least one described identical uplink PDCH using second training sequence in period.

18. equipment according to claim 16, which is characterized in that

Second scheduling mode is the non-granularity scheduling mode, and the scheduling unit is also particularly useful for using DA dispatching party When formula dispatches the second terminal, each block period is adjacent previous at least one described identical block period respectively It is sent on the corresponding downlink PDCH of at least one described identical uplink PDCH using second training sequence in block period Carry the downlink radio block of the second uplink state mark of the second terminal；Alternatively, the scheduling unit also particularly useful for When dispatching the second terminal using EDA scheduling mode, each block at least one described identical block period respectively It is sent on third downlink PDCH using second training sequence in period adjacent previous block period and carries described the The downlink radio block of the second uplink state mark of two terminals, the third downlink PDCH are to distribute to the network side equipment The corresponding downlink PDCH of the uplink PDCH of the second terminal, and the timeslot number of the third downlink PDCH is less than or equal to described Minimum timeslot number in the timeslot number of at least one identical uplink PDCH.

19. equipment according to claim 11, which is characterized in that

The identical PDCH includes at least one identical uplink PDCH, and first scheduling mode is the non-granularity scheduling Mode, second scheduling mode are the non-granularity scheduling mode；

The scheduling unit is specifically used for when dispatching the first terminal using the EDA scheduling mode, described identical It is sent on the first downlink PDCH at least one block period using first training sequence and carries the first terminal The downlink radio block of first uplink state mark, the first downlink PDCH are to distribute to described first with the network side equipment The corresponding downlink PDCH of the uplink PDCH of terminal, and the timeslot number of the first downlink PDCH be less than or equal to it is described at least one Minimum timeslot number in the timeslot number of identical uplink PDCH；

The scheduling unit also particularly useful for using the DA scheduling mode dispatch the second terminal when, described identical Using second training sequence in the corresponding downlink of at least one described identical uplink PDCH at least one block period The downlink radio block for carrying the second uplink state mark of the second terminal is sent on PDCH.

20. the described in any item equipment of 1-19 according to claim 1, which is characterized in that further include:

Receiving unit is specifically used at least one described identical block period receiving on the identical uplink PDCH mixed Row information is closed, the mixing uplink information is demodulated using first training sequence and obtains the uplink that the first terminal is sent Information demodulates the mixing uplink information using second training sequence and obtains the uplink information that the second terminal is sent.

21. a kind of network side equipment characterized by comprising

Transmitter configures the second training sequence for configuring the first training sequence for first terminal for second terminal, wherein institute It is different from second training sequence to state the first training sequence；

Processor, for dispatching the first terminal using the first scheduling mode, using the second scheduling mode scheduling described second Terminal, so that first instruction is respectively adopted in the first terminal and the second terminal at least one identical block period Practice sequence and second training sequence sends uplink information on identical ascending packet data channel PDCH；

Bus, for connecting the transmitter and the processor, the transmitter and the processor by the bus into Row information interaction；

First scheduling mode includes any one in following manner: granularity scheduling mode, non-granularity scheduling mode and wheel Ask scheduling；Second scheduling mode includes any one in following manner: the granularity scheduling mode, the non-granularity tune Degree mode, the robin manner；

Wherein, the granularity scheduling mode include with dynamically distribute the granularity scheduling mode that combines of DA scheduling mode or with extension The granularity scheduling mode that combines of dynamic allocation EDA scheduling mode, the non-granularity scheduling mode includes the DA dispatching party Formula or the EDA scheduling mode.

22. equipment according to claim 21, which is characterized in that

The identical uplink PDCH includes at least one identical uplink PDCH；First scheduling mode is the granularity tune Degree mode；

The processor is specifically used in the network side equipment using the granularity dispatching party combined with DA scheduling mode When formula dispatches the first terminal, described first is used in the initial block period in the granularity dispatching cycle of the first terminal Training sequence sends on the corresponding downlink PDCH of at least one described identical uplink PDCH and carries the first terminal The downlink radio block of first uplink state mark；Alternatively, the processor be specifically used for the network side equipment use described in When the granularity scheduling mode that the EDA scheduling mode combines dispatches the first terminal, described in the first terminal Carrying is sent on the first downlink PDCH using first training sequence in the initial block period in granularity dispatching cycle There is the downlink radio block of first uplink state mark of the first terminal, the first downlink PDCH is and the network Side apparatus distributes to the corresponding downlink PDCH of uplink PDCH of the first terminal, and the timeslot number of the first downlink PDCH is small In or equal to minimum timeslot number in the timeslot number of at least one identical uplink PDCH；

Wherein, the granularity dispatching cycle is made of the reserved block period of an initial block period and predetermined number.

23. equipment according to claim 22, which is characterized in that

Second scheduling mode is the non-granularity scheduling mode, and the processor is dispatched also particularly useful for using the DA At least one of the reserved block period of predetermined number when mode dispatches the second terminal, in the granularity dispatching cycle In reserved block period using second training sequence on the corresponding downlink PDCH of at least one described identical uplink PDCH Send the downlink radio block for carrying the second uplink state mark of the second terminal；Alternatively, the processor is also specifically used In using the EDA scheduling mode dispatch the second terminal when, the guarantor of the predetermined number in the granularity dispatching cycle It stays at least one reserved block period in block period and carrying is sent on the second downlink PDCH using second training sequence There is the downlink radio block of second uplink state mark of the second terminal, the second downlink PDCH is and the network Side apparatus distributes to the corresponding downlink PDCH of uplink PDCH of the second terminal, and the timeslot number of the second downlink PDCH is small In or equal to minimum timeslot number in the timeslot number of at least one identical uplink PDCH.

24. equipment according to claim 22, which is characterized in that

Second scheduling mode is the granularity scheduling mode, and the processor is also particularly useful for using the described and DA When the granularity scheduling mode that scheduling mode combines dispatches the second terminal, the predetermined number in the granularity dispatching cycle Reserved block period in any one reserved block period in using second training sequence it is described at least one it is identical on The downlink radio block for carrying the second uplink state mark of the second terminal is sent on the corresponding downlink PDCH of row PDCH；Or Person, the processor is also particularly useful for using the granularity scheduling mode scheduling institute combined with the EDA scheduling mode When stating second terminal, in any one reserved block period in the reserved block period of the predetermined number in the granularity dispatching cycle Second uplink state for carrying the second terminal is sent on the second downlink PDCH using second training sequence The downlink radio block of mark, the second downlink PDCH are the uplink that the second terminal is distributed to the network side equipment The corresponding downlink PDCH of PDCH, and the timeslot number of the second downlink PDCH is less than or equal at least one described identical uplink Minimum timeslot number in the timeslot number of PDCH.

25. equipment according to claim 22, which is characterized in that

Second scheduling mode is the robin manner, and the processor is also particularly useful for using the second training sequence It is listed in send on the corresponding downlink PDCH of at least one described identical uplink PDCH and carries the first reserved block instruction information Downlink radio block, the first reserved block instruction information are used to indicate the second terminal in the granularity of the first terminal In any of dispatching cycle adjacent next block period of block period using second training sequence it is described at least one The uplink information is sent on identical uplink PDCH.

26. equipment according to claim 21, which is characterized in that

The identical PDCH includes at least one identical uplink PDCH, and first scheduling mode is the polling dispatching side Formula, the processor are specifically used for using first training sequence in the case where at least one described identical uplink PDCH is corresponding The downlink radio block for carrying the second reserved block instruction information is sent on row PDCH, the second reserved block instruction information is for referring to Show the first terminal at least one described identical block period using first training sequence it is described at least one The uplink information is sent on identical uplink PDCH.

27. equipment according to claim 26, which is characterized in that

Second scheduling mode is the robin manner, and the processor is also particularly useful for using the second training sequence It is listed in send on the corresponding downlink PDCH of at least one described identical uplink PDCH and carries third reserved block instruction information Downlink radio block, the third reserved block instruction information are used to indicate the second terminal in the identical at least one block week The uplink information is sent at least one described identical uplink PDCH using second training sequence in phase.

28. equipment according to claim 26, which is characterized in that

Second scheduling mode is the non-granularity scheduling mode, and the processor is also particularly useful for using DA scheduling mode When dispatching the second terminal, respectively adjacent previous piece of each block period at least one described identical block period It is sent in period and is taken on the corresponding downlink PDCH of at least one described identical uplink PDCH using second training sequence The downlink radio block of the second uplink state mark with the second terminal；Alternatively, the processor is also particularly useful for adopting When dispatching the second terminal with EDA scheduling mode, each block period at least one described identical block period respectively It is sent on third downlink PDCH in adjacent previous block period using second training sequence and carries described second eventually The downlink radio block of the second uplink state mark at end, the third downlink PDCH are described to distribute to the network side equipment The corresponding downlink PDCH of the uplink PDCH of second terminal, and the timeslot number of the third downlink PDCH be less than or equal to it is described at least Minimum timeslot number in the timeslot number of one identical uplink PDCH.

29. equipment according to claim 21, which is characterized in that

The identical PDCH includes at least one identical uplink PDCH, and first scheduling mode is the non-granularity scheduling Mode, second scheduling mode are the non-granularity scheduling mode；

The processor be specifically used for using the EDA scheduling mode dispatch the first terminal when, it is described it is identical extremely It is sent on the first downlink PDCH in a few block period using first training sequence and carries the of the first terminal The downlink radio block of one uplink state mark, the first downlink PDCH are that described first is distributed to the network side equipment eventually The corresponding downlink PDCH of the uplink PDCH at end, and the timeslot number of the first downlink PDCH is less than or equal at least one described phase Minimum timeslot number in the timeslot number of same uplink PDCH；

The processor also particularly useful for using the DA scheduling mode dispatch the second terminal when, it is described it is identical extremely Using second training sequence in the corresponding downlink PDCH of at least one described identical uplink PDCH in a few block period It is upper to send the downlink radio block for carrying the second uplink state mark of the second terminal.

30. according to the described in any item equipment of claim 21-29, which is characterized in that further include:

Receiver is specifically used for receiving mixing on the identical uplink PDCH at least one described identical block period Uplink information demodulates the mixing uplink information using first training sequence and obtains the uplink letter that the first terminal is sent Breath demodulates the mixing uplink information using second training sequence and obtains the uplink information that the second terminal is sent.