CN105323855A

CN105323855A - Instruction information processing method and device

Info

Publication number: CN105323855A
Application number: CN201410382385.2A
Authority: CN
Inventors: 袁明; 吴栓栓; 杨瑾; 袁弋非; 王文焕; 黄双红
Original assignee: ZTE Corp
Current assignee: ZTE Corp
Priority date: 2014-08-05
Filing date: 2014-08-05
Publication date: 2016-02-10
Also published as: WO2015184916A1

Abstract

The invention discloses an instruction information processing method and device. In the method, data scheduling instruction information issued by a base station is received, wherein the data scheduling instruction information is used for instructing an SA and Data transmission mode; and SA and Data are sent to an opposite end user equipment according to the data scheduling instruction information. According to the technical scheme provided by the invention, scheduling instruction of device-to-device control transmission and data transmission through the base station is realized.

Description

The processing method of indication information and device

Technical field

The present invention relates to the communications field, in particular to a kind of processing method and device of indication information.

Background technology

At present, cellular communication system is multiplexing due to what achieve limited spectrum resources, thus it is flourish that wireless communication technology is obtained.In the cellular system, as two subscriber equipment (UserEquipment, referred to as UE) between when having service needed to transmit, subscriber equipment 1 (UE1) to the business datum of subscriber equipment 2 (UE2) need first by air interface transmission to the base station (BaseStation of community, UE1 place, or be called eNB, or evolution (evolvedeNB)), this base station again by core net by this user data transmission to the base station of community, UE2 place, this base station again by above-mentioned business datum by air interface transmission to UE2.The business data transmission of UE2 to UE1 adopts similar handling process.Fig. 1 is cellular communication schematic diagram when being positioned at same base station cell according to the UE of correlation technique.As shown in Figure 1, when UE1 and UE2 is positioned at same cellular cell, although so two UE are by the MPS process of same base station, but a data transfer still can consume two parts of radio spectrum resources.

As can be seen here, if subscriber equipment 1 and subscriber equipment 2 are positioned at same community and at a distance of comparatively near, so above-mentioned cellular communication method is not obviously optimum communication mode.Such as, and in fact, along with the variation of mobile communication business, the application in a wireless communication system such as social networks, E-Payment is more and more extensive, the business closely between user is made to transmit demand growing.Therefore, the communication pattern of device-to-device (Device-to-Device, referred to as D2D) is subject to extensive concern day by day.So-called D2D, Fig. 2 are the device-to-device communication scheme according to correlation technique.As shown in Figure 2, refer to that business datum is without the need to forwarding through base station, and directly by source user equipment by air interface transmission to target UE, also can be referred to as adjacent service (ProximityService, referred to as ProSe).This communication pattern is different from the communication pattern of conventional cellular systems.For the user of short-range communication, D2D not only saves radio spectrum resources, and reduces the transfer of data pressure of core net.D2D communication based on Cellular Networks is a kind of under the control of system, the new technique communicated directly is carried out between the terminal equipment of multiple support D2D function, it can reduce system resource and take, increase frequency spectrum efficiency of cellular communication system, reduce terminal transmission power consumption, and save network operation cost to a great extent.

In traditional cellular communication system, the Radio Resource of UE unifies Control and Schedule by evolved base station eNB, eNB is by Physical Downlink Control Channel (PhysicalDownlinkControlChannel, referred to as PDCCH) the downlink or uplink resource that indicates UE to configure, UE receives the data-signal of eNB transmitting according to the configuration instruction of eNB on corresponding downlink resource, or transmits to eNB on ascending resource.

In D2D communication system, especially in covering under scene, the communication between two UE is controlled by eNB completely.But the D2D communication how eNB specifically controls between two UE there is no final conclusion at present.The present invention, just for this problem, proposes the technical scheme that a kind of eNB dispatches the D2D communications between instruction two UE.

Summary of the invention

The invention provides a kind of processing method and device of indication information, at least to solve in correlation technique in covering under scene, eNB is the problem of how to dispatch controls transfer between indicating equipment to equipment and transfer of data.

According to an aspect of the present invention, a kind of processing method of indication information is provided.

Processing method according to the indication information of the embodiment of the present invention comprises: receive the data dispatch indication information that base station issues, wherein, data dispatch indication information is used to indicate the transmission means of dispatching distribution (SA) and data (Data); According to data dispatch indication information, SA and Data is sent to correspondent user device.

Preferably, data dispatch indication information be used to indicate following one of at least: the call number at the call number at the time-domain resource place of SA, the call number at the frequency domain resource place of SA, the call number at the time-domain resource place of data Data, the frequency domain resource place of Data.

Preferably, data dispatch indication information is received via down control channel, wherein, down control channel carrying data dispatch indication information, data dispatch indication information adopts uplink scheduling authorization information, or the bit size of data dispatch indication information is identical with the bit size of uplink scheduling authorization information, but data dispatch indication information is different from the content that uplink scheduling authorization packets of information contains.

Preferably, data dispatch indication information comprise following one of at least: frequency hopping indicates, for indicating separately the frequency hopping of SA and Data, or, the frequency hopping of joint instructions SA and Data; Resourse Distribute; Modulation and Coding Scheme and redundancy versions, be used to indicate Modulation and Coding Scheme and the redundancy versions of Data; Power controls, for indicating separately the power control of SA and Data, or, the power control of joint instructions SA and Data; Upper line index, for indicating separately the upper line index of SA and Data, or, the upper line index of joint instructions SA and Data; The scheduling term of validity, is used to indicate the lasting duration of data dispatch indication information, and wherein, the chronomere of the scheduling term of validity is the data cycle.

Preferably, Resourse Distribute comprises one of following: SA Resourse Distribute and Data Resourse Distribute, and wherein, SA Resourse Distribute is used to indicate the call number at the call number at the time-domain resource place of SA and/or the frequency domain resource place of SA; Data Resourse Distribute is used to indicate the call number at the call number at the time-domain resource place of Data and/or the frequency domain resource place of Data; SA Resourse Distribute, wherein, SA Resourse Distribute is used to indicate the call number at the call number at the time-domain resource place of SA and/or the frequency domain resource place of SA; The call number at the call number at the time-domain resource place of Data and the frequency domain resource place of Data implies instruction by the call number at the call number at the time-domain resource place of SA and the frequency domain resource place of SA respectively; Data Resourse Distribute, wherein, Data Resourse Distribute is used to indicate the call number at the call number at the time-domain resource place of Data and/or the frequency domain resource place of Data; The call number at the call number at the time-domain resource place of SA and the frequency domain resource place of SA implies instruction by the call number at the call number at the time-domain resource place of Data and the frequency domain resource place of Data respectively; The call number at the call number at the frequency domain resource place of joint instructions SA and the frequency domain resource place of Data, the call number at the call number at the time-domain resource place of SA and the time-domain resource place of Data is by the semi-static configuration of high-level signaling.

Preferably, data dispatch indication information is utilized to indicate the call number at the call number at time-domain resource place of SA, the call number at the frequency domain resource place of SA, the call number at the time-domain resource place of Data and the frequency domain resource place of Data.

Preferably, utilize comprise in data dispatch indication information one or more information instruction call number at time-domain resource place of SA, the call number at the frequency domain resource place of SA, the call number at the time-domain resource place of Data and the frequency domain resource place of Data call number, wherein, the information comprised in data dispatch indication information be following one of at least: resource block assignments; Carrier wave indicates; New data indicates; The cyclic shift of demodulated reference signal and orthogonal convolution code index; Descending distribution instruction; Channel state information request; Detection reference signal request.

Preferably, the SA Resourse Distribute in data dispatch indication information is used to indicate the call number at the call number at the time-domain resource place of SA and the frequency domain resource place of SA; Data Resourse Distribute in data dispatch indication information is used to indicate the call number at the call number at the time-domain resource place of Data and the frequency domain resource place of Data.

Preferably, data dispatch indication information is utilized to indicate the call number at time-domain resource place of SA and the call number at the frequency domain resource place of SA.

Preferably, utilize one or more information instruction call number at time-domain resource place of SA and the call number at the frequency domain resource place of SA that comprise in data dispatch indication information, wherein, the information comprised in data dispatch indication information be following one of at least: resource block assignments; Carrier wave indicates; New data indicates; The cyclic shift of demodulated reference signal and orthogonal convolution code index; Descending distribution instruction; Channel state information request; Detection reference signal request.

Preferably, the SA Resourse Distribute in data dispatch indication information is used to indicate the call number at the call number at the time-domain resource place of SA and the frequency domain resource place of SA.

Preferably, the call number at the time-domain resource place of Data is by the implicit instruction of the call number at the time-domain resource place of SA, and the call number at the frequency domain resource place of Data is by the implicit instruction of the call number at the frequency domain resource place of SA; Or the call number at the call number at the time-domain resource place of Data and the frequency domain resource place of Data carries out joint instructions by the call number at the call number at the time-domain resource place of SA and the frequency domain resource place of SA.

Preferably, the mode that the call number at the time-domain resource place of Data implies instruction by the call number at the time-domain resource place of SA comprises one of following: the call number at the call number at the time-domain resource place of Data and the time-domain resource place of SA carries out one_to_one corresponding according to the mode of positive sequence or backward; The call number at the time-domain resource place of Data quantitatively offsets on the basis of the call number at the time-domain resource place of SA; The call number at the time-domain resource place of the corresponding one group of Data of call number at the time-domain resource place of a SA; The call number at the time-domain resource place of the corresponding Data of call number at the time-domain resource place of one group of SA.

Preferably, the mode that the call number at the frequency domain resource place of Data implies instruction by the call number at the frequency domain resource place of SA comprises one of following: the call number at the call number at the frequency domain resource place of Data and the frequency domain resource place of SA carries out one_to_one corresponding according to the mode of positive sequence or backward; The call number at the frequency domain resource place of Data quantitatively offsets on the basis of the call number at the frequency domain resource place of SA; The call number at the frequency domain resource place of the corresponding one group of Data of call number at the frequency domain resource place of a SA; The call number at the frequency domain resource place of the corresponding Data of call number at the frequency domain resource place of one group of SA; The call number at the call number at the frequency domain resource place of Data and the frequency domain resource place of SA adopts the mode of joint instructions, and wherein, the mode of joint instructions adopts the Class1 of ascending resource distribution.

Preferably, the mode that the call number at the call number at the time-domain resource place of Data and the frequency domain resource place of Data combines implicit instruction by the call number at the call number at the time-domain resource place of SA and the frequency domain resource place of SA comprises one of following: the call number at the call number at the time domain and frequency domain combined resource place of Data and the time domain and frequency domain combined resource place of SA carries out one_to_one corresponding according to the mode of positive sequence or backward; The call number at the time domain and frequency domain combined resource place of Data quantitatively offsets on the basis of the call number at the time domain and frequency domain combined resource place of SA; The call number at the time domain and frequency domain combined resource place of the corresponding one group of Data of call number at the time domain and frequency domain combined resource place of a SA; The call number at the time domain and frequency domain combined resource place of the corresponding Data of call number at the time domain and frequency domain combined resource place of one group of SA.

Preferably, the mode of instruction is implied by the semi-static configuration of high-level signaling.

Preferably, data dispatch indication information is utilized to indicate the call number at the call number at time-domain resource place of SA, the call number at the frequency domain resource place of SA and the time-domain resource place of Data.

Preferably, utilize comprise in data dispatch indication information one or more information instruction call number at time-domain resource place of SA, the call number at the frequency domain resource place of SA and the time-domain resource place of Data call number, wherein, the information comprised in data dispatch indication information be following one of at least: resource block assignments; Carrier wave indicates; New data indicates; The cyclic shift of demodulated reference signal and orthogonal convolution code index; Descending distribution instruction; Channel state information request; Detection reference signal request.

Preferably, the SA Resourse Distribute in data dispatch indication information is utilized to indicate the call number at time-domain resource place of SA and the call number at the frequency domain resource place of SA and utilize the Data Resourse Distribute in data dispatch indication information to indicate the call number at the time-domain resource place of Data.

Preferably, the mode that the call number at the frequency domain resource place of Data implies instruction by the call number at the frequency domain resource place of SA comprises one of following: the call number at the call number at the frequency domain resource place of Data and the frequency domain resource place of SA carries out one_to_one corresponding according to the mode of positive sequence or backward; The call number at the frequency domain resource place of Data quantitatively offsets on the basis of the call number at the frequency domain resource place of SA; The call number at the frequency domain resource place of the corresponding one group of Data of call number at the frequency domain resource place of a SA; The call number at the frequency domain resource place of the corresponding Data of call number at the frequency domain resource place of one group of SA; The call number at the call number at the frequency domain resource place of Data and the frequency domain resource place of SA adopts the mode of joint instructions, and wherein, the mode of joint instructions adopts the Class1 of ascending resource distribution; According to first Physical Resource Block (PRB) position and the implicit frequency domain position determining Data of demodulated reference signal (DMRS) cyclic shift (CS) of SA; The frequency domain position of implicit instruction Data is combined according to the control channel unit (CCE) of carrying data dispatch indication information or control channel unit (eCCE) index strengthened and DMRS.

Preferably, data dispatch indication information is utilized to indicate the call number at the call number at time-domain resource place of SA, the call number at the frequency domain resource place of SA and the frequency domain resource place of Data.

Preferably, utilize comprise in data dispatch indication information one or more information instruction call number at time-domain resource place of SA, the call number at the frequency domain resource place of SA and the frequency domain resource place of Data call number, wherein, the information comprised in data dispatch indication information be following one of at least: resource block assignments; Carrier wave indicates; New data indicates; The cyclic shift of demodulated reference signal and orthogonal convolution code index; Descending distribution instruction; Channel state information request; Detection reference signal request.

Preferably, the SA Resourse Distribute in data dispatch indication information is utilized to indicate the call number at time-domain resource place of SA and the call number at the frequency domain resource place of SA and utilize the Data Resourse Distribute in data dispatch indication information to indicate the call number at the frequency domain resource place of Data.

Preferably, data dispatch indication information is utilized to indicate the call number at the call number at frequency domain resource place of SA, the call number at the time-domain resource place of Data and the frequency domain resource place of Data.

Preferably, utilize comprise in data dispatch indication information one or more information instruction call number at frequency domain resource place of SA, the call number at the time-domain resource place of Data and the frequency domain resource place of Data call number, wherein, the information comprised in data dispatch indication information be following one of at least: resource block assignments; Carrier wave indicates; New data indicates; The cyclic shift of demodulated reference signal and orthogonal convolution code index; Descending distribution instruction; Channel state information request; Detection reference signal request.

Preferably, utilize the SA Resourse Distribute in data dispatch indication information to indicate the call number at the frequency domain resource place of SA and utilize the Data Resourse Distribute instruction call number at time-domain resource place of Data in data dispatch indication information and the call number at the frequency domain resource place of Data.

Preferably, the call number at the time-domain resource place of SA is by the implicit instruction of the call number at the time-domain resource place of Data; Or the call number at the time-domain resource place of SA is semi-static pre-configured by high level.

Preferably, the mode that the call number at the time-domain resource place of SA implies instruction by the call number at the time-domain resource place of Data comprises one of following: the call number at the call number at the time-domain resource place of SA and the time-domain resource place of Data carries out one_to_one corresponding according to the mode of positive sequence or backward; The call number at the time-domain resource place of SA quantitatively offsets on the basis of the call number at the time-domain resource place of Data; The call number at the time-domain resource place of the corresponding one group of SA of call number at the time-domain resource place of a Data; The call number at the time-domain resource place of the corresponding SA of call number at the time-domain resource place of one group of Data.

Preferably, data dispatch indication information is utilized to indicate the call number at the call number at time-domain resource place of SA, the call number at the time-domain resource place of Data and the frequency domain resource place of Data.

Preferably, utilize comprise in data dispatch indication information one or more information instruction call number at time-domain resource place of SA, the call number at the time-domain resource place of Data and the frequency domain resource place of Data call number, wherein, the information comprised in data dispatch indication information be following one of at least: resource block assignments; Carrier wave indicates; New data indicates; The cyclic shift of demodulated reference signal and orthogonal convolution code index; Descending distribution instruction; Channel state information request; Detection reference signal request.

Preferably, utilize the SA Resourse Distribute in data dispatch indication information to indicate the call number at the time-domain resource place of SA and utilize the Data Resourse Distribute instruction call number at time-domain resource place of Data in data dispatch indication information and the call number at the frequency domain resource place of Data.

Preferably, the call number at the frequency domain resource place of SA is by the implicit instruction of the call number at the frequency domain resource place of Data.

Preferably, the mode that the call number at the frequency domain resource place of SA implies instruction by the call number at the frequency domain resource place of Data comprises one of following: the call number at the call number at the frequency domain resource place of SA and the frequency domain resource place of Data carries out one_to_one corresponding according to the mode of positive sequence or backward; The call number at the frequency domain resource place of SA quantitatively offsets on the basis of the call number at the frequency domain resource place of Data; The call number at the frequency domain resource place of the corresponding one group of SA of call number at the frequency domain resource place of a Data; The call number at the frequency domain resource place of the corresponding SA of call number at the frequency domain resource place of one group of Data; The call number at the call number at the frequency domain resource place of SA and the frequency domain resource place of Data adopts the mode of joint instructions, the mode of joint instructions to adopt the Class1 of ascending resource distribution; The frequency domain position determining SA is implied according to first Physical Resource Block position of Data and DMRSCS; The frequency domain position of implicit instruction SA is combined according to the CCE/eCCE index and DMRS that carry data dispatch indication information.

Preferably, data dispatch indication information is utilized to indicate the call number at frequency domain resource place of SA and the call number at the frequency domain resource place of Data.

Preferably, utilize one or more information instruction call number at frequency domain resource place of SA and the call number at the frequency domain resource place of Data that comprise in data dispatch indication information, wherein, the information comprised in data dispatch indication information be following one of at least: resource block assignments; Carrier wave indicates; New data indicates; The cyclic shift of demodulated reference signal and orthogonal convolution code index; Descending distribution instruction; Channel state information request; Detection reference signal request.

Preferably, utilize the SA Resourse Distribute in data dispatch indication information to indicate the call number at the frequency domain resource place of SA and utilize the Data Resourse Distribute in data dispatch indication information to indicate the call number at the frequency domain resource place of Data.

Preferably, the call number at the call number at the time-domain resource place of SA and the time-domain resource place of Data is semi-static pre-configured by high level.

Preferably, data dispatch indication information is utilized to indicate the call number at time-domain resource place of Data and the call number at the frequency domain resource place of Data.

Preferably, one or more information comprised in data dispatch indication information are utilized to indicate the call number at the call number at the time-domain resource place of Data and the frequency domain resource place of Data alone or in combination, wherein, the information comprised in data dispatch indication information be following one of at least: resource block assignments; Carrier wave indicates; New data indicates; The cyclic shift of demodulated reference signal and orthogonal convolution code index; Descending distribution instruction; Channel state information request; Detection reference signal request.

Preferably, the Data Resourse Distribute instruction call number at time-domain resource place of Data in data dispatch indication information and the call number at the frequency domain resource place of Data is utilized.

Preferably, the mode that the call number at the frequency domain resource place of SA implies instruction by the call number at the frequency domain resource place of Data comprises one of following: the call number at the call number at the frequency domain resource place of SA and the frequency domain resource place of Data carries out one_to_one corresponding according to the mode of positive sequence or backward; The call number at the frequency domain resource place of SA quantitatively offsets on the basis of the call number at the frequency domain resource place of Data; The call number at the frequency domain resource place of the corresponding one group of SA of call number at the frequency domain resource place of a Data; The call number at the frequency domain resource place of the corresponding SA of call number at the frequency domain resource place of one group of Data; The call number at the call number at the frequency domain resource place of SA and the frequency domain resource place of Data adopts the mode of joint instructions, the mode of joint instructions to adopt the Class1 of ascending resource distribution; The frequency domain position determining SA is implied according to first PRB position of Data and DMRSCS; The frequency domain position of implicit instruction SA is combined according to the CCE/eCCE index and DMRS that carry data dispatch indication information.

Preferably, the call number at the call number at the time-domain resource place of SA and the frequency domain resource place of SA carries out joint instructions by the call number at the call number at the time-domain resource place of Data and the frequency domain resource place of Data.

Preferably, the mode that the call number at the call number at the time-domain resource place of SA and the frequency domain resource place of SA carries out joint instructions by the call number at the call number at the time-domain resource place of Data and the frequency domain resource place of Data comprises one of following: the call number at the call number at the time domain and frequency domain combined resource place of SA and the time domain and frequency domain combined resource place of Data carries out one_to_one corresponding according to the mode of positive sequence or backward; The call number at the time domain and frequency domain combined resource place of SA quantitatively offsets on the basis of the call number at the time domain and frequency domain combined resource place of Data; The call number at the time domain and frequency domain combined resource place of the corresponding one group of SA of call number at the time domain and frequency domain combined resource place of a Data; The call number at the time domain and frequency domain combined resource place of the corresponding SA of call number at the time domain and frequency domain combined resource place of one group of Data.

According to a further aspect in the invention, the processing method of another kind of indication information is provided.

Processing method according to the indication information of the embodiment of the present invention comprises: determine data dispatch indication information to be issued, and wherein, data dispatch indication information is used to indicate the transmission means of SA and Data; Data dispatch indication information is issued to subscriber equipment.

In accordance with a further aspect of the present invention, a kind of processing unit of indication information is provided.

Processing unit according to the indication information of the embodiment of the present invention comprises: receiver module, and for receiving the data dispatch indication information that base station issues, wherein, data dispatch indication information is used to indicate the transmission means of SA and Data; Sending module, for being sent to correspondent user device according to data dispatch indication information by SA and Data.

Preferably, receiver module, for receiving data dispatch indication information via down control channel, wherein, down control channel carrying data dispatch indication information, data dispatch indication information adopts uplink scheduling authorization information, or, the bit size of data dispatch indication information is identical with the bit size of uplink scheduling authorization information, but data dispatch indication information is different from the content that uplink scheduling authorization packets of information contains.

According to another aspect of the invention, the processing unit of another kind of indication information is provided.

Processing unit according to the indication information of the embodiment of the present invention comprises: determination module, and for determining data dispatch indication information to be issued, wherein, data dispatch indication information is used to indicate the transmission means of SA and Data; Issue module, for described data dispatch indication information is issued to subscriber equipment.

By the embodiment of the present invention, adopt the data dispatch indication information receiving base station and issue, wherein, data dispatch indication information is used to indicate the transmission means of SA and Data; According to data dispatch indication information, SA and Data is sent to correspondent user device, to solve in correlation technique in covering under scene, eNB is the problem of how to dispatch controls transfer between indicating equipment to equipment and transfer of data, and then achieves the scheduling instruction of base station to the controls transfer between device-to-device and transfer of data.

Accompanying drawing explanation

Accompanying drawing described herein is used to provide a further understanding of the present invention, and form a application's part, schematic description and description of the present invention, for explaining the present invention, does not form inappropriate limitation of the present invention.In the accompanying drawings:

Fig. 1 is cellular communication schematic diagram when being positioned at same base station cell according to the UE of correlation technique;

Fig. 2 is the device-to-device communication scheme according to correlation technique;

Fig. 3 is the flow chart of the processing method of indication information according to the embodiment of the present invention;

Fig. 4 is the flow chart of the processing method of another kind of indication information according to the embodiment of the present invention;

Fig. 5 is the structured flowchart of the processing unit of indication information according to the embodiment of the present invention;

Fig. 6 is the structured flowchart of the processing unit of another kind of indication information according to the embodiment of the present invention.

Embodiment

Hereinafter also describe the present invention in detail with reference to accompanying drawing in conjunction with the embodiments.It should be noted that, when not conflicting, the embodiment in the application and the feature in embodiment can combine mutually.

Fig. 3 is the flow chart of the processing method of indication information according to the embodiment of the present invention.As shown in Figure 3, the method can comprise following treatment step:

Step S302: receive the data dispatch indication information that base station issues, wherein, data dispatch indication information is used to indicate the transmission means of SA and Data;

Step S304: SA and Data is sent to correspondent user device according to data dispatch indication information.

In correlation technique in covering under scene, how eNB dispatches controls transfer between indicating equipment to equipment and transfer of data.Which kind of MCS is the method as shown in Figure 3 of employing, in covering under scene, the running time-frequency resource that SA and Data that source user equipment sends to target UE uses, adopt, with parameters such as much power emission, by eNB enforcement United Dispatching.Thus, to solve in correlation technique in covering under scene, eNB is the problem of how to dispatch controls transfer between indicating equipment to equipment and transfer of data, and then achieves the scheduling of base station to the controls transfer between device-to-device and transfer of data and indicate.

In D2D communication, source user equipment can send D2D control information to target UE, i.e. SA, and which running time-frequency resource is the data transmitted in order to indicate source user equipment occupy, adopt the relevant informations such as which kind of modulation demodulation system; Then, source user equipment sends data according to the instruction in SA to target UE.For target UE, first it receive the SA from source user equipment, and then go to receive corresponding data according to the instruction of SA.

In preferred implementation process, it is following one of at least that data dispatch indication information may be used for instruction:

(1) call number at the time-domain resource place of SA;

(2) call number at the frequency domain resource place of SA;

(3) call number at the time-domain resource place of Data;

(4) call number at the frequency domain resource place of Data.

Preferably, in step s 302, data dispatch indication information is received via down control channel, wherein, down control channel carrying data dispatch indication information, data dispatch indication information adopts uplink scheduling authorization information, or, the bit size of data dispatch indication information is identical with the bit size of uplink scheduling authorization information, but data dispatch indication information is different from the content that uplink scheduling authorization packets of information contains.

Preferably, above-mentioned data dispatch indication information comprise following one of at least:

(1) frequency hopping instruction (Frequencyhoppingflag), for indicating separately the frequency hopping of SA and Data, or, the frequency hopping of joint instructions SA and Data;

(2) Resourse Distribute (resourceassignment);

(3) Modulation and Coding Scheme and redundancy versions (MCSandRV), be used to indicate Modulation and Coding Scheme and the redundancy versions of Data;

(4) power controls (TPC), for indicating separately the power control of SA and Data, or, the power control of joint instructions SA and Data;

(5) upper line index (ULindex), for indicating separately the upper line index of SA and Data, or, the upper line index of joint instructions SA and Data;

(6) dispatch the term of validity, be used to indicate the lasting duration of data dispatch indication information, wherein, the chronomere of the scheduling term of validity is the data cycle.

Preferably, above-mentioned Resourse Distribute can include but not limited to one of following:

(1) SA Resourse Distribute (SAresourceassignment) and Data Resourse Distribute (Dataresourceassignment), wherein, SA Resourse Distribute is used to indicate the call number at the call number at the time-domain resource place of SA and/or the frequency domain resource place of SA; Data Resourse Distribute is used to indicate the call number at the call number at the time-domain resource place of Data and/or the frequency domain resource place of Data;

(2) SA Resourse Distribute, wherein, SA Resourse Distribute is used to indicate the call number at the call number at the time-domain resource place of SA and/or the frequency domain resource place of SA; The call number at the call number at the time-domain resource place of Data and the frequency domain resource place of Data implies instruction by the call number at the call number at the time-domain resource place of SA and the frequency domain resource place of SA respectively;

(3) Data Resourse Distribute, wherein, Data Resourse Distribute is used to indicate the call number at the call number at the time-domain resource place of Data and/or the frequency domain resource place of Data; The call number at the call number at the time-domain resource place of SA and the frequency domain resource place of SA implies instruction by the call number at the call number at the time-domain resource place of Data and the frequency domain resource place of Data respectively;

(4) call number at the call number at the frequency domain resource place of joint instructions SA and the frequency domain resource place of Data, the call number at the call number at the time-domain resource place of SA and the time-domain resource place of Data is by the semi-static configuration of high-level signaling.

Preferably, utilize comprise in data dispatch indication information one or more information instruction call number at time-domain resource place of SA, the call number at the frequency domain resource place of SA, the call number at the time-domain resource place of Data and the frequency domain resource place of Data call number, wherein, the information comprised in data dispatch indication information can for following one of at least:

(1) resource block assignments (Resourceblockassignment);

(2) carrier wave instruction (carrierindicator);

(3) new data instruction (NewDataIndicator, referred to as NDI);

(4) cyclic shift of demodulated reference signal (DMRS) and orthogonal convolution code (OrthogonalConvolutionalCode, referred to as OCC) index (CyclicshiftforDMRSandOCCindex);

(5) descending distribution instruction (DownlinkAssignmentIndex, referred to as DAI);

(6) channel state information request (Channel-StateInformationrequest, referred to as CSIrequest);

(7) detection reference signal request (SoundingReferenceSignalrequest, referred to as SRSrequest).

Preferably, utilize one or more information instruction call number at time-domain resource place of SA and the call number at the frequency domain resource place of SA comprised in data dispatch indication information, wherein, the information comprised in data dispatch indication information can for following one of at least:

(1) resource block assignments (Resourceblockassignment);

(2) carrier wave instruction (carrierindicator);

(3) new data instruction (NewDataIndicator, referred to as NDI);

Preferably, the mode that the call number at the time-domain resource place of Data implies instruction by the call number at the time-domain resource place of SA can comprise one of following:

The call number at the call number at the time-domain resource place of mode one, Data and the time-domain resource place of SA carries out one_to_one corresponding according to the mode of positive sequence or backward;

The call number at the time-domain resource place of mode two, Data quantitatively offsets on the basis of the call number at the time-domain resource place of SA;

The call number at the time-domain resource place of the corresponding one group of Data of call number at the time-domain resource place of mode three, SA;

The call number at the time-domain resource place of the corresponding Data of call number at the time-domain resource place of mode four, one group of SA.

Preferably, the mode that the call number at the frequency domain resource place of Data implies instruction by the call number at the frequency domain resource place of SA can comprise one of following:

The call number at the call number at the frequency domain resource place of mode one, Data and the frequency domain resource place of SA carries out one_to_one corresponding according to the mode of positive sequence or backward;

The call number at the frequency domain resource place of mode two, Data quantitatively offsets on the basis of the call number at the frequency domain resource place of SA;

The call number at the frequency domain resource place of the corresponding one group of Data of call number at the frequency domain resource place of mode three, SA;

The call number at the frequency domain resource place of the corresponding Data of call number at the frequency domain resource place of mode four, one group of SA;

The call number at the call number at the frequency domain resource place of mode five, Data and the frequency domain resource place of SA adopts the mode of joint instructions, and wherein, the mode of joint instructions adopts the Class1 of ascending resource distribution.

Preferably, the mode that the call number at the call number at the time-domain resource place of Data and the frequency domain resource place of Data combines implicit instruction by the call number at the call number at the time-domain resource place of SA and the frequency domain resource place of SA can comprise one of following:

The call number at the call number at the time domain and frequency domain combined resource place of mode one, Data and the time domain and frequency domain combined resource place of SA carries out one_to_one corresponding according to the mode of positive sequence or backward;

The call number at the time domain and frequency domain combined resource place of mode two, Data quantitatively offsets on the basis of the call number at the time domain and frequency domain combined resource place of SA;

The call number at the time domain and frequency domain combined resource place of the corresponding one group of Data of call number at the time domain and frequency domain combined resource place of mode three, SA;

The call number at the time domain and frequency domain combined resource place of the corresponding Data of call number at the time domain and frequency domain combined resource place of mode four, one group of SA.

In preferred implementation process, by the mode of the above-mentioned implicit instruction of the semi-static configuration of high-level signaling.

Preferably, utilize comprise in data dispatch indication information one or more information instruction call number at time-domain resource place of SA, the call number at the frequency domain resource place of SA and the time-domain resource place of Data call number, wherein, the information comprised in data dispatch indication information can for following one of at least:

(1) resource block assignments (Resourceblockassignment);

(2) carrier wave instruction (carrierindicator);

(3) new data instruction (NewDataIndicator, referred to as NDI);

The call number at the call number at the frequency domain resource place of mode five, Data and the frequency domain resource place of SA adopts the mode of joint instructions, and wherein, the mode of joint instructions adopts the Class1 of ascending resource distribution;

Mode six, according to first Physical Resource Block (PRB) position of SA and the implicit frequency domain position determining Data of demodulated reference signal (DMRS) cyclic shift (CS);

Mode seven, combine the frequency domain position of implicit instruction Data according to the control channel unit (CCE) of carrying data dispatch indication information or control channel unit (eCCE) index strengthened and DMRS.

Preferably, utilize comprise in data dispatch indication information one or more information instruction call number at time-domain resource place of SA, the call number at the frequency domain resource place of SA and the frequency domain resource place of Data call number, wherein, the information comprised in data dispatch indication information be following one of at least:

(1) resource block assignments (Resourceblockassignment);

(2) carrier wave instruction (carrierindicator);

(3) new data instruction (NewDataIndicator, referred to as NDI);

(1) call number at the call number at the time-domain resource place of Data and the time-domain resource place of SA carries out one_to_one corresponding according to the mode of positive sequence or backward;

(2) call number at the time-domain resource place of Data quantitatively offsets on the basis of the call number at the time-domain resource place of SA;

The call number at the time-domain resource place of the corresponding one group of Data of call number at the time-domain resource place of (3) SA;

The call number at the time-domain resource place of the corresponding Data of call number at the time-domain resource place of (4) one groups of SA.

Preferably, utilize comprise in data dispatch indication information one or more information instruction call number at frequency domain resource place of SA, the call number at the time-domain resource place of Data and the frequency domain resource place of Data call number, wherein, the information comprised in data dispatch indication information can for following one of at least:

(1) resource block assignments (Resourceblockassignment);

(2) carrier wave instruction (carrierindicator);

(3) new data instruction (NewDataIndicator, referred to as NDI);

Preferably, the mode that the call number at the time-domain resource place of SA implies instruction by the call number at the time-domain resource place of Data can comprise one of following:

The call number at the call number at the time-domain resource place of mode one, SA and the time-domain resource place of Data carries out one_to_one corresponding according to the mode of positive sequence or backward;

The call number at the time-domain resource place of mode two, SA quantitatively offsets on the basis of the call number at the time-domain resource place of Data;

The call number at the time-domain resource place of the corresponding one group of SA of call number at the time-domain resource place of mode three, Data;

The call number at the time-domain resource place of the corresponding SA of call number at the time-domain resource place of mode four, one group of Data.

Preferably, utilize comprise in data dispatch indication information one or more information instruction call number at time-domain resource place of SA, the call number at the time-domain resource place of Data and the frequency domain resource place of Data call number, wherein, the information comprised in data dispatch indication information can for following one of at least:

(1) resource block assignments (Resourceblockassignment);

(2) carrier wave instruction (carrierindicator);

(3) new data instruction (NewDataIndicator, referred to as NDI);

Preferably, the mode that the call number at the frequency domain resource place of SA implies instruction by the call number at the frequency domain resource place of Data can comprise one of following:

The call number at the call number at the frequency domain resource place of mode one, SA and the frequency domain resource place of Data carries out one_to_one corresponding according to the mode of positive sequence or backward;

The call number at the frequency domain resource place of mode two, SA quantitatively offsets on the basis of the call number at the frequency domain resource place of Data;

The call number at the frequency domain resource place of the corresponding one group of SA of call number at the frequency domain resource place of mode three, Data;

The call number at the frequency domain resource place of the corresponding SA of call number at the frequency domain resource place of mode four, one group of Data;

The call number at the call number at the frequency domain resource place of mode five, SA and the frequency domain resource place of Data adopts the mode of joint instructions, the mode of joint instructions to adopt the Class1 of ascending resource distribution;

Mode six, imply according to first Physical Resource Block position of Data and DMRSCS the frequency domain position determining SA;

Mode seven, combine the frequency domain position of implicit instruction SA according to the CCE/eCCE index of carrying data dispatch indication information and DMRS.

Preferably, utilize one or more information instruction call number at frequency domain resource place of SA and the call number at the frequency domain resource place of Data that comprise in data dispatch indication information, wherein, the information comprised in data dispatch indication information can for following one of at least:

(1) resource block assignments (Resourceblockassignment);

(2) carrier wave instruction (carrierindicator);

(3) new data instruction (NewDataIndicator, referred to as NDI);

Preferably, one or more information comprised in data dispatch indication information are utilized to indicate the call number at the call number at the time-domain resource place of Data and the frequency domain resource place of Data alone or in combination, wherein, the information comprised in data dispatch indication information can for following one of at least:

(1) resource block assignments (Resourceblockassignment);

(2) carrier wave instruction (carrierindicator);

(3) new data instruction (NewDataIndicator, referred to as NDI);

Mode six, imply according to first PRB position of Data and DMRSCS the frequency domain position determining SA;

Preferably, the mode that the call number at the call number at the time-domain resource place of SA and the frequency domain resource place of SA carries out joint instructions by the call number at the call number at the time-domain resource place of Data and the frequency domain resource place of Data can comprise one of following:

The call number at the call number at the time domain and frequency domain combined resource place of mode one, SA and the time domain and frequency domain combined resource place of Data carries out one_to_one corresponding according to the mode of positive sequence or backward;

The call number at the time domain and frequency domain combined resource place of mode two, SA quantitatively offsets on the basis of the call number at the time domain and frequency domain combined resource place of Data;

The call number at the time domain and frequency domain combined resource place of the corresponding one group of SA of call number at the time domain and frequency domain combined resource place of mode three, Data;

The call number at the time domain and frequency domain combined resource place of the corresponding SA of call number at the time domain and frequency domain combined resource place of mode four, one group of Data.

Fig. 4 is the flow chart of the processing method of another kind of indication information according to the embodiment of the present invention.As shown in Figure 4, the method can comprise following treatment step:

Step S402: determine data dispatch indication information to be issued, wherein, data dispatch indication information is used to indicate the transmission means of SA and Data;

Step S404: data dispatch indication information is issued to subscriber equipment.

Below in conjunction with each preferred implementation following above-mentioned preferred implementation process done and describe further.

Preferred embodiment one

In the preferred embodiment, the information of carrying in data dispatch indication information can be divided into following two kinds of different situations:

The first, adopt the various information comprised in existing uplink scheduling authorization information (DCIformat0), but the implication of specifying information is not identical with existing implication, specifically difference can see following preferred embodiment for it.

The second, data dispatch indication information are identical with the bit size of DCIformat0, but its specifying information comprised is different, and wherein, the information content comprised is as follows:

(1) frequency hopping instruction (Frequencyhoppingflag): if indicate separately the frequency hopping of SA and Data, then need to use 2bits; If the frequency hopping of joint instructions SA and Data, then only need to use 1bits.

(2) SA Resourse Distribute (SAresourceassignment): in order to the call number at the frequency domain resource place of the call number and/or SA that indicate the time-domain resource place of SA, wherein, the total number of bits required for call number at instruction SA time-domain resource place is relevant to the kind of SA time-domain resource, such as: if SA time-domain resource has 8 kinds, then need to use 3bits to indicate.The bit number required for call number at the frequency domain resource place of instruction SA is then relevant to the frequency domain granularity of concrete transmission bandwidth and SA, such as: if the frequency domain granularity of SA is 1 or 2 PRB, then the system bandwidth of 1.4MHz and 3MHz all needs to use 4bits, the system bandwidth of 5MHz needs to use 5bits, the system bandwidth of 10MHz needs to use the system bandwidth of 6bits, 15MHz and 20MHz then to need to use 7bits.

(3) Data Resourse Distribute (Dataresourceassignment): in order to the call number at the frequency domain resource place of the call number and/or Data that indicate the time-domain resource place of Data, wherein, the total number of bits required for call number at instruction Data time-domain resource place is relevant to the kind of Data time-domain resource, such as: if Data time-domain resource has 256 kinds, then need to use 8bits to indicate.The total number of bits required for call number at instruction Data frequency domain resource place is relevant to concrete transmission bandwidth, such as: the system bandwidth of 1.4MHz needs to use 5bits, the system bandwidth of 3MHz needs to use 7bits, the system bandwidth of 5MHz needs to use 9bits, the system bandwidth of 10MHz needs to use 11bits, the system bandwidth of 15MHz needs to use the system bandwidth of 12bits, 20MHz then to need to use 13bits.

(4) Modulation and Coding Scheme and redundancy versions (MCSandRV): in order to indicate MCS and RV of Data, it needs to use 5bits.

(5) power controls (TPC): if indicate separately the power control of SA and Data, then need to use 4bits; And if the power control of joint instructions SA and Data, then only need use 2bits.

(6) upper line index (ULindex): if indicate separately the ULindex of SA and Data, then need to use 4bits; If the ULindex of joint instructions SA and Data, then only need to use 2bits.

Alternatively, the Resourse Distribute part of data dispatch indication information only can comprise SA Resourse Distribute (resourceassignment), wherein, can comprise: the time-domain resource call number of SA and the frequency domain resource call number of SA, the time-domain resource call number of Data and frequency domain resource call number then imply instruction by the time-domain resource call number of SA and frequency domain resource call number respectively, and concrete implicit indicating mode can see following preferred embodiment.Other content in data dispatch indication information can remain unchanged.

Alternatively, the Resourse Distribute part of data dispatch indication information only can comprise Data Resourse Distribute (resourceassignment), wherein, can comprise: the time-domain resource call number of Data and the frequency domain resource call number of Data, the time-domain resource call number of SA and frequency domain resource call number then imply instruction by the time-domain resource call number of Data and frequency domain resource call number respectively, and concrete implicit indicating mode can see following preferred embodiment.Other content in data dispatch indication information can remain unchanged.

Alternatively, the Resourse Distribute part of data dispatch indication information adopts the method for joint instructions, for the time domain of joint instructions SA and Data or the call number at frequency domain resource place.Such as: the mode of the Class1 (Uplinkresourceallocationtype1) that Resourse Distribute part adopts ascending resource to distribute, be used to indicate two groups of time domains or frequency domain call number, respectively the time domain of corresponding SA and Data or the call number at frequency domain resource place.

Alternatively, can also comprise in data dispatch indication information: the scheduling term of validity, being used to indicate this data dispatch indication information can last long, and concrete chronomere is the data cycle.Such as: indicate this data dispatch indication information can continue 1 data cycle, 2 data cycles, 3 data cycles and 4 data cycles respectively with 2bits.

Preferred embodiment two

In the preferred embodiment, base station can utilize data dispatch indication information to the call number at the call number at frequency domain resource place of the call number and SA that indicate the time-domain resource place of SA and the call number at the time-domain resource place of Data and the frequency domain resource place of Data, and concrete indicating mode is as follows:

(1) resource block assignments (Resourceblockassignment) in data dispatch indication information is used to indicate the call number at the call number at the call number at the call number at the time-domain resource place of SA and the frequency domain resource place of SA and the time-domain resource place of Data and the frequency domain resource place of Data.

(2) resource block assignments (Resourceblockassignment) in data dispatch indication information is used to indicate the call number at the call number at the frequency domain resource place of SA and the frequency domain resource place of Data; Adopt following indication information one of at least in order to the call number at the call number at the time-domain resource place of joint instructions SA and the time-domain resource place of Data:

1) carrier wave instruction (carrierindicator);

2) new data instruction (NewDataIndicator, referred to as NDI);

3) cyclic shift of DMRS and orthogonal convolution code (OrthogonalConvolutionalCode, referred to as OCC) index (CyclicshiftforDMRSandOCCindex);

4) descending distribution instruction (DownlinkAssignmentIndex, referred to as DAI);

5) channel state information request (Channel-StateInformationrequest, referred to as CSIrequest);

6) detection reference signal request (SoundingReferenceSignalrequest, referred to as SRSrequest).

(3) resource block assignments (Resourceblockassignment) in data dispatch indication information is used to indicate the call number at the call number at the time-domain resource place of SA and the frequency domain resource place of SA; Adopt following indication information one of at least in order to the call number at the call number at the time-domain resource place of joint instructions Data and the frequency domain resource place of Data:

1) carrier wave instruction (carrierindicator);

2) new data instruction (NewDataIndicator, referred to as NDI);

(4) resource block assignments (Resourceblockassignment) in data dispatch indication information is used to indicate the call number at the call number at the time-domain resource place of Data and the frequency domain resource place of Data; Adopt following indication information one of at least in order to the call number at the call number at the time-domain resource place of joint instructions SA and the frequency domain resource place of SA:

1) carrier wave instruction (carrierindicator);

2) new data instruction (NewDataIndicator, referred to as NDI);

(5) resource block assignments (Resourceblockassignment) in data dispatch indication information is used to indicate the call number at the call number at the frequency domain resource place of SA and the frequency domain resource place of Data; Adopt following indication information one of at least in order to the call number at the time-domain resource place of joint instructions Data:

1) carrier wave instruction (carrierindicator);

2) new data instruction (NewDataIndicator, referred to as NDI);

(6) resource block assignments (Resourceblockassignment) in data dispatch indication information is used to indicate the call number at the call number at the frequency domain resource place of SA and the frequency domain resource place of Data; Adopt following indication information one of at least in order to the call number at the time-domain resource place of joint instructions SA:

1) carrier wave instruction (carrierindicator);

2) new data instruction (NewDataIndicator, referred to as NDI);

Alternatively, base station can utilize data dispatch indication information to indicate the call number at time-domain resource place of SA and the call number at the call number at the call number at the frequency domain resource place of SA and the time-domain resource place of Data and the frequency domain resource place of Data, wherein, the bit size of data dispatch indication information is identical with the bit size of uplink scheduling authorization information (DCIformat0), SA Resourse Distribute (SAResourceassignment) in data dispatch indication information indicates the call number at the call number at the time-domain resource place of SA and the frequency domain resource place of SA, Data Resourse Distribute (DataResourceassignment) indicates the call number at the call number at the time-domain resource place of Data and the frequency domain resource place of Data.

Preferred embodiment three

In the preferred embodiment, base station can utilize data dispatch indication information to indicate the call number at time-domain resource place of SA and the call number at the frequency domain resource place of SA, and concrete indicating mode is as follows:

(1) resource block assignments (Resourceblockassignment) in data dispatch indication information indicates the call number at the call number at the time-domain resource place of SA and the frequency domain resource place of SA.

(2) resource block assignments (Resourceblockassignment) in data dispatch indication information indicates the call number at the frequency domain resource place of SA, and carrier wave instruction (carrierindicator) indicates the call number at the time-domain resource place of SA.

(3) resource block assignments (Resourceblockassignment) in data dispatch indication information indicates the call number at the frequency domain resource place of SA, adopts following indication information one of at least in order to the call number at the time-domain resource place of joint instructions SA:

1) new data instruction (NewDataIndicator, referred to as NDI);

2) cyclic shift of DMRS and orthogonal convolution code (OrthogonalConvolutionalCode, referred to as OCC) index (CyclicshiftforDMRSandOCCindex);

3) descending distribution instruction (DownlinkAssignmentIndex, referred to as DAI);

4) channel state information request (Channel-StateInformationrequest, referred to as CSIrequest);

5) detection reference signal request (SoundingReferenceSignalrequest, referred to as SRSrequest).

Alternatively, base station can utilize data dispatch indication information to indicate the call number at time-domain resource place of SA and the call number at the frequency domain resource place of SA, wherein, the bit size of data dispatch indication information is identical with the bit size of uplink scheduling authorization information (DCIformat0), and the SA Resourse Distribute (SAResourceassignment) in data dispatch indication information indicates the call number at the call number at the time-domain resource place of SA and the frequency domain resource place of SA.

Preferred embodiment four

In the preferred embodiment, the call number at the time-domain resource place of Data is by the implicit instruction of the call number at the time-domain resource place of SA, and concrete indicating mode is as follows:

(1) suppose to indicate the call number at time-domain resource place of SA need to use 3bits (call number is 0,1 ... 8), the call number at time-domain resource place of instruction Data need to use 8bits (call number is 0,1 ... 255), so, the time-domain resource call number i of SA implies the time-domain resource call number { i*32, the i*32+1 that indicate Data,, i*32+31}; Or the time-domain resource call number i of SA implies time-domain resource call number { (i*32+offset) mod256 indicating Data, (i*32+offset+1) mod256 ..., (i*32+offset+31) mod256}, wherein, offset is arbitrary integer.

(2) (call number is 0 to suppose to indicate the call number at the time-domain resource place of the call number at the time-domain resource place of SA and instruction Data to be 4bits, 1,15), so the time-domain resource call number of SA and the time-domain resource call number of Data can be sequentially corresponding one by one, i.e. the time-domain resource call number i of the SA just implicit time-domain resource call number i indicating Data; Or backward is corresponding one by one, and namely the time-domain resource call number i of SA implies the time-domain resource call number (15-i) indicating Data; Or be the one_to_one corresponding with quantitatively skew, namely the time-domain resource call number i of SA implies time-domain resource call number (i+offset) mod16 indicating Data, and wherein, offset is arbitrary integer.

(3) suppose to indicate the call number at time-domain resource place of SA need to use 6bits (call number is 0,1 ... 63), the call number at time-domain resource place of instruction Data need to use 4bits (call number is 0,1 ... 15), so, time-domain resource call number { 4i, the 4i+1 of SA, 4i+2,4i+3} imply the time-domain resource call number i indicating Data; Or, time-domain resource call number { (4i+offset) mod64 of SA, (4i+offset+1) mod64, (4i+offset+2) mod64, (4i+offset+3) mod64} implies the time-domain resource call number i indicating Data, wherein, offset is arbitrary integer; Or, in the time-domain resource call number of 64 SA, choose arbitrarily 16 carry out one_to_one corresponding with the time-domain resource call number of Data respectively, wherein, one of following corresponded manner can be comprised: order is corresponding, backward is corresponding, have the correspondence of quantitatively skew.

Preferred embodiment five

In the preferred embodiment, the call number at the frequency domain resource place of Data is by the implicit instruction of the call number at the frequency domain resource place of SA, and concrete indicating mode is as follows:

(1) suppose to indicate the call number at frequency domain resource place of SA need to use 8bits (call number is 0,1 ... 255), the call number at frequency domain resource place of instruction Data need to use 10bits (call number is 0,1 ... 1023), so, the frequency domain resource call number i of SA implies the frequency domain resource call number { i*4, the i*4+1 that indicate Data, i*4+2, i*4+3}; Or, the frequency domain resource call number i of SA implies frequency domain resource call number { (i*4+offset) mod1024 indicating Data, (i*4+offset+1) mod1024, (i*4+offset+2) mod1024, (i*4+offset+3) mod1024}, wherein, offset is arbitrary integer.

(2) (call number is 0 to suppose to indicate the call number at the frequency domain resource place of the call number at the frequency domain resource place of SA and instruction Data to be 10bits, 1,1023), so the frequency domain resource call number of SA and the frequency domain resource call number of Data can be sequentially corresponding one by one, i.e. the frequency domain resource call number i of the SA just implicit frequency domain resource call number i indicating Data; Or backward is corresponding one by one, and namely the frequency domain resource call number i of SA implies the frequency domain resource call number (1023-i) indicating Data; Or be the one_to_one corresponding with quantitatively skew, namely the frequency domain resource call number i of SA implies frequency domain resource call number (i+offset) mod1024 indicating Data, and wherein, offset is arbitrary integer.

(3) suppose to indicate the call number at frequency domain resource place of SA need to use 12bits (call number is 0,1 ..., 2 ¹²-1), the call number at frequency domain resource place of instruction Data need to use 8bits (call number is 0,1 ..., 2 ⁸-1), so, the frequency domain resource call number of SA 16i, 16i+1 ..., 16i+15} implies the frequency domain resource call number i indicating Data; Or, frequency domain resource call number { (16i+offset) mod2 of SA ¹², (16i+offset+1) mod2 ¹²..., (16i+offset+15) mod2 ¹²the implicit frequency domain resource call number i indicating Data, wherein, offset is arbitrary integer; Or, 2 ¹²2 are chosen arbitrarily in the frequency domain resource call number of individual SA ⁸individually carry out one_to_one corresponding with the frequency domain resource call number of Data respectively, wherein, one of following corresponded manner can be comprised: order is corresponding, backward is corresponding, have the correspondence of quantitatively skew.

Alternatively, the frequency domain call number of SA and Data adopts the mode of joint instructions, the mode of its joint instructions can adopt the Class1 (Uplinkresourceallocationtype1) of ascending resource distribution.In preferred implementation process, resource allocation field can indicate two groups of frequency domain resource call numbers, and it is the frequency domain call number of corresponding SA and the call number of Data respectively.

Preferred embodiment six

In the preferred embodiment, the call number at the call number at the time-domain resource place of Data and the frequency domain resource place of Data combines implicit instruction by the call number at the call number at the time-domain resource place of SA and the frequency domain resource place of SA, and concrete indicating mode is:

Suppose to indicate the call number at the time-domain resource place of SA to need to use 3bits, and indicate the call number at the frequency domain resource place of SA to need to use 10bits, so the time domain and frequency domain combined resource index number of SA always has 2 ¹³kind; The call number at the time-domain resource place of hypothesis instruction Data needs to use 8bits again, and the call number at the frequency domain resource place of instruction Data needs to use 8bits, and therefore the time domain and frequency domain combined resource index number of Data always has 2 ¹⁶kind.So, the time domain and frequency domain combined resource index i of SA imply indicate Data time domain and frequency domain combined resource index number i*8, i*8+1 ..., i*8+7}; Or the time domain and frequency domain combined resource index i of SA implies time domain and frequency domain combined resource index number { (i*8+offset) mod2 indicating Data ¹⁶, (i*8+offset+1) mod2 ¹⁶..., (i*4+offset+7) mod2 ¹⁶, wherein, offset is arbitrary integer.

Preferred embodiment seven

In a preferred embodiment, base station can utilize data dispatch indication information to indicate the call number at the call number at time-domain resource place of SA, the call number at SA frequency domain resource place and the time-domain resource place of Data, and concrete indicating mode is as follows:

(1) resource block assignments (Resourceblockassignment) in data dispatch indication information indicates the call number at the call number at the time-domain resource place of SA, the call number at SA frequency domain resource place and the time-domain resource place of Data.

(2) resource block assignments (Resourceblockassignment) in data dispatch indication information indicates the call number at SA frequency domain resource place, carrier wave instruction (carrierindicator) indicates the call number at the time-domain resource place of SA, adopts following indication information one of at least in order to the call number at the time-domain resource place of joint instructions Data:

1) up call number (ULindex);

2) channel state information request (Channel-StateInformationrequest, referred to as CSIrequest);

3) detection reference signal request (SoundingReferenceSignalrequest, referred to as SRSrequest);

4) resource allocation type (Resourceassignmenttype, referred to as RAtype).

(3) resource block assignments (Resourceblockassignment) in data dispatch indication information indicates the call number at the time-domain resource place of SA and the call number at SA frequency domain resource place, and carrier wave instruction (carrierindicator) indicates the call number at the time-domain resource place of Data.

(4) resource block assignments (Resourceblockassignment) in data dispatch indication information indicates the call number at the time-domain resource place of Data and the call number at SA frequency domain resource place, and carrier wave instruction (carrierindicator) indicates the call number at the time-domain resource place of SA.

Alternatively, base station can utilize data dispatch indication information to indicate the call number at time-domain resource place of SA and the call number at the call number at the frequency domain resource place of SA and the time-domain resource place of Data, wherein, the bit size of data dispatch indication information is identical with the bit size of uplink scheduling authorization information, SA Resourse Distribute (SAResourceassignment) in data dispatch indication information indicates the call number at the call number at the time-domain resource place of SA and the frequency domain resource place of SA, Data Resourse Distribute (DataResourceassignment) indicates the call number at the time-domain resource place of Data.

In preferred implementation process, the call number at the frequency domain resource place of Data can by the implicit instruction of the call number at the frequency domain resource place of SA, and concrete indicating mode see above preferred embodiment five, can repeat no more herein.

Preferred embodiment eight

In the preferred embodiment, base station can utilize data dispatch indication information to indicate the call number at the call number at time-domain resource place of SA, the call number at SA frequency domain resource place and the frequency domain resource place of Data, and concrete indicating mode is as follows:

(1) resource block assignments (Resourceblockassignment) in data dispatch indication information indicates the call number at the call number at the time-domain resource place of SA, the call number at SA frequency domain resource place and the frequency domain resource place of Data.

(2) resource block assignments (Resourceblockassignment) in data dispatch indication information indicates the call number at the call number at SA frequency domain resource place and the frequency domain resource place of Data, and carrier wave instruction (carrierindicator) indicates the call number at the time-domain resource place of SA.

(3) resource block assignments (Resourceblockassignment) in data dispatch indication information indicates the call number at the time-domain resource place of SA and the call number at SA frequency domain resource place; Adopt following indication information one of at least in order to the call number at the frequency domain resource place of joint instructions Data:

1) carrier wave instruction (carrierindicator);

2) up call number (ULindex);

3) channel state information request (Channel-StateInformationrequest, referred to as CSIrequest);

4) detection reference signal request (SoundingReferenceSignalrequest, referred to as SRSrequest);

5) resource allocation type (Resourceassignmenttype, referred to as RAtype).

(4) resource block assignments (Resourceblockassignment) in data dispatch indication information indicates the call number at the call number at the time-domain resource place of SA and the frequency domain resource place of Data; Adopt following indication information one of at least in order to the call number at joint instructions SA frequency domain resource place:

1) carrier wave instruction (carrierindicator);

2) up call number (ULindex);

5) resource allocation type (Resourceassignmenttype, referred to as RAtype).

Alternatively, base station can utilize data dispatch indication information to indicate the call number at the time-domain resource place of SA, the call number at the call number at the frequency domain resource place of SA and the frequency domain resource place of Data, wherein, the bit size of data dispatch indication information is identical with the bit size of uplink scheduling authorization information, SA Resourse Distribute (SAResourceassignment) in data dispatch indication information indicates the call number at the call number at the time-domain resource place of SA and the frequency domain resource place of SA, Data Resourse Distribute (DataResourceassignment) indicates the call number at the frequency domain resource place of Data.

In preferred implementation process, the call number at the time-domain resource place of Data can by the implicit instruction of the call number at the time-domain resource place of SA, and concrete indicating mode see above preferred embodiment four, can repeat no more herein.

Preferred embodiment nine

In the preferred embodiment, base station can utilize data dispatch indication information to indicate the call number at the call number at SA frequency domain resource place, the call number at the time-domain resource place of Data and the frequency domain resource place of Data, and concrete indicating mode is as follows:

(1) resource block assignments (Resourceblockassignment) in data dispatch indication information indicates the call number at the call number at SA frequency domain resource place, the call number at the time-domain resource place of Data and the frequency domain resource place of Data.

(2) resource block assignments (Resourceblockassignment) in data dispatch indication information indicates the call number at the call number at SA frequency domain resource place and the frequency domain resource place of Data, and carrier wave instruction (carrierindicator) indicates the call number at the time-domain resource place of Data.

(3) resource block assignments (Resourceblockassignment) in data dispatch indication information indicates the call number at the call number at the time-domain resource place of Data and the frequency domain resource place of Data; Adopt following indication information one of at least in order to the call number at joint instructions SA frequency domain resource place:

1) carrier wave instruction (carrierindicator);

2) up call number (ULindex);

5) resource allocation type (Resourceassignmenttype, referred to as RAtype).

(4) resource block assignments (Resourceblockassignment) in data dispatch indication information indicates the call number at the time-domain resource place of Data and the call number at SA frequency domain resource place; Adopt following indication information one of at least in order to the call number at the frequency domain resource place of joint instructions Data:

1) carrier wave instruction (carrierindicator);

2) up call number (ULindex);

5) resource allocation type (Resourceassignmenttype, referred to as RAtype).

Alternatively, base station can utilize data dispatch indication information to indicate the call number at the frequency domain resource place of SA, the call number at the call number at the time-domain resource place of Data and the frequency domain resource place of Data, wherein, the bit size of data dispatch indication information is identical with the bit size of uplink scheduling authorization information, SA Resourse Distribute (SAResourceassignment) in data dispatch indication information indicates the call number at the frequency domain resource place of SA, Data Resourse Distribute (DataResourceassignment) indicates the call number at the call number at the time-domain resource place of Data and the frequency domain resource place of Data.

Alternatively, the call number at the time-domain resource place of SA can by the implicit instruction of the call number at the time-domain resource place of Data, and concrete indicating mode is as follows:

Suppose to indicate the call number at time-domain resource place of Data need to use 8bits (call number is 0,1 ... 255), the call number at time-domain resource place of instruction SA need to use 3bits (call number is 0,1 ... 8), so, time-domain resource call number { 32i, the 32i+1 of Data,, 32i+31} implies the time-domain resource call number i indicating SA; Or, time-domain resource call number { (32i+offset) mod256, (32i+offset+1) mod256 of Data, (32i+offset+31) mod256} implies the time-domain resource call number i indicating SA, and wherein, offset is arbitrary integer; Or, in the time-domain resource call number of 256 Data, choose arbitrarily 8 carry out one_to_one corresponding with the time-domain resource call number of SA respectively, wherein, one of following corresponded manner can be comprised: order is corresponding, backward is corresponding, have the correspondence of quantitatively skew.

Alternatively, which time-domain resource SA specifically uses can be semi-static pre-configured by high level, now, then without the need to indicating the call number at the time-domain resource place of SA in uplink scheduling authorization.

Preferred embodiment ten

In the preferred embodiment, base station can utilize data dispatch indication information to indicate the call number at the call number at SA time-domain resource place, the call number at the time-domain resource place of Data and the frequency domain resource place of Data, and concrete indicating mode is as follows:

(1) resource block assignments (Resourceblockassignment) in data dispatch indication information indicates the call number at the call number at SA time-domain resource place, the call number at the time-domain resource place of Data and the frequency domain resource place of Data.

(2) resource block assignments (Resourceblockassignment) in data dispatch indication information indicates the call number at the frequency domain resource place of Data, carrier wave instruction (carrierindicator) indicates the call number at the time-domain resource place of Data, adopts following indication information one of at least in order to the call number at joint instructions SA time-domain resource place:

1) up call number (ULindex);

4) resource allocation type (Resourceassignmenttype, referred to as RAtype).

(3) resource block assignments (Resourceblockassignment) in data dispatch indication information indicates the call number at the call number at SA time-domain resource place and the frequency domain resource place of Data, and carrier wave instruction (carrierindicator) indicates the call number at the time-domain resource place of Data.

(4) resource block assignments (Resourceblockassignment) in data dispatch indication information indicates the call number at the call number at SA time-domain resource place and the time-domain resource place of Data; Adopt following indication information one of at least in order to the call number at the frequency domain resource place of joint instructions Data:

1) carrier wave instruction (carrierindicator);

2) up call number (ULindex);

5) resource allocation type (Resourceassignmenttype, referred to as RAtype).

Alternatively, base station can utilize data dispatch indication information to indicate the call number at time-domain resource place of SA and the call number at the call number at the time-domain resource place of Data and the frequency domain resource place of Data, wherein, the bit size of data dispatch indication information is identical with the bit size of uplink scheduling authorization information, SA Resourse Distribute (SAResourceassignment) in data dispatch indication information indicates the call number at the time-domain resource place of SA, Data Resourse Distribute (DataResourceassignment) indicates the call number at the call number at the time-domain resource place of Data and the frequency domain resource place of Data.

In preferred implementation process, the call number at the frequency domain resource place of SA can by the implicit instruction of the call number at the frequency domain resource place of Data, and concrete indicating mode is as follows:

1) suppose to indicate the call number at frequency domain resource place of Data need to use 8bits (call number is 0,1 ... 255), the call number at frequency domain resource place of instruction SA need to use 10bits (call number is 0,1 ... 1023), so, the frequency domain resource call number i of Data implies the frequency domain resource call number { i*4, the i*4+1 that indicate SA, i*4+2, i*4+3}; Or, the frequency domain resource call number i of Data implies frequency domain resource call number { (i*4+offset) mod1024 indicating SA, (i*4+offset+1) mod1024, (i*4+offset+2) mod1024, (i*4+offset+3) mod1024}, wherein, offset is arbitrary integer.

2) (call number is 0 to suppose to indicate the call number at the frequency domain resource place of the call number at the frequency domain resource place of Data and instruction SA to be 10bits, 1,1023), so the frequency domain resource call number of Data and the frequency domain resource call number of SA can be sequentially corresponding one by one, i.e. the frequency domain resource call number i of the Data just implicit frequency domain resource call number i indicating SA; Or backward is corresponding one by one, and namely the frequency domain resource call number i of Data implies the frequency domain resource call number (1023-i) indicating SA; Or be the one_to_one corresponding with quantitatively skew, namely the frequency domain resource call number i of Data implies frequency domain resource call number (i+offset) mod1024 indicating SA, and wherein, offset is arbitrary integer.

3) suppose to indicate the call number at frequency domain resource place of Data need to use 12bits (call number is 0,1 ..., 2 ¹²-1), the call number at frequency domain resource place of instruction SA need to use 8bits (call number is 0,1 ..., 2 ⁸-1), so, the frequency domain resource call number of Data 16i, 16i+1 ..., 16i+15} implies the frequency domain resource call number i indicating SA; Or, frequency domain resource call number { (16i+offset) mod2 of Data ¹², (16i+offset+1) mod2 ¹²..., (16i+offset+15) mod2 ¹²the implicit frequency domain resource call number i indicating SA, wherein, offset is arbitrary integer; Or, 2 ¹²2 are chosen arbitrarily in the frequency domain resource call number of individual Data ⁸individually carry out one_to_one corresponding with the frequency domain resource call number of SA respectively, wherein, one of following corresponded manner can be comprised: order is corresponding, backward is corresponding, have the correspondence of quantitatively skew.

Preferred embodiment 11

In the preferred embodiment, base station can utilize data dispatch indication information to indicate the call number at the call number at SA frequency domain resource place and the frequency domain resource place of Data, and concrete indicating mode is as follows:

(1) resource block assignments (Resourceblockassignment) in data dispatch indication information indicates the call number at the call number at SA frequency domain resource place and the frequency domain resource place of Data.

(2) resource block assignments (Resourceblockassignment) in data dispatch indication information indicates the call number at SA frequency domain resource place, adopts following indication information one of at least in order to the call number at the frequency domain resource place of joint instructions Data:

1) carrier wave instruction (carrierindicator);

2) up call number (ULindex);

5) resource allocation type (Resourceassignmenttype, referred to as RAtype).

(3) resource block assignments (Resourceblockassignment) in data dispatch indication information indicates the call number at the frequency domain resource place of Data; Adopt following indication information one of at least in order to the call number at joint instructions SA frequency domain resource place:

1) carrier wave instruction (carrierindicator);

2) up call number (ULindex);

5) resource allocation type (Resourceassignmenttype, referred to as RAtype).

Alternatively, base station can utilize data dispatch indication information to indicate the call number at frequency domain resource place of SA and the call number at the frequency domain resource place of Data, wherein, the bit size of data dispatch indication information is identical with the bit size of uplink scheduling authorization information, SA Resourse Distribute (SAResourceassignment) in data dispatch indication information indicates the call number at the frequency domain resource place of SA, and Data Resourse Distribute (DataResourceassignment) indicates the call number at the frequency domain resource place of Data.

Now, the time-domain resource of SA and Data is semi-static pre-configured by high level, therefore, without the need to indicating the call number at the time-domain resource place of SA and Data in uplink scheduling authorization.

Preferred embodiment 12

In the preferred embodiment, base station can utilize data dispatch indication information to indicate the call number at time-domain resource place of Data and the call number at the frequency domain resource place of Data, and concrete indicating mode is as follows:

(1) resource block assignments (Resourceblockassignment) in data dispatch indication information indicates the call number at the call number at the time-domain resource place of Data and the frequency domain resource place of Data.

(2) resource block assignments (Resourceblockassignment) in data dispatch indication information indicates the call number at the frequency domain resource place of Data, and carrier wave instruction (carrierindicator) indicates the call number at the time-domain resource place of Data.

(3) resource block assignments (Resourceblockassignment) in data dispatch indication information indicates the call number at the frequency domain resource place of Data, adopts following indication information one of at least in order to the call number at the time-domain resource place of joint instructions Data:

(1) up call number (ULindex);

(2) channel state information request (Channel-StateInformationrequest, referred to as CSIrequest);

(3) detection reference signal request (SoundingReferenceSignalrequest, referred to as SRSrequest);

(4) resource allocation type (Resourceassignmenttype, referred to as RAtype).

Alternatively, base station can utilize data dispatch indication information to indicate the call number at time-domain resource place of Data and the call number at the frequency domain resource place of Data, wherein, the bit size of data dispatch indication information is identical with the bit size of uplink scheduling authorization information, and the Data Resourse Distribute (DataResourceassignment) in data dispatch indication information indicates the call number at the call number at the time-domain resource place of Data and the frequency domain resource place of Data.

In addition, the call number at the time-domain resource place of SA can also by the implicit instruction of the call number at the time-domain resource place of Data, and concrete indicating mode can see above preferred embodiment nine, repeat no more herein.

In addition, the call number at the frequency domain resource place of SA can also by the implicit instruction of the call number at the frequency domain resource place of Data, and concrete indicating mode can see above preferred embodiment ten, repeat no more herein.

In addition, the call number at the call number at the time-domain resource place of SA and the frequency domain resource place of SA can be undertaken combining implicit instruction by the call number at the frequency domain resource place of the call number at the time-domain resource place of Data and Data, and concrete indicating mode is as follows:

Suppose to indicate the call number at the time-domain resource place of Data to need to use 8bits, the call number at the frequency domain resource place of instruction Data needs to use 10bits, so the time domain and frequency domain combined resource index number of Data always has 2 ¹⁸kind; The call number at the time-domain resource place of instruction SA needs 8bits, and the call number at the frequency domain resource place of instruction SA needs to use 13bits, so the time domain and frequency domain combined resource index number of Data always has 2 ¹⁸kind.So, the time domain and frequency domain combined resource index number of Data can be sequentially corresponding one by one with the time domain and frequency domain combined resource index number of SA, i.e. the time-domain resource call number i of the Data just implicit time-domain resource call number i indicating SA; Or backward is corresponding one by one, and namely the time-domain resource call number i of Data implies the time-domain resource call number (2 indicating SA ¹⁸-i); Or be the one_to_one corresponding with quantitatively skew, namely the time-domain resource call number i of Data implies time-domain resource call number (i+offset) mod2 indicating SA ¹⁸, wherein, offset is arbitrary integer.

Fig. 5 is the structured flowchart of the processing unit of indication information according to the embodiment of the present invention.As shown in Figure 5, the processing unit of this indication information can comprise: receiver module 10, and for receiving the data dispatch indication information that base station issues, wherein, data dispatch indication information is used to indicate the transmission means of SA and Data; Sending module 20, for being sent to correspondent user device according to data dispatch indication information by SA and Data.

Adopt device as shown in Figure 5, to solve in correlation technique in covering under scene, eNB is the problem of how to dispatch controls transfer between indicating equipment to equipment and transfer of data, and then achieves the scheduling instruction of base station to the controls transfer between device-to-device and transfer of data.

(1) call number at the time-domain resource place of SA;

(2) call number at the frequency domain resource place of SA;

(3) call number at the time-domain resource place of Data;

(4) call number at the frequency domain resource place of Data.

Preferably, above-mentioned receiver module 10, for receiving data dispatch indication information via down control channel, wherein, down control channel carrying data dispatch indication information, data dispatch indication information adopts uplink scheduling authorization information, or, the bit size of data dispatch indication information is identical with the bit size of uplink scheduling authorization information, but data dispatch indication information is different from the content that uplink scheduling authorization packets of information contains.

(2) Resourse Distribute (resourceassignment);

(1) resource block assignments (Resourceblockassignment);

(2) carrier wave instruction (carrierindicator);

(3) new data instruction (NewDataIndicator, referred to as NDI);

(1) resource block assignments (Resourceblockassignment);

(2) carrier wave instruction (carrierindicator);

(3) new data instruction (NewDataIndicator, referred to as NDI);

(1) resource block assignments (Resourceblockassignment);

(2) carrier wave instruction (carrierindicator);

(3) new data instruction (NewDataIndicator, referred to as NDI);

In a preferred embodiment, can imply according to first of a SA PRB position and DMRSCS the frequency domain position determining Data.Suppose that SA frequency domain total resources number is X, then the frequency domain original position of Data is, (thefirstPRBindex+DMRSCSindex) modX.In addition, implicit instruction Data frequency domain position can also be combined according to the CCE/eCCE index of the described indication information of carrying and DMRS.Namely the original position of the frequency domain of implicit instruction Data is combined according to the CCE/eCCE index and DMRS that carry described indication information, (theFirstCCE/eCCEindex+DMRSCSindex) modX.

(1) resource block assignments (Resourceblockassignment);

(2) carrier wave instruction (carrierindicator);

(3) new data instruction (NewDataIndicator, referred to as NDI);

(1) resource block assignments (Resourceblockassignment);

(2) carrier wave instruction (carrierindicator);

(3) new data instruction (NewDataIndicator, referred to as NDI);

(1) resource block assignments (Resourceblockassignment);

(2) carrier wave instruction (carrierindicator);

(3) new data instruction (NewDataIndicator, referred to as NDI);

In a preferred embodiment, can imply according to first of a Data PRB position and DMRSCS the frequency domain position determining SA.Suppose that SA frequency domain total resources number is X, then the frequency domain original position of SA is, (thefirstPRBindex+DMRSCSindex) modX.In addition, implicit instruction SA frequency domain position can also be combined according to the CCE/eCCE index of the described indication information of carrying and DMRS, namely the original position of the frequency domain of implicit instruction SA is combined according to the CCE/eCCE index and DMRS that carry described indication information, (theFirstCCE/eCCEindex+DMRSCSindex) modX.

(1) resource block assignments (Resourceblockassignment);

(2) carrier wave instruction (carrierindicator);

(3) new data instruction (NewDataIndicator, referred to as NDI);

(1) resource block assignments (Resourceblockassignment);

(2) carrier wave instruction (carrierindicator);

(3) new data instruction (NewDataIndicator, referred to as NDI);

In a preferred embodiment, can imply the frequency domain position determining SA according to first of a Data PRB position and DMRSCS, suppose that SA frequency domain total resources number is X, then the frequency domain original position of SA is, (thefirstPRBindex+DMRSCSindex) modX.In addition, implicit instruction SA frequency domain position can also be combined according to the CCE/eCCE index of the described indication information of carrying and DMRS, corresponding embodiment: the original position of combining the frequency domain of implicit instruction SA according to the CCE/eCCE index and DMRS that carry described indication information, (theFirstCCE/eCCEindex+DMRSCSindex) modX.

Fig. 6 is the structured flowchart of the processing unit of another kind of indication information according to the embodiment of the present invention.As shown in Figure 6, the processing unit of this indication information can comprise: determination module 30, and for determining data dispatch indication information to be issued, wherein, data dispatch indication information is used to indicate the transmission means of SA and Data; Issue module 40, for described data dispatch indication information is issued to subscriber equipment.

From above description, can find out, above embodiments enable following technique effect (it should be noted that these effects are effects that some preferred embodiment can reach): adopt the technical scheme that the embodiment of the present invention provides, in covering under scene, the running time-frequency resource that SA and Data that source user equipment sends to target UE uses, adopt which kind of MCS, with parameters such as much power emission, by eNB implement United Dispatching.Thus, to solve in correlation technique in covering under scene, eNB is the problem of how to dispatch controls transfer between indicating equipment to equipment and transfer of data, and then achieves the scheduling of base station to the controls transfer between device-to-device and transfer of data and indicate.

Obviously, those skilled in the art should be understood that, above-mentioned of the present invention each module or each step can realize with general calculation element, they can concentrate on single calculation element, or be distributed on network that multiple calculation element forms, alternatively, they can realize with the executable program code of calculation element, thus, they can be stored and be performed by calculation element in the storage device, and in some cases, step shown or described by can performing with the order be different from herein, or they are made into each integrated circuit modules respectively, or the multiple module in them or step are made into single integrated circuit module to realize.Like this, the present invention is not restricted to any specific hardware and software combination.

The foregoing is only the preferred embodiments of the present invention, be not limited to the present invention, for a person skilled in the art, the present invention can have various modifications and variations.Within the spirit and principles in the present invention all, any amendment done, equivalent replacement, improvement etc., all should be included within protection scope of the present invention.

Claims

1. a processing method for indication information, is characterized in that, comprising:

Receive the data dispatch indication information that base station issues, wherein, described data dispatch indication information is used to indicate the transmission means of dispatching distribution SA and data Data;

According to described data dispatch indication information, described SA and described Data is sent to correspondent user device.

2. method according to claim 1, it is characterized in that, described data dispatch indication information be used to indicate following one of at least: the call number at the call number at the time-domain resource place of SA, the call number at the frequency domain resource place of SA, the call number at the time-domain resource place of Data, the frequency domain resource place of Data.

3. method according to claim 1, it is characterized in that, described data dispatch indication information is received via down control channel, wherein, described down control channel carries described data dispatch indication information, and described data dispatch indication information adopts uplink scheduling authorization information, or, the bit size of described data dispatch indication information is identical with the bit size of described uplink scheduling authorization information, but described data dispatch indication information is different from the content that described uplink scheduling authorization packets of information contains.

4. method according to claim 3, is characterized in that, described data dispatch indication information comprise following one of at least:

Frequency hopping indicates, for indicating separately the frequency hopping of described SA and described Data, or, the frequency hopping of SA described in joint instructions and described Data;

Resourse Distribute;

Modulation and Coding Scheme and redundancy versions, be used to indicate Modulation and Coding Scheme and the redundancy versions of described Data;

Power controls, for indicating separately the power control of described SA and described Data, or, the power control of SA described in joint instructions and described Data;

Upper line index, for indicating separately the upper line index of described SA and described Data, or, the upper line index of SA described in joint instructions and described Data;

The scheduling term of validity, be used to indicate the lasting duration of described data dispatch indication information, wherein, the chronomere of the described scheduling term of validity is the data cycle.

5. method according to claim 4, is characterized in that, described Resourse Distribute comprises one of following:

SA Resourse Distribute and Data Resourse Distribute, wherein, described SA Resourse Distribute is used to indicate the call number at the call number at the time-domain resource place of described SA and/or the frequency domain resource place of described SA; Described Data Resourse Distribute is used to indicate the call number at the call number at the time-domain resource place of described Data and/or the frequency domain resource place of described Data;

Described SA Resourse Distribute, wherein, described SA Resourse Distribute is used to indicate the call number at the call number at the time-domain resource place of described SA and/or the frequency domain resource place of described SA; The call number at the call number at the time-domain resource place of described Data and the frequency domain resource place of described Data implies instruction by the call number at the call number at the time-domain resource place of described SA and the frequency domain resource place of described SA respectively;

Described Data Resourse Distribute, wherein, described Data Resourse Distribute is used to indicate the call number at the call number at the time-domain resource place of described Data and/or the frequency domain resource place of described Data; The call number at the call number at the time-domain resource place of described SA and the frequency domain resource place of described SA implies instruction by the call number at the call number at the time-domain resource place of described Data and the frequency domain resource place of described Data respectively;

The call number at the call number at the frequency domain resource place of SA described in joint instructions and the frequency domain resource place of described Data, the call number at the call number at the time-domain resource place of described SA and the time-domain resource place of described Data is by the semi-static configuration of high-level signaling.

6. method according to claim 2, it is characterized in that, utilize described data dispatch indication information to indicate the call number at the call number at the time-domain resource place of described SA, the call number at the frequency domain resource place of described SA, the call number at the time-domain resource place of described Data and the frequency domain resource place of described Data.

7. method according to claim 6, it is characterized in that, one or more information comprised in described data dispatch indication information are utilized to indicate the call number at the call number at the time-domain resource place of described SA, the call number at the frequency domain resource place of described SA, the call number at the time-domain resource place of described Data and the frequency domain resource place of described Data, wherein, the information comprised in described data dispatch indication information be following one of at least:

Resource block assignments;

Carrier wave indicates;

New data indicates;

The cyclic shift of demodulated reference signal and orthogonal convolution code index;

Descending distribution instruction;

Channel state information request;

Detection reference signal request.

8. method according to claim 6, is characterized in that, the SA Resourse Distribute in described data dispatch indication information is used to indicate the call number at the call number at the time-domain resource place of described SA and the frequency domain resource place of described SA; Data Resourse Distribute in described data dispatch indication information is used to indicate the call number at the call number at the time-domain resource place of described Data and the frequency domain resource place of described Data.

9. method according to claim 2, is characterized in that, utilizes described data dispatch indication information to indicate the call number at the call number at the time-domain resource place of described SA and the frequency domain resource place of described SA.

10. method according to claim 9, it is characterized in that, one or more information comprised in described data dispatch indication information are utilized to indicate the call number at the call number at the time-domain resource place of described SA and the frequency domain resource place of described SA, wherein, the information comprised in described data dispatch indication information be following one of at least:

Resource block assignments;

Carrier wave indicates;

New data indicates;

Descending distribution instruction;

Channel state information request;

Detection reference signal request.

11. methods according to claim 9, is characterized in that, the SA Resourse Distribute in described data dispatch indication information is used to indicate the call number at the call number at the time-domain resource place of described SA and the frequency domain resource place of described SA.

12. methods according to claim 9, it is characterized in that, the call number at the time-domain resource place of described Data is by the implicit instruction of the call number at the time-domain resource place of described SA, and the call number at the frequency domain resource place of described Data is by the implicit instruction of the call number at the frequency domain resource place of described SA; Or the call number at the call number at the time-domain resource place of described Data and the frequency domain resource place of described Data carries out joint instructions by the call number at the call number at the time-domain resource place of described SA and the frequency domain resource place of described SA.

13. methods according to claim 12, is characterized in that, the mode that the call number at the time-domain resource place of described Data implies instruction by the call number at the time-domain resource place of described SA comprises one of following:

The call number at the call number at the time-domain resource place of described Data and the time-domain resource place of described SA carries out one_to_one corresponding according to the mode of positive sequence or backward;

The call number at the time-domain resource place of described Data quantitatively offsets on the basis of the call number at the time-domain resource place of described SA;

The call number at the time-domain resource place of the corresponding one group of Data of call number at the time-domain resource place of a SA;

The call number at the time-domain resource place of the corresponding Data of call number at the time-domain resource place of one group of SA.

14. methods according to claim 12, is characterized in that, the mode that the call number at the frequency domain resource place of described Data implies instruction by the call number at the frequency domain resource place of described SA comprises one of following:

The call number at the call number at the frequency domain resource place of described Data and the frequency domain resource place of described SA carries out one_to_one corresponding according to the mode of positive sequence or backward;

The call number at the frequency domain resource place of described Data quantitatively offsets on the basis of the call number at the frequency domain resource place of described SA;

The call number at the frequency domain resource place of the corresponding one group of Data of call number at the frequency domain resource place of a SA;

The call number at the frequency domain resource place of the corresponding Data of call number at the frequency domain resource place of one group of SA;

The call number at the call number at the frequency domain resource place of described Data and the frequency domain resource place of described SA adopts the mode of joint instructions, and wherein, the mode of described joint instructions adopts the Class1 of ascending resource distribution.

15. methods according to claim 12, it is characterized in that, the mode that the call number at the call number at the time-domain resource place of described Data and the frequency domain resource place of Data combines implicit instruction by the call number at the call number at the time-domain resource place of SA and the frequency domain resource place of SA comprises one of following:

The call number at the call number at the time domain and frequency domain combined resource place of described Data and the time domain and frequency domain combined resource place of described SA carries out one_to_one corresponding according to the mode of positive sequence or backward;

The call number at the time domain and frequency domain combined resource place of described Data quantitatively offsets on the basis of the call number at the time domain and frequency domain combined resource place of described SA;

The call number at the time domain and frequency domain combined resource place of Data described in corresponding one group of the call number at the time domain and frequency domain combined resource place of a described SA;

The call number at the time domain and frequency domain combined resource place of the corresponding described Data of call number at the time domain and frequency domain combined resource place of SA described in a group.

16., according to claim 13 to the method according to any one of 15, is characterized in that, by the mode of the described implicit instruction of the semi-static configuration of high-level signaling.

17. methods according to claim 2, it is characterized in that, utilize described data dispatch indication information to indicate the call number at the call number at the time-domain resource place of described SA, the call number at the frequency domain resource place of described SA and the time-domain resource place of described Data.

18. methods according to claim 17, it is characterized in that, one or more information comprised in described data dispatch indication information are utilized to indicate the call number at the call number at the time-domain resource place of described SA, the call number at the frequency domain resource place of described SA and the time-domain resource place of described Data, wherein, the information comprised in described data dispatch indication information be following one of at least:

Resource block assignments;

Carrier wave indicates;

New data indicates;

Descending distribution instruction;

Channel state information request;

Detection reference signal request.

19. methods according to claim 17, it is characterized in that, utilize the SA Resourse Distribute in described data dispatch indication information to indicate the call number at the call number at the time-domain resource place of described SA and the frequency domain resource place of described SA and utilize the Data Resourse Distribute in described data dispatch indication information to indicate the call number at the time-domain resource place of described Data.

20. methods according to claim 17, is characterized in that, the mode that the call number at the frequency domain resource place of described Data implies instruction by the call number at the frequency domain resource place of described SA comprises one of following:

The call number at the call number at the frequency domain resource place of described Data and the frequency domain resource place of described SA adopts the mode of joint instructions, and wherein, the mode of described joint instructions adopts the Class1 of ascending resource distribution;

The frequency domain position determining described Data is implied according to first Physical Resource Block PRB position of described SA and demodulated reference signal DMRS cyclic shift CS;

The implicit frequency domain position indicating described Data is combined according to carrying the control channel unit CCE of described data dispatch indication information or the control channel unit eCCE index of enhancing and DMRS.

21. methods according to claim 2, it is characterized in that, utilize described data dispatch indication information to indicate the call number at the call number at the time-domain resource place of described SA, the call number at the frequency domain resource place of described SA and the frequency domain resource place of described Data.

22. methods according to claim 21, it is characterized in that, one or more information comprised in described data dispatch indication information are utilized to indicate the call number at the call number at the time-domain resource place of described SA, the call number at the frequency domain resource place of described SA and the frequency domain resource place of described Data, wherein, the information comprised in described data dispatch indication information be following one of at least:

Resource block assignments;

Carrier wave indicates;

New data indicates;

Descending distribution instruction;

Channel state information request;

Detection reference signal request.

23. methods according to claim 21, it is characterized in that, utilize the SA Resourse Distribute in described data dispatch indication information to indicate the call number at the call number at the time-domain resource place of described SA and the frequency domain resource place of described SA and utilize the Data Resourse Distribute in described data dispatch indication information to indicate the call number at the frequency domain resource place of described Data.

24. methods according to claim 21, is characterized in that, the mode that the call number at the time-domain resource place of described Data implies instruction by the call number at the time-domain resource place of described SA comprises one of following:

25. methods according to claim 2, it is characterized in that, utilize described data dispatch indication information to indicate the call number at the call number at the frequency domain resource place of described SA, the call number at the time-domain resource place of described Data and the frequency domain resource place of described Data.

26. methods according to claim 25, it is characterized in that, one or more information comprised in described data dispatch indication information are utilized to indicate the call number at the call number at the frequency domain resource place of described SA, the call number at the time-domain resource place of described Data and the frequency domain resource place of described Data, wherein, the information comprised in described data dispatch indication information be following one of at least:

Resource block assignments;

Carrier wave indicates;

New data indicates;

Descending distribution instruction;

Channel state information request;

Detection reference signal request.

27. methods according to claim 25, it is characterized in that, utilize the SA Resourse Distribute in described data dispatch indication information to indicate the call number at the frequency domain resource place of described SA and utilize the Data Resourse Distribute in described data dispatch indication information to indicate the call number at the call number at the time-domain resource place of described Data and the frequency domain resource place of described Data.

28. methods according to claim 25, is characterized in that, the call number at the time-domain resource place of described SA is by the implicit instruction of the call number at the time-domain resource place of described Data; Or the call number at the time-domain resource place of described SA is semi-static pre-configured by high level.

29. methods according to claim 28, is characterized in that, the mode that the call number at the time-domain resource place of described SA implies instruction by the call number at the time-domain resource place of described Data comprises one of following:

The call number at the call number at the time-domain resource place of described SA and the time-domain resource place of described Data carries out one_to_one corresponding according to the mode of positive sequence or backward;

The call number at the time-domain resource place of described SA quantitatively offsets on the basis of the call number at the time-domain resource place of described Data;

The call number at the time-domain resource place of the corresponding one group of SA of call number at the time-domain resource place of a Data;

The call number at the time-domain resource place of the corresponding SA of call number at the time-domain resource place of one group of Data.

30. methods according to claim 2, it is characterized in that, utilize described data dispatch indication information to indicate the call number at the call number at the time-domain resource place of described SA, the call number at the time-domain resource place of described Data and the frequency domain resource place of described Data.

31. methods according to claim 30, it is characterized in that, one or more information comprised in described data dispatch indication information are utilized to indicate the call number at the call number at the time-domain resource place of described SA, the call number at the time-domain resource place of described Data and the frequency domain resource place of described Data, wherein, the information comprised in described data dispatch indication information be following one of at least:

Resource block assignments;

Carrier wave indicates;

New data indicates;

Descending distribution instruction;

Channel state information request;

Detection reference signal request.

32. methods according to claim 30, it is characterized in that, utilize the SA Resourse Distribute in described data dispatch indication information to indicate the call number at the time-domain resource place of described SA and utilize the Data Resourse Distribute in described data dispatch indication information to indicate the call number at the call number at the time-domain resource place of described Data and the frequency domain resource place of described Data.

33. methods according to claim 30, is characterized in that, the call number at the frequency domain resource place of described SA is by the implicit instruction of the call number at the frequency domain resource place of described Data.

34. methods according to claim 33, is characterized in that, the mode that the call number at the frequency domain resource place of described SA implies instruction by the call number at the frequency domain resource place of described Data comprises one of following:

The call number at the call number at the frequency domain resource place of described SA and the frequency domain resource place of described Data carries out one_to_one corresponding according to the mode of positive sequence or backward;

The call number at the frequency domain resource place of described SA quantitatively offsets on the basis of the call number at the frequency domain resource place of described Data;

The call number at the frequency domain resource place of the corresponding one group of SA of call number at the frequency domain resource place of a Data;

The call number at the frequency domain resource place of the corresponding SA of call number at the frequency domain resource place of one group of Data;

The call number at the call number at the frequency domain resource place of described SA and the frequency domain resource place of described Data adopts the mode of joint instructions, the mode of described joint instructions to adopt the Class1 of ascending resource distribution;

The frequency domain position determining described SA is implied according to first Physical Resource Block position of described Data and DMRSCS;

The frequency domain position of the described SA of implicit instruction is combined according to the CCE/eCCE index and DMRS that carry described data dispatch indication information.

35. methods according to claim 2, is characterized in that, utilize described data dispatch indication information to indicate the call number at the call number at the frequency domain resource place of described SA and the frequency domain resource place of described Data.

36. methods according to claim 35, it is characterized in that, one or more information comprised in described data dispatch indication information are utilized to indicate the call number at the call number at the frequency domain resource place of described SA and the frequency domain resource place of described Data, wherein, the information comprised in described data dispatch indication information be following one of at least:

Resource block assignments;

Carrier wave indicates;

New data indicates;

Descending distribution instruction;

Channel state information request;

Detection reference signal request.

37. methods according to claim 35, it is characterized in that, utilize the SA Resourse Distribute in described data dispatch indication information to indicate the call number at the frequency domain resource place of described SA and utilize the Data Resourse Distribute in described data dispatch indication information to indicate the call number at the frequency domain resource place of described Data.

38. methods according to claim 35, is characterized in that, the call number at the call number at the time-domain resource place of described SA and the time-domain resource place of described Data is semi-static pre-configured by high level.

39. methods according to claim 2, is characterized in that, utilize described data dispatch indication information to indicate the call number at the call number at the time-domain resource place of described Data and the frequency domain resource place of described Data.

40. according to method according to claim 39, it is characterized in that, one or more information comprised in described data dispatch indication information are utilized to indicate the call number at the call number at the time-domain resource place of described Data and the frequency domain resource place of described Data alone or in combination, wherein, the information comprised in described data dispatch indication information be following one of at least:

Resource block assignments;

Carrier wave indicates;

New data indicates;

Descending distribution instruction;

Channel state information request;

Detection reference signal request.

41., according to method according to claim 39, is characterized in that, utilize the Data Resourse Distribute in described data dispatch indication information to indicate the call number at the call number at the time-domain resource place of described Data and the frequency domain resource place of described Data.

42., according to method according to claim 39, is characterized in that, the mode that the call number at the time-domain resource place of described SA implies instruction by the call number at the time-domain resource place of described Data comprises one of following:

43., according to method according to claim 39, is characterized in that, the mode that the call number at the frequency domain resource place of described SA implies instruction by the call number at the frequency domain resource place of described Data comprises one of following:

The frequency domain position determining described SA is implied according to first PRB position of described Data and DMRSCS;

44. according to method according to claim 39, it is characterized in that, the call number at the call number at the time-domain resource place of described SA and the frequency domain resource place of described SA carries out joint instructions by the call number at the call number at the time-domain resource place of described Data and the frequency domain resource place of described Data.

45. methods according to claim 44, it is characterized in that, the mode that the call number at the call number at the time-domain resource place of described SA and the frequency domain resource place of described SA carries out joint instructions by the call number at the call number at the time-domain resource place of described Data and the frequency domain resource place of described Data comprises one of following:

The call number at the call number at the time domain and frequency domain combined resource place of SA and the time domain and frequency domain combined resource place of Data carries out one_to_one corresponding according to the mode of positive sequence or backward;

The call number at the time domain and frequency domain combined resource place of described SA quantitatively offsets on the basis of the call number at the time domain and frequency domain combined resource place of described Data;

The call number at the time domain and frequency domain combined resource place of the corresponding one group of SA of call number at the time domain and frequency domain combined resource place of a Data;

The call number at the time domain and frequency domain combined resource place of the corresponding SA of call number at the time domain and frequency domain combined resource place of one group of Data.

The processing method of 46. 1 kinds of indication informations, is characterized in that, comprising:

Determine data dispatch indication information to be issued, wherein, described data dispatch indication information is used to indicate the transmission means of dispatching distribution SA and data Data;

Described data dispatch indication information is issued to subscriber equipment.

The processing unit of 47. 1 kinds of indication informations, is characterized in that, comprising:

Receiver module, for receiving the data dispatch indication information that base station issues, wherein, described data dispatch indication information is used to indicate the transmission means of dispatching distribution SA and data Data;

Sending module, for being sent to correspondent user device according to described data dispatch indication information by described SA and described Data.

48. devices according to claim 47, it is characterized in that, described data dispatch indication information be used to indicate following one of at least: the call number at the call number at the time-domain resource place of SA, the call number at the frequency domain resource place of SA, the call number at the time-domain resource place of Data, the frequency domain resource place of Data.

49. devices according to claim 48, it is characterized in that, described receiver module, for receiving described data dispatch indication information via down control channel, wherein, described down control channel carrying data dispatch indication information, described data dispatch indication information adopts uplink scheduling authorization information, or, the bit size of described data dispatch indication information is identical with the bit size of described uplink scheduling authorization information, but described data dispatch indication information is different from the content that described uplink scheduling authorization packets of information contains.

50. devices according to claim 49, is characterized in that, described data dispatch indication information comprise following one of at least:

Resourse Distribute;

51. devices according to claim 50, is characterized in that, described Resourse Distribute comprises one of following:

52. devices according to claim 48, it is characterized in that, utilize described data dispatch indication information to indicate the call number at the call number at the time-domain resource place of described SA, the call number at the frequency domain resource place of described SA, the call number at the time-domain resource place of described Data and the frequency domain resource place of described Data.

53. devices according to claim 52, it is characterized in that, one or more information comprised in described data dispatch indication information are utilized to indicate the call number at the call number at the time-domain resource place of described SA, the call number at the frequency domain resource place of described SA, the call number at the time-domain resource place of described Data and the frequency domain resource place of described Data, wherein, the information comprised in described data dispatch indication information be following one of at least:

Resource block assignments;

Carrier wave indicates;

New data indicates;

Descending distribution instruction;

Channel state information request;

Detection reference signal request.

54. devices according to claim 52, is characterized in that, the SA Resourse Distribute in described data dispatch indication information is used to indicate the call number at the call number at the time-domain resource place of described SA and the frequency domain resource place of described SA; Data Resourse Distribute in described data dispatch indication information is used to indicate the call number at the call number at the time-domain resource place of described Data and the frequency domain resource place of described Data.

55. devices according to claim 48, is characterized in that, utilize described data dispatch indication information to indicate the call number at the call number at the time-domain resource place of described SA and the frequency domain resource place of described SA.

56. devices according to claim 55, it is characterized in that, one or more information comprised in described data dispatch indication information are utilized to indicate the call number at the call number at the time-domain resource place of described SA and the frequency domain resource place of described SA, wherein, the information comprised in described data dispatch indication information be following one of at least:

Resource block assignments;

Carrier wave indicates;

New data indicates;

Descending distribution instruction;

Channel state information request;

Detection reference signal request.

57. devices according to claim 55, is characterized in that, the SA Resourse Distribute in described data dispatch indication information is used to indicate the call number at the call number at the time-domain resource place of described SA and the frequency domain resource place of described SA.

58. devices according to claim 55, it is characterized in that, the call number at the time-domain resource place of described Data is by the implicit instruction of the call number at the time-domain resource place of described SA, and the call number at the frequency domain resource place of described Data is by the implicit instruction of the call number at the frequency domain resource place of described SA; Or the call number at the call number at the time-domain resource place of described Data and the frequency domain resource place of described Data carries out joint instructions by the call number at the call number at the time-domain resource place of described SA and the frequency domain resource place of described SA.

59. devices according to claim 58, is characterized in that, the mode that the call number at the time-domain resource place of described Data implies instruction by the call number at the time-domain resource place of described SA comprises one of following:

60. devices according to claim 58, is characterized in that, the mode that the call number at the frequency domain resource place of described Data implies instruction by the call number at the frequency domain resource place of described SA comprises one of following:

61. devices according to claim 58, it is characterized in that, the mode that the call number at the call number at the time-domain resource place of described Data and the frequency domain resource place of Data combines implicit instruction by the call number at the call number at the time-domain resource place of SA and the frequency domain resource place of SA comprises one of following:

62. devices according to any one of claim 59 to 61, is characterized in that, by the mode of the described implicit instruction of the semi-static configuration of high-level signaling.

63. devices according to claim 48, it is characterized in that, utilize described data dispatch indication information to indicate the call number at the call number at the time-domain resource place of described SA, the call number at the frequency domain resource place of described SA and the time-domain resource place of described Data.

64. devices according to claim 63, it is characterized in that, one or more information comprised in described data dispatch indication information are utilized to indicate the call number at the call number at the time-domain resource place of described SA, the call number at the frequency domain resource place of described SA and the time-domain resource place of described Data, wherein, the information comprised in described data dispatch indication information be following one of at least:

Resource block assignments;

Carrier wave indicates;

New data indicates;

Descending distribution instruction;

Channel state information request;

Detection reference signal request.

65. devices according to claim 63, it is characterized in that, utilize the SA Resourse Distribute in described data dispatch indication information to indicate the call number at the call number at the time-domain resource place of described SA and the frequency domain resource place of described SA and utilize the Data Resourse Distribute in described data dispatch indication information to indicate the call number at the time-domain resource place of described Data.

66. devices according to claim 63, is characterized in that, the mode that the call number at the frequency domain resource place of described Data implies instruction by the call number at the frequency domain resource place of described SA comprises one of following:

67. devices according to claim 48, it is characterized in that, utilize described data dispatch indication information to indicate the call number at the call number at the time-domain resource place of described SA, the call number at the frequency domain resource place of described SA and the frequency domain resource place of described Data.

68. devices according to claim 67, it is characterized in that, one or more information comprised in described data dispatch indication information are utilized to indicate the call number at the call number at the time-domain resource place of described SA, the call number at the frequency domain resource place of described SA and the frequency domain resource place of described Data, wherein, the information comprised in described data dispatch indication information be following one of at least:

Resource block assignments;

Carrier wave indicates;

New data indicates;

Descending distribution instruction;

Channel state information request;

Detection reference signal request.

69. devices according to claim 67, it is characterized in that, utilize the SA Resourse Distribute in described data dispatch indication information to indicate the call number at the call number at the time-domain resource place of described SA and the frequency domain resource place of described SA and utilize the Data Resourse Distribute in described data dispatch indication information to indicate the call number at the frequency domain resource place of described Data.

70. devices according to claim 67, is characterized in that, the mode that the call number at the time-domain resource place of described Data implies instruction by the call number at the time-domain resource place of described SA comprises one of following:

71. devices according to claim 48, it is characterized in that, utilize described data dispatch indication information to indicate the call number at the call number at the frequency domain resource place of described SA, the call number at the time-domain resource place of described Data and the frequency domain resource place of described Data.

72. according to the device described in claim 71, it is characterized in that, one or more information comprised in described data dispatch indication information are utilized to indicate the call number at the call number at the frequency domain resource place of described SA, the call number at the time-domain resource place of described Data and the frequency domain resource place of described Data, wherein, the information comprised in described data dispatch indication information be following one of at least:

Resource block assignments;

Carrier wave indicates;

New data indicates;

Descending distribution instruction;

Channel state information request;

Detection reference signal request.

73. according to the device described in claim 71, it is characterized in that, utilize the SA Resourse Distribute in described data dispatch indication information to indicate the call number at the frequency domain resource place of described SA and utilize the Data Resourse Distribute in described data dispatch indication information to indicate the call number at the call number at the time-domain resource place of described Data and the frequency domain resource place of described Data.

74., according to the device described in claim 71, is characterized in that, the call number at the time-domain resource place of described SA is by the implicit instruction of the call number at the time-domain resource place of described Data; Or the call number at the time-domain resource place of described SA is semi-static pre-configured by high level.

75., according to the device described in claim 74, is characterized in that, the mode that the call number at the time-domain resource place of described SA implies instruction by the call number at the time-domain resource place of described Data comprises one of following:

76. devices according to claim 48, it is characterized in that, utilize described data dispatch indication information to indicate the call number at the call number at the time-domain resource place of described SA, the call number at the time-domain resource place of described Data and the frequency domain resource place of described Data.

77. according to the device described in claim 76, it is characterized in that, one or more information comprised in described data dispatch indication information are utilized to indicate the call number at the call number at the time-domain resource place of described SA, the call number at the time-domain resource place of described Data and the frequency domain resource place of described Data, wherein, the information comprised in described data dispatch indication information be following one of at least:

Resource block assignments;

Carrier wave indicates;

New data indicates;

Descending distribution instruction;

Channel state information request;

Detection reference signal request.

78. according to the device described in claim 76, it is characterized in that, utilize the SA Resourse Distribute in described data dispatch indication information to indicate the call number at the time-domain resource place of described SA and utilize the Data Resourse Distribute in described data dispatch indication information to indicate the call number at the call number at the time-domain resource place of described Data and the frequency domain resource place of described Data.

79., according to the device described in claim 76, is characterized in that, the call number at the frequency domain resource place of described SA is by the implicit instruction of the call number at the frequency domain resource place of described Data.

80., according to the device described in claim 79, is characterized in that, the mode that the call number at the frequency domain resource place of described SA implies instruction by the call number at the frequency domain resource place of described Data comprises one of following:

81. devices according to claim 48, is characterized in that, utilize described data dispatch indication information to indicate the call number at the call number at the frequency domain resource place of described SA and the frequency domain resource place of described Data.

82. devices according to Claim 8 described in 1, it is characterized in that, one or more information comprised in described data dispatch indication information are utilized to indicate the call number at the call number at the frequency domain resource place of described SA and the frequency domain resource place of described Data, wherein, the information comprised in described data dispatch indication information be following one of at least:

Resource block assignments;

Carrier wave indicates;

New data indicates;

Descending distribution instruction;

Channel state information request;

Detection reference signal request.

83. devices according to Claim 8 described in 1, it is characterized in that, utilize the SA Resourse Distribute in described data dispatch indication information to indicate the call number at the frequency domain resource place of described SA and utilize the Data Resourse Distribute in described data dispatch indication information to indicate the call number at the frequency domain resource place of described Data.

84. devices according to Claim 8 described in 1, it is characterized in that, the call number at the call number at the time-domain resource place of described SA and the time-domain resource place of described Data is semi-static pre-configured by high level.

85. devices according to claim 48, is characterized in that, utilize described data dispatch indication information to indicate the call number at the call number at the time-domain resource place of described Data and the frequency domain resource place of described Data.

86. devices according to Claim 8 described in 5, it is characterized in that, one or more information comprised in described data dispatch indication information are utilized to indicate the call number at the call number at the time-domain resource place of described Data and the frequency domain resource place of described Data alone or in combination, wherein, the information comprised in described data dispatch indication information be following one of at least:

Resource block assignments;

Carrier wave indicates;

New data indicates;

Descending distribution instruction;

Channel state information request;

Detection reference signal request.

87. devices according to Claim 8 described in 5, is characterized in that, utilize the Data Resourse Distribute in described data dispatch indication information to indicate the call number at the call number at the time-domain resource place of described Data and the frequency domain resource place of described Data.

88. devices according to Claim 8 described in 5, is characterized in that, the mode that the call number at the time-domain resource place of described SA implies instruction by the call number at the time-domain resource place of described Data comprises one of following:

89. devices according to Claim 8 described in 5, is characterized in that, the mode that the call number at the frequency domain resource place of described SA implies instruction by the call number at the frequency domain resource place of described Data comprises one of following:

90. devices according to Claim 8 described in 5, it is characterized in that, the call number at the call number at the time-domain resource place of described SA and the frequency domain resource place of described SA carries out joint instructions by the call number at the call number at the time-domain resource place of described Data and the frequency domain resource place of described Data.

91. according to the device described in claim 90, it is characterized in that, the mode that the call number at the call number at the time-domain resource place of described SA and the frequency domain resource place of described SA carries out joint instructions by the call number at the call number at the time-domain resource place of described Data and the frequency domain resource place of described Data comprises one of following:

The processing unit of 92. 1 kinds of indication informations, is characterized in that, comprising:

Determination module, for determining data dispatch indication information to be issued, wherein, described data dispatch indication information is used to indicate the transmission means of dispatching distribution SA and data Data;

Issue module, for described data dispatch indication information is issued to subscriber equipment.