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CN104756537A - interference measuring reference signal transmission method and equipment - Google Patents

interference measuring reference signal transmission method and equipment Download PDF

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Publication number
CN104756537A
CN104756537A CN201380019209.6A CN201380019209A CN104756537A CN 104756537 A CN104756537 A CN 104756537A CN 201380019209 A CN201380019209 A CN 201380019209A CN 104756537 A CN104756537 A CN 104756537A
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China
Prior art keywords
network equipment
transmission period
dispatch
information
transmission
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Granted
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CN201380019209.6A
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Chinese (zh)
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CN104756537B (en
Inventor
周明宇
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Huawei Technologies Co Ltd
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Huawei Technologies Co Ltd
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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W24/00Supervisory, monitoring or testing arrangements
    • H04W24/08Testing, supervising or monitoring using real traffic
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L5/00Arrangements affording multiple use of the transmission path
    • H04L5/003Arrangements for allocating sub-channels of the transmission path
    • H04L5/0053Allocation of signaling, i.e. of overhead other than pilot signals
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W24/00Supervisory, monitoring or testing arrangements
    • H04W24/02Arrangements for optimising operational condition

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  • Engineering & Computer Science (AREA)
  • Signal Processing (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Mobile Radio Communication Systems (AREA)

Abstract

The invention discloses an interference measuring reference signal transmission method and equipment, relates to communication, and relieves the problem of interference wave. The embodiment particularly includes: user equipment UE receive network devices send information transmission time; UE described according to the above information to determine the target during transport time, Network devices described described UE receive send scheduling signaling; UE described according to the stated goals described and scheduling signaling transmission time, and described the network equipment to reference signal transmission, the RS data signal transmission. The present invention is used for interference in the process of the measurement of reference signal transmission.

Description

A kind of transmission method of interferometry reference signal and equipment
Technical field
The present invention relates to the communications field, particularly relate to a kind of transmission method and equipment of interferometry reference signal.
Background technology
The network equipment, by sending dispatch to subscriber equipment (User Equipment, UE), sends upstream data. signals or downlink data receiving signal to indicate UE according to this dispatch.As everyone knows, dispatch is determined by the network equipment, the network equipment is in order to make rational scheduling, need to measure the state of channel in advance, concrete, such as, when UE needs to send upstream data. signals to the network equipment, first UE sends detection reference signal (Sounding Reference Signal to the network equipment, SRS), the network equipment is measured to obtain uplink channel status information (Channel State Information to the SRS received, CSI), and then determine dispatch according to the up CSI obtained, and the dispatch determined is sent to UE, such UE just can send upstream data. signals according to this dispatch to the network equipment.But in systems in practice, due to the fluctuation of interference, the network equipment measures the CSI when CSI obtained can not reflect that upstream data. signals is transmitted completely really to SRS, and the dispatch that therefore network equipment is determined may be irrational.
In order to alleviate the inaccurate problem of dispatch brought due to disturbance fluctuation, prior art provides a solution, after UE receives the dispatch of network equipment transmission, transmitter first can send reference signal (Reference Signal according to this dispatch to receiver, RS), so that receiver is measured RS, then transmitter or receiver determine corresponding Adjusted Option according to measurement result, carry out the transmission of data-signal according to dispatch and Adjusted Option between final receiver and transmitter, when wherein transmitter is the network equipment, receiver is UE, when transmitter is UE, receiver is the network equipment.
Inventor finds such scheme, and at least there are the following problems, at time division duplex (TimeDivision Duplex, TDD) in system, such as, when transmitter is UE, when receiver is the network equipment, after UE receives the dispatch of network equipment transmission, UE needs to send RS according to dispatch and ascending-descending subframes configuration information to the network equipment, when after network equipment determination Adjusted Option, UE is again according to dispatch and/or Adjusted Option, and ascending-descending subframes is configured in the transmission identical frequency band carrying out data-signal.As everyone knows, ascending-descending subframes configuration information is that the network equipment is determined according to the up-downgoing business of the community of self institute overlay area, because the service conditions of different districts is different, therefore probably the ascending-descending subframes configuration of neighbor cell is different, that is for the uplink of certain community, the interference that the upward signal that the UE that there is its adjacent community sometimes sends causes, the interference that the downstream signal that there is network equipment transmission corresponding to its adjacent community sometimes causes, may cause like this: UE and the network equipment transmit the interference that RS can be subject to upward signal, and itself and network equipment transmission of data signals can be subject to the interference of downstream signal, namely measure the interference that the interfere information that obtains of RS and transmission of data signals be subject to there are differences, that is the Adjusted Option made or not accurate enough, so still cannot solve the problem of disturbance fluctuation.
Summary of the invention
Embodiments of the invention provide a kind of transmission method and equipment of interferometry reference signal, alleviate the problem of disturbance fluctuation.
For achieving the above object, embodiments of the invention adopt following technical scheme:
A first aspect of the present invention, provides a kind of transmission method of interferometry reference signal, comprising:
User equipment (UE) receives the transmission period information that the network equipment sends;
Described UE is according to the described transmission period information determination object transmission period;
Described UE receives the dispatch that the described network equipment sends;
Described UE, according to described object transmission period and described dispatch, first carries out the transmission of reference signal RS with the described network equipment, then carries out the transmission of data-signal;
Wherein, described dispatch comprises frequency resource indication information, and described frequency resource indication information is used to indicate the frequency that described UE and the described network equipment carry out described RS and described data information transfer; Described UE and the described network equipment carry out the transmission of described RS and described data-signal in different subframe.
In conjunction with first aspect, in a kind of possible implementation, receive the transmission period information of network equipment transmission at described user equipment (UE) before, also comprise:
Described UE determines the UE from estimating perturbation technique in advance as employing according to self-ability;
Or described UE receives the mode indication information that the described network equipment sends, and determine certainly as the UE estimating perturbation technique described in employing in advance according to described mode indication information;
Wherein, the described perturbation technique of estimation is in advance according to described dispatch, before the described data-signal of transmission, first need carry out the technology of described RS transmission.
In conjunction with first aspect and above-mentioned possible implementation, in the implementation that another kind is possible,
Described transmission period information is the period information that the described UE of instruction transmits described RS and described data-signal;
Described UE, according to the described transmission period information determination object transmission period, comprising:
The described period information that described transmission period information indicates is defined as the described object transmission period by described UE.
In conjunction with first aspect and above-mentioned possible implementation, in the implementation that another kind is possible,
Described transmission period information is the second ascending-descending subframes configuration information;
Before described UE is according to the described transmission period information determination object transmission period, also comprise:
Described UE receives the first ascending-descending subframes configuration information that the described network equipment sends;
Described UE, according to the described transmission period information determination object transmission period, comprising:
Described UE determines the described object transmission period according to described first ascending-descending subframes configuration and described transmission period information.
In conjunction with first aspect and above-mentioned possible implementation, in the implementation that another kind is possible,
The described object transmission period is the target up period;
Described UE, according to described object transmission period and described dispatch, first carries out the transmission of reference signal RS with the described network equipment, then carries out the transmission of data-signal, comprising:
Described UE, according to described object transmission period and described dispatch, first sends described RS to the described network equipment, then sends described data-signal to the described network equipment.
In conjunction with first aspect and above-mentioned possible implementation, in the implementation that another kind is possible,
The described object transmission period is the target downlink period;
Described UE, according to described object transmission period and described dispatch, first carries out the transmission of reference signal RS with the described network equipment, then carries out the transmission of data-signal, comprising:
Described UE, according to described object transmission period and described dispatch, first receives the described RS that the described network equipment sends, then receives the described data-signal of described network equipment transmission.
In conjunction with first aspect and above-mentioned possible implementation, in the implementation that another kind is possible, described UE determines the described object transmission period according to described first ascending-descending subframes configuration and described transmission period information, comprising:
Described UE determines that the common factor of the up period indicated by described first ascending-descending subframes configuration information and the up period indicated by described transmission period information is as the described object transmission period;
Or, described UE determine the descending period indicated by described first ascending-descending subframes configuration information and the up period indicated by described transmission period information as the described object transmission period.
In conjunction with first aspect and above-mentioned possible implementation, in the implementation that another kind is possible, described UE determines the described object transmission period according to described first ascending-descending subframes configuration and described transmission period information, comprising:
Described UE determines that the common factor of the descending period indicated by described first ascending-descending subframes configuration information and the descending period indicated by described transmission period information is as the described object transmission period;
Or, described UE determine the up period indicated by described first ascending-descending subframes configuration information and the descending period indicated by described transmission period information as the described object transmission period.
In conjunction with first aspect and above-mentioned possible implementation, in the implementation that another kind is possible, receive the dispatch of network equipment transmission at described UE before, also comprise:
Described UE sends detection reference signal SRS to the described network equipment, so that the described network equipment carries out measurement to described SRS obtain channel condition information CSI, and determines described dispatch according to described CSI, described dispatch is sent to described UE.
In conjunction with first aspect and above-mentioned possible implementation, in the implementation that another kind is possible, receive the dispatch of network equipment transmission at described UE before, also comprise:
Described UE receives the channel state information reference signals CSI-RS that the described network equipment sends;
Described UE carries out measurement to described CSI-RS and obtains CSI;
Described CSI is sent to the described network equipment by described UE, so that the described network equipment determines described dispatch according to described CSI, and described dispatch is sent to described UE.
In conjunction with first aspect and above-mentioned possible implementation, in the implementation that another kind is possible, described UE, according to described object transmission period and described dispatch, first sends described RS to the described network equipment, send described data-signal to the described network equipment again, comprising:
Described UE, according to described object transmission period and described dispatch, sends described RS to the described network equipment, so that the described network equipment determines the receiving parameter in receiving algorithm or receiving algorithm according to described RS;
Described UE, according to described object transmission period and described dispatch, sends described data-signal to the described network equipment.
In conjunction with first aspect and above-mentioned possible implementation, in the implementation that another kind is possible, described UE, according to described object transmission period and described dispatch, first sends described RS to the described network equipment, send described data-signal to the described network equipment again, comprising:
Described UE, according to described object transmission period and described dispatch, sends described RS to the described network equipment, so that the described network equipment is measured described RS and determined Dispatching adjustment scheme;
Described UE receives the Dispatching adjustment scheme that the described network equipment sends;
Described UE, according to described object transmission period, described dispatch and described Dispatching adjustment scheme, sends described data-signal to the described network equipment.
In conjunction with first aspect and above-mentioned possible implementation, in the implementation that another kind is possible, described UE, according to described object transmission period and described dispatch, first receives the described RS that the described network equipment sends, receive the described data-signal that the described network equipment sends again, comprising:
Described UE, according to described object transmission period and described dispatch, receives the described RS that the described network equipment sends;
Described UE determines the receiving parameter in receiving algorithm or receiving algorithm according to described RS;
Described UE is according to described object transmission period, described dispatch, and the receiving parameter in described receiving algorithm or receiving algorithm, receives the described data-signal that the described network equipment sends.
In conjunction with first aspect and above-mentioned possible implementation, in the implementation that another kind is possible, described UE, according to described object transmission period and described dispatch, first receives the described RS that the described network equipment sends, receive the described data-signal that the described network equipment sends again, comprising:
Described UE, according to described object transmission period and described dispatch, receives the described RS that the described network equipment sends;
Described UE measures described RS, and measurement result is sent to the described network equipment, so that the described network equipment is to according to described measurement result determination Dispatching adjustment scheme;
Described UE receives the Dispatching adjustment scheme that the described network equipment sends;
Described UE, according to described object transmission period, described dispatch and described Dispatching adjustment scheme, receives the described data-signal that the described network equipment sends.
A second aspect of the present invention, provides a kind of transmission method of interferometry reference signal, comprising:
First network equipment obtains transmission period information;
Described transmission period information is sent to user equipment (UE) by described first network equipment, so that described UE is according to the described transmission period information determination object transmission period;
Described first network equipment sends dispatch to described UE, so that described UE first carries out the transmission of reference signal RS according to described dispatch and described object transmission period and described first network equipment, then carries out the transmission of data-signal;
Wherein, described dispatch comprises frequency resource indication information, and described frequency resource indication information is used to indicate the frequency that described UE and described first network equipment carry out described RS and described data information transfer; Described UE and the described network equipment carry out the transmission of described RS and described data-signal in different subframe.
In conjunction with second aspect, in a kind of possible implementation,
Described transmission period information is the period information that the described UE of instruction transmits described RS and described data-signal;
Described first network equipment obtains transmission period information, comprising:
Described first network equipment determines described transmission period information according to the period of the period of second network device transmission RS and described second network equipment transmission data signal.
In conjunction with second aspect and above-mentioned possible implementation, in the implementation that another kind is possible,
Described transmission period information is the second ascending-descending subframes configuration information;
Described first network equipment obtains transmission period information, comprising:
Described first network equipment receives the described transmission period information that second network equipment sends; Wherein, described transmission period information is that described second network equipment is determined according to the up-downgoing business of the community of own coverage area;
Described method also comprises:
Described first network equipment determines the first ascending-descending subframes configuration information according to the up-downgoing business of the community of own coverage area;
Described first ascending-descending subframes configuration information is sent to described UE by described first network equipment, so that described UE determines the described object transmission period according to described first ascending-descending subframes configuration information and described transmission period information.
In conjunction with second aspect and above-mentioned possible implementation, in the implementation that another kind is possible,
Described UE adopts the UE estimating perturbation technique in advance; Wherein, the described perturbation technique of estimation is in advance according to described dispatch, before the described data-signal of transmission, first need carry out the technology of described RS transmission;
Described transmission period information is sent to user equipment (UE) by described first network equipment, comprising:
Described first network equipment adopts the mode of multicast or clean culture to send described transmission period information to described UE;
Described first ascending-descending subframes configuration information is sent to described UE by described first network equipment, comprising:
Described first network equipment adopts the mode of broadcast to send described first ascending-descending subframes configuration information to described UE.
A third aspect of the present invention, provides a kind of subscriber equipment, comprising:
First receiving element, for receiving the transmission period information that the network equipment sends;
First determining unit, for the described transmission period information determination object transmission period obtained according to described first receiving element;
Second receiving element, for receiving the dispatch that the described network equipment sends;
Transmission unit, for the described dispatch that described object transmission period of obtaining according to described first determining unit and described second receiving element obtain, first carries out the transmission of reference signal RS with the described network equipment, then carries out the transmission of data-signal;
Wherein, described dispatch comprises frequency resource indication information, and described frequency resource indication information is used to indicate the frequency that described user equipment (UE) and the described network equipment carry out described RS and described data information transfer; Described UE and the described network equipment carry out the transmission of described RS and described data-signal in different subframe.
In conjunction with the third aspect, in a kind of possible implementation, also comprise:
Second determining unit, before receiving the transmission period information of network equipment transmission at described first receiving element, determines the UE from estimating perturbation technique in advance as employing according to self-ability; Or, receive the mode indication information that the described network equipment sends, and determine certainly as the UE estimating perturbation technique described in employing in advance according to described mode indication information;
Wherein, the described perturbation technique of estimation is in advance according to described dispatch, before the described data-signal of transmission, first need carry out the technology of described RS transmission.
In conjunction with the third aspect and above-mentioned possible implementation, in the implementation that another kind is possible,
Described transmission period information is the period information that the described UE of instruction transmits described RS and described data-signal;
Described first determining unit, specifically for being defined as the described object transmission period by the described period information of described transmission period information instruction.
In conjunction with the third aspect and above-mentioned possible implementation, in the implementation that another kind is possible,
Described transmission period information is the second ascending-descending subframes configuration information;
Described first receiving element, also for before described first determining unit is according to the described transmission period information determination object transmission period, receives the first ascending-descending subframes configuration information that the described network equipment sends;
Described first determining unit, described first ascending-descending subframes specifically for obtaining according to described first receiving element configures and described transmission period information determines the described object transmission period.
In conjunction with the third aspect and above-mentioned possible implementation, in the implementation that another kind is possible,
The described object transmission period is the target up period;
Described transmission unit, comprising:
Sending module, for the described dispatch that described object transmission period of obtaining according to described first determining unit and described second receiving element obtain, first sends described RS to the described network equipment, then send described data-signal to the described network equipment.
In conjunction with the third aspect and above-mentioned possible implementation, in the implementation that another kind is possible,
The described object transmission period is the target downlink period;
Described transmission unit, comprising:
Receiver module, for the described dispatch that described object transmission period of obtaining according to described first determining unit and described second receiving element obtain, first receive the described RS that the described network equipment sends, then receive the described data-signal of described network equipment transmission.
In conjunction with the third aspect and above-mentioned possible implementation, in the implementation that another kind is possible,
Described first determining unit, specifically for determining that the common factor of the up period indicated by described first ascending-descending subframes configuration information and the up period indicated by described transmission period information is as the described object transmission period; Or, determine the descending period indicated by described first ascending-descending subframes configuration information and the up period indicated by described transmission period information as the described object transmission period.
In conjunction with the third aspect and above-mentioned possible implementation, in the implementation that another kind is possible,
Described first determining unit, specifically for determining that the common factor of the descending period indicated by described first ascending-descending subframes configuration information and the descending period indicated by described transmission period information is as the described object transmission period; Or, determine the up period indicated by described first ascending-descending subframes configuration information and the descending period indicated by described transmission period information as the described object transmission period.
In conjunction with the third aspect and above-mentioned possible implementation, in the implementation that another kind is possible, also comprise:
First transmitting element, before receiving the dispatch of network equipment transmission at described second receiving element, detection reference signal SRS is sent to the described network equipment, so that the described network equipment carries out measurement to described SRS obtain channel condition information CSI, and determine described dispatch according to described CSI, described dispatch is sent to described UE.
In conjunction with the third aspect and above-mentioned possible implementation, in the implementation that another kind is possible, also comprise:
3rd receiving element, before receiving the dispatch of network equipment transmission at described second receiving element, receives the channel state information reference signals CSI-RS that the described network equipment sends;
Measuring unit, the described CSI-RS for obtaining described 3rd receiving element carries out measurement and obtains CSI;
Second transmitting element, is sent to the described network equipment for the described CSI obtained by described measuring unit, so that the described network equipment determines described dispatch according to described CSI, and described dispatch is sent to described UE.
In conjunction with the third aspect and above-mentioned possible implementation, in the implementation that another kind is possible, described sending module, comprising:
First sends submodule, for the described dispatch that described object transmission period of obtaining according to described first determining unit and described second receiving element obtain, described RS is sent, so that the described network equipment determines the receiving parameter in receiving algorithm or receiving algorithm according to described RS to the described network equipment;
Second sends submodule, for the described dispatch that described object transmission period of obtaining according to described first determining unit and described second receiving element obtain, sends described data-signal to the described network equipment.
In conjunction with the third aspect and above-mentioned possible implementation, in the implementation that another kind is possible, described sending module, comprising:
3rd sends submodule, for the described dispatch that described object transmission period of obtaining according to described first determining unit and described second receiving element obtain, described RS is sent, so that the described network equipment is measured described RS and determined Dispatching adjustment scheme to the described network equipment;
First receives submodule, for receiving the Dispatching adjustment scheme that the described network equipment sends;
4th sends submodule, the described dispatch obtained for the described object transmission period obtained according to described first determining unit, described second receiving element and described first receives the described Dispatching adjustment scheme that submodule obtains, and sends described data-signal to the described network equipment.
In conjunction with the third aspect and above-mentioned possible implementation, in the implementation that another kind is possible, described receiver module, comprising:
Second receives submodule, for the described dispatch that described object transmission period of obtaining according to described first determining unit and described second receiving element obtain, receives the described RS that the described network equipment sends;
Determine submodule, the described RS for obtaining according to described second reception submodule determines the receiving parameter in receiving algorithm or receiving algorithm;
3rd receives submodule, for the described dispatch that the described object transmission period obtained according to described first determining unit, described second receiving element obtain, and the described receiving parameter determined in the described receiving algorithm that submodule obtains or receiving algorithm, receive the described data-signal that the described network equipment sends.
In conjunction with the third aspect and above-mentioned possible implementation, in the implementation that another kind is possible, described receiver module, comprising:
4th receives submodule, for the described dispatch that described object transmission period of obtaining according to described first determining unit and described second receiving element obtain, receives the described RS that the described network equipment sends;
Measure and send submodule, measure for receiving the described RS that obtains of submodule to the described 4th, and measurement result is sent to the described network equipment, so that the described network equipment is to according to described measurement result determination Dispatching adjustment scheme;
5th receives submodule, for receiving the Dispatching adjustment scheme that the described network equipment sends;
6th receives submodule, the described dispatch obtained for the described object transmission period obtained according to described first determining unit, described second receiving element and the described 5th receives the described Dispatching adjustment scheme that submodule obtains, and receives the described data-signal that the described network equipment sends.
A fourth aspect of the present invention, provides a kind of first network equipment, comprising:
Acquiring unit, for obtaining transmission period information;
First transmitting element, is sent to user equipment (UE) for the described transmission period information obtained by described acquiring unit, so that described UE is according to the described transmission period information determination object transmission period;
Second transmitting element, for sending dispatch to described UE, so that described UE first carries out the transmission of reference signal RS according to described dispatch and described object transmission period and described first network equipment, then carries out the transmission of data-signal;
Wherein, described dispatch comprises frequency resource indication information, and described frequency resource indication information is used to indicate the frequency that described UE and described first network equipment carry out described RS and described data information transfer; Described UE and the described network equipment carry out the transmission of described RS and described data-signal in different subframe.
In conjunction with fourth aspect, in a kind of possible implementation, described transmission period information is the period information that the described UE of instruction transmits described RS and described data-signal;
Described acquiring unit, comprising:
Determination module, for determining described transmission period information according to the period of second network device transmission RS and the period of described second network equipment transmission data signal.
In conjunction with fourth aspect and above-mentioned possible implementation, in the implementation that another kind is possible, described transmission period information is the second ascending-descending subframes configuration information;
Described acquiring unit, comprising:
Receiver module, for receiving the described transmission period information that second network equipment sends; Wherein, described transmission period information is that described second network equipment is determined according to the up-downgoing business of the community of own coverage area;
Described first network equipment, also comprises:
Determining unit, determines the first ascending-descending subframes configuration information according to the up-downgoing business of the community of own coverage area;
3rd transmitting element, is sent to described UE for the described first ascending-descending subframes configuration information described determining unit obtained, so that described UE determines the described object transmission period according to described first ascending-descending subframes configuration information and described transmission period information.
In conjunction with fourth aspect and above-mentioned possible implementation, in the implementation that another kind is possible, described UE adopts the UE estimating perturbation technique in advance; Wherein, the described perturbation technique of estimation is in advance according to described dispatch, before the described data-signal of transmission, first need carry out the technology of described RS transmission;
Described first transmitting element, sends described transmission period information specifically for adopting the mode of multicast or clean culture to described UE;
Described 3rd transmitting element, sends described first ascending-descending subframes configuration information specifically for adopting the mode of broadcast to described UE.
A fifth aspect of the present invention, provides a kind of subscriber equipment, comprising: at least one processor, memory, communication interface and bus, and at least one processor described, described memory and described communication interface are connected by described bus and complete mutual communication;
Described processor, for performing storage executable program code in which memory, concrete for performing following operation:
Described processor, for receiving the transmission period information that the network equipment sends; According to the described transmission period information determination object transmission period; Receive the dispatch that the described network equipment sends; According to described object transmission period and described dispatch, first carry out the transmission of reference signal RS with the described network equipment, then carry out the transmission of data-signal;
Wherein, described dispatch comprises frequency resource indication information, and described frequency resource indication information is used to indicate the frequency that described user equipment (UE) and the described network equipment carry out described RS and described data information transfer; Described UE and the described network equipment carry out the transmission of described RS and described data-signal in different subframe.
In conjunction with the 5th aspect, in a kind of possible implementation,
Described processor, also for determining the UE from estimating perturbation technique in advance as employing according to self-ability; Or, receive the mode indication information that the described network equipment sends, and determine certainly as the UE estimating perturbation technique described in employing in advance according to described mode indication information;
Wherein, the described perturbation technique of estimation is in advance according to described dispatch, before the described data-signal of transmission, first need carry out the technology of described RS transmission.
In conjunction with the 5th aspect and above-mentioned possible implementation, in the implementation that another kind is possible,
Described transmission period information is the period information that the described UE of instruction transmits described RS and described data-signal;
Described processor, also for the described period information of described transmission period information instruction is defined as the described object transmission period.
In conjunction with the 5th aspect and above-mentioned possible implementation, in the implementation that another kind is possible,
Described transmission period information is the second ascending-descending subframes configuration information;
Described processor, also for described according to the described transmission period information determination object transmission period before, receive the described network equipment send the first ascending-descending subframes configuration information;
Described processor, also for determining the described object transmission period according to described first ascending-descending subframes configuration and described transmission period information.
In conjunction with the 5th aspect and above-mentioned possible implementation, in the implementation that another kind is possible,
The described object transmission period is the target up period;
Described processor, also for according to described object transmission period and described dispatch, first sends described RS to the described network equipment, then sends described data-signal to the described network equipment.
In conjunction with the 5th aspect and above-mentioned possible implementation, in the implementation that another kind is possible,
The described object transmission period is the target downlink period;
Described processor, also for according to described object transmission period and described dispatch, first receives the described RS that the described network equipment sends, then receives the described data-signal of described network equipment transmission.
In conjunction with the 5th aspect and above-mentioned possible implementation, in the implementation that another kind is possible,
Described processor, also for determining that the common factor of the up period indicated by described first ascending-descending subframes configuration information and the up period indicated by described transmission period information is as the described object transmission period; Or, determine the descending period indicated by described first ascending-descending subframes configuration information and the up period indicated by described transmission period information as the described object transmission period.
In conjunction with the 5th aspect and above-mentioned possible implementation, in the implementation that another kind is possible,
Described processor, also for determining that the common factor of the descending period indicated by described first ascending-descending subframes configuration information and the descending period indicated by described transmission period information is as the described object transmission period; Or, determine the up period indicated by described first ascending-descending subframes configuration information and the descending period indicated by described transmission period information as the described object transmission period.
In conjunction with the 5th aspect and above-mentioned possible implementation, in the implementation that another kind is possible,
Described processor, also for before the dispatch of described reception network equipment transmission, detection reference signal SRS is sent to the described network equipment, so that the described network equipment carries out measurement to described SRS obtain channel condition information CSI, and determine described dispatch according to described CSI, described dispatch is sent to described UE.
In conjunction with the 5th aspect and above-mentioned possible implementation, in the implementation that another kind is possible,
Described processor, also for before the dispatch of described reception network equipment transmission, receives the channel state information reference signals CSI-RS that the described network equipment sends; Measurement is carried out to described CSI-RS and obtains CSI; Described CSI is sent to the described network equipment, so that the described network equipment determines described dispatch according to described CSI, and described dispatch is sent to described UE.
In conjunction with the 5th aspect and above-mentioned possible implementation, in the implementation that another kind is possible,
Described processor, also for according to described object transmission period and described dispatch, sends described RS to the described network equipment, so that the described network equipment determines the receiving parameter in receiving algorithm or receiving algorithm according to described RS; According to described object transmission period and described dispatch, send described data-signal to the described network equipment.
In conjunction with the 5th aspect and above-mentioned possible implementation, in the implementation that another kind is possible,
Described processor, also for according to described object transmission period and described dispatch, sends described RS to the described network equipment, so that the described network equipment is measured described RS and determined Dispatching adjustment scheme; Receive the Dispatching adjustment scheme that the described network equipment sends; According to described object transmission period, described dispatch and described Dispatching adjustment scheme, send described data-signal to the described network equipment.
In conjunction with the 5th aspect and above-mentioned possible implementation, in the implementation that another kind is possible,
Described processor, also for according to described object transmission period and described dispatch, receives the described RS that the described network equipment sends; The receiving parameter in receiving algorithm or receiving algorithm is determined according to described RS; According to described object transmission period, described dispatch, and the receiving parameter in described receiving algorithm or receiving algorithm, receive the described data-signal that the described network equipment sends.
In conjunction with the 5th aspect and above-mentioned possible implementation, in the implementation that another kind is possible,
Described processor, also for according to described object transmission period and described dispatch, receives the described RS that the described network equipment sends; Described RS is measured, and measurement result is sent to the described network equipment, so that the described network equipment is to according to described measurement result determination Dispatching adjustment scheme; Receive the Dispatching adjustment scheme that the described network equipment sends; According to described object transmission period, described dispatch and described Dispatching adjustment scheme, receive the described data-signal that the described network equipment sends.
A sixth aspect of the present invention, a kind of first network equipment is provided, comprise: at least one processor, memory, communication interface and bus, at least one processor described, described memory and described communication interface are connected by described bus and complete mutual communication;
Described processor, for performing storage executable program code in which memory, concrete for performing following operation:
Described processor, for obtaining transmission period information; Described transmission period information is sent to user equipment (UE), so that described UE is according to the described transmission period information determination object transmission period; Send dispatch to described UE, so that described UE first carries out the transmission of reference signal RS according to described dispatch and described object transmission period and described first network equipment, then carry out the transmission of data-signal;
Wherein, described dispatch comprises frequency resource indication information, and described frequency resource indication information is used to indicate the frequency that described UE and described first network equipment carry out described RS and described data information transfer; Described UE and the described network equipment carry out the transmission of described RS and described data-signal in different subframe.
In conjunction with the 6th aspect, in a kind of possible implementation,
Described transmission period information is the period information that the described UE of instruction transmits described RS and described data-signal;
Described processor, also for determining described transmission period information according to the period of second network device transmission RS and the period of described second network equipment transmission data signal.
In conjunction with the 6th aspect and above-mentioned possible implementation, in the implementation that another kind is possible,
Described transmission period information is the second ascending-descending subframes configuration information;
Described processor, also for receiving the described transmission period information that second network equipment sends; Wherein, described transmission period information is that described second network equipment is determined according to the up-downgoing business of the community of own coverage area;
Described processor, the up-downgoing business also for the community according to own coverage area determines the first ascending-descending subframes configuration information; The described first ascending-descending subframes configuration information described determining unit obtained is sent to described UE, so that described UE determines the described object transmission period according to described first ascending-descending subframes configuration information and described transmission period information.
In conjunction with the 6th aspect and above-mentioned possible implementation, in the implementation that another kind is possible,
Described UE adopts the UE estimating perturbation technique in advance; Wherein, the described perturbation technique of estimation is in advance according to described dispatch, before the described data-signal of transmission, first need carry out the technology of described RS transmission;
Described processor, also for adopting the mode of multicast or clean culture to send described transmission period information to described UE; The mode of broadcast is adopted to send described first ascending-descending subframes configuration information to described UE.
The transmission method of the interferometry reference signal that the embodiment of the present invention provides and equipment, subscriber equipment receives the transmission period information that the network equipment sends, and according to this transmission period information determination object transmission period, and after the dispatch receiving network equipment transmission, the transmission of reference signal is first carried out according to object transmission period and dispatch and the network equipment, carry out the transmission of data-signal again, by carrying out the transmission of RS and data-signal according to object transmission period and the network equipment, the interference be subject to when making to carry out RS transmission is identical with the interference carrying out being subject to when data-signal transmits, that is the interfere information that obtains of RS is measured identical with the interference that transmission of data signals is subject to, and then ensure that the accuracy of the Adjusted Option obtained according to the measurement result of RS, alleviate the problem of disturbance fluctuation.
Accompanying drawing explanation
In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.
The transmission method flow chart of a kind of interferometry reference signal that Fig. 1 provides for one embodiment of the invention;
The transmission method flow chart of a kind of interferometry reference signal that Fig. 2 provides for another embodiment of the present invention;
The transmission method flow chart of a kind of interferometry reference signal that Fig. 3 provides in the first application scenarios for another embodiment of the present invention;
The general subframe structure schematic diagram in a tdd system that Fig. 4 provides for another embodiment of the present invention;
A kind of heterogeneous network composition schematic diagram that Fig. 5 provides for another embodiment of the present invention;
The transmission method flow chart of a kind of interferometry reference signal that Fig. 6 provides in the second application scenarios for another embodiment of the present invention;
The transmission method flow chart of a kind of interferometry reference signal that Fig. 7 provides in the third application scenarios for another embodiment of the present invention;
The transmission method flow chart of a kind of interferometry reference signal that Fig. 8 provides in the 4th kind of application scenarios for another embodiment of the present invention;
A kind of subframe structure schematic diagram that Fig. 9 provides for another embodiment of the present invention;
Figure 10 for another embodiment of the present invention provide a kind of subscriber equipment form schematic diagram;
Figure 11 for another embodiment of the present invention provide another kind of subscriber equipment form schematic diagram;
Figure 12 for another embodiment of the present invention provide a kind of first network equipment form schematic diagram;
Figure 13 for another embodiment of the present invention provide another kind of first network equipment form schematic diagram;
Figure 14 for another embodiment of the present invention provide another subscriber equipment form schematic diagram;
Figure 15 for another embodiment of the present invention provide another first network equipment form schematic diagram.
Embodiment
Below in conjunction with the accompanying drawing in the embodiment of the present invention, be clearly and completely described the technical scheme in the embodiment of the present invention, obviously, described embodiment is only the present invention's part embodiment, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of protection of the invention.
One embodiment of the invention provides a kind of transmission method of interferometry reference signal, and as shown in Figure 1, the method can comprise:
101, UE receives the transmission period information that the network equipment sends.
Wherein, transmission period information can be the period information being used to indicate UE transmission RS and transmission of data signals that the network equipment is determined, also can be the second ascending-descending subframes configuration information.
Wherein the second ascending-descending subframes configuration information can be that other network equipments adjacent with this network equipment are determined according to the up-downgoing business of own coverage area and send to this network equipment, also can be directly send to this network equipment by the center processing unit controlling this network equipment and other network equipment, etc., the obtain manner of the present invention to the second ascending-descending subframes configuration information is not limit.
102, UE is according to the transmission period information determination object transmission period.
Wherein, in a kind of application scenarios, when transmitting period information and being the period information of instruction UE transmission RS and data-signal, the period information of transmission period information instruction, according to the transmission period information determination object transmission period, is particularly defined as the object transmission period by UE.
In another kind of application scenarios, when transmission period information is the second ascending-descending subframes configuration information, before UE is according to the transmission period information determination object transmission period, UE can also receive the first ascending-descending subframes configuration information that the network equipment sends.So, UE, according to the transmission period information determination object transmission period, particularly configures and the transmission period information determination object transmission period according to the first ascending-descending subframes.Wherein, the first ascending-descending subframes configuration information is that the network equipment is determined according to the up-downgoing business of the community of own coverage area.
103, UE receives the dispatch that the network equipment sends.
Wherein, when the network equipment needs instruction UE to send upstream data. signals or downlink data receiving signal, can send dispatch to UE, now UE just can receive the dispatch that the network equipment sends.
In embodiments of the present invention, dispatch comprises frequency resource indication information, and this frequency resource indication information is used to indicate the frequency that UE and the network equipment carry out RS and data information transfer.
104, UE is according to object transmission period and dispatch, first carries out the transmission of RS, then carry out the transmission of data-signal with the network equipment.
Wherein, when UE is according to the transmission period information determination object transmission period, and after receiving the dispatch of network equipment transmission, just the transmission of RS first can be carried out according to the object transmission period determined and the dispatch received and the network equipment, carry out the transmission of data-signal again, and UE and the network equipment carry out the transmission of RS and data-signal in different subframe, be convenient to for receiver measure RS reserve time enough after, carry out the transmission of data-signal again, wherein receiver can be UE, also can be the network equipment.
The transmission method of the interferometry reference signal that the embodiment of the present invention provides, subscriber equipment receives the transmission period information that the network equipment sends, and according to this transmission period information determination object transmission period, and after the dispatch receiving network equipment transmission, the transmission of reference signal is first carried out according to object transmission period and dispatch and the network equipment, carry out the transmission of data-signal again, by carrying out the transmission of RS and data-signal according to object transmission period and the network equipment, the interference be subject to when making to carry out RS transmission is identical with the interference carrying out being subject to when data-signal transmits, that is the interfere information that obtains of RS is measured identical with the interference that transmission of data signals is subject to, and then ensure that the accuracy of the Adjusted Option obtained according to the measurement result of RS, alleviate the problem of disturbance fluctuation.
Another embodiment of the present invention provides a kind of transmission method of interferometry reference signal, and as shown in Figure 2, the method can comprise:
201, first network equipment obtains transmission period information.
Wherein, the interference carrying out in order to ensure first network equipment and UE being subject to when RS transmits is identical with the interference carrying out being subject to when data-signal transmits, in a kind of application scenarios, first network equipment can pre-determine the period for transmitting RS and transmission of data signals, that is first network equipment can obtain transmission period information, and namely transmitting period information is the period information that instruction UE transmits RS and data-signal, in another kind of application scenarios, transmission period information is the second ascending-descending subframes configuration information, now transmit the obtain manner of period information, namely the obtain manner of the second ascending-descending subframes configuration information can be: first network equipment receives the second ascending-descending subframes configuration information that second network equipment sends, or first network equipment receives the second ascending-descending subframes configuration information sent by the center processing unit controlling first network equipment and second network equipment, etc., wherein the obtain manner of the present invention to the second ascending-descending subframes configuration information is not limit, and first network equipment needs to determine the first ascending-descending subframes configuration information according to the up-downgoing business of the community of own coverage area.
202, transmission period information is sent to UE by first network equipment, so that UE is according to the transmission period information determination object transmission period.
Wherein, in a kind of application scenarios, when transmitting period information and being the period information of instruction UE transmission RS and data-signal, transmission period information is sent to UE by first network equipment, so that UE is according to the transmission period information determination object transmission period; In another kind of application scenarios, when transmission period information is the second ascending-descending subframes configuration information, transmission period information is sent to UE by first network equipment, and the first ascending-descending subframes configuration information is also sent to UE, so that UE is according to the first ascending-descending subframes configuration information and transmission period information determination object transmission period.
203, first network equipment sends dispatch to UE, so that UE first carries out the transmission of RS according to dispatch and object transmission period and first network equipment, then carries out the transmission of data-signal.
Wherein, when first network equipment need indicate UE downlink data receiving signal or send upstream data. signals, dispatch can be sent to UE, such UE just first can carry out RS transmission according to dispatch and the object transmission determined period and first network equipment, then carries out the transmission of data-signal.
Wherein this dispatch comprises frequency resource indication information, and frequency resource indication information is used to indicate the frequency that UE and first network equipment carry out RS and data information transfer; UE and the network equipment carry out the transmission of RS and data-signal in different subframe, be convenient to for receiver measure RS reserve time enough after, carry out the transmission of data-signal again, wherein receiver can be UE, also can be first network equipment.
The transmission method of the interferometry reference signal that the embodiment of the present invention provides, first network equipment sends transmission period information to subscriber equipment, so that subscriber equipment is according to this transmission period information determination object transmission period, and send dispatch to subscriber equipment, first carry out the transmission of reference signal according to object transmission period and dispatch and first network equipment than just subscriber equipment, carry out the transmission of data-signal again, subscriber equipment is by carrying out the transmission of RS and data-signal according to object transmission period and first network equipment, the interference be subject to when making to carry out RS transmission is identical with the interference carrying out being subject to when data-signal transmits, that is the interfere information that obtains of RS is measured identical with the interference that transmission of data signals is subject to, and then ensure that the accuracy of the Adjusted Option obtained according to the measurement result of RS, alleviate the problem of disturbance fluctuation.
Another embodiment of the present invention provides a kind of transmission method of interferometry reference signal, conveniently the understanding of those skilled in the art, by embodiment of the present invention application in a tdd system for example is described.
In the first application scenarios, when transmission period information is the second ascending-descending subframes configuration information, and during up period that is target object transmission period determined, as shown in Figure 3, the method can comprise:
301a, UE determine the UE from estimating perturbation technique in advance as employing according to self-ability; Or UE receives the mode indication information that first network equipment sends, and determine the UE from estimating perturbation technique in advance as employing according to mode indication information.
Wherein, estimate that perturbation technique is according to dispatch, before transmission of data signals, first need carry out the technology of RS transmission in advance.UE determines the UE from estimating perturbation technique in advance as employing according to self-ability, and concrete can be: UE determines from the UE as support 3GPP Release 13, or UE is according to specification of dispatching from the factory, and determines certainly as adopting the UE estimating perturbation technique in advance; UE determines the UE from estimating perturbation technique in advance as employing according to the mode indication information that the first network equipment received sends, concrete can be: first network equipment was used to indicate UE before transmission of data signals to the mode indication information that UE sends, and first carried out the transmission of RS.
It should be noted that, in embodiments of the present invention, consider the compatibility issue of system, for a community, first network equipment can be the UE service of two types, and wherein a kind of is adopt the UE estimating perturbation technique in advance, and another does not adopt the UE estimating perturbation technique in advance.Wherein, UE determines that oneself as not adopting the concrete grammar of the UE estimating perturbation technique in advance can be: UE determines from the UE as support 3GPP Release 12, or UE is according to specification of dispatching from the factory, determine certainly as not adopting the UE estimating perturbation technique in advance, or indicate UE after receiving dispatch in the mode indication information that UE receives, directly carry out the transmission of data-signal, or UE does not receive mode indication information; And for this UE estimating perturbation technique in advance that do not adopt, after the dispatch receiving the transmission of first network equipment, directly can carry out the transmission of data-signal according to the first ascending-descending subframes configuration information of first network device broadcasts, wherein the first ascending-descending subframes configuration information is that first network equipment is determined according to the up-downgoing business of the community of own coverage area.
302a, first network equipment receive the transmission period information that second network equipment sends.
Wherein, transmitting period information i.e. the second ascending-descending subframes configuration information is that second network equipment is determined according to the up-downgoing business of the community of own coverage area.
Concrete, transmission period information is the transmission period information that other communities adjacent with community residing for UE notify, such as, community residing for UE is the first community, the community adjacent with the first community is the second community, and in a kind of application scenarios, first network equipment overlay area includes the first community and the second community, so now transmitting period information is that first network equipment is determined according to the up-downgoing business of the second community of own coverage area, and that is now step 302a does not perform, in another kind of application scenarios, first network equipment overlay area comprises the first community, i.e. community residing for UE, and the second community is in the overlay area of second network equipment, so now, after second network equipment determines transmission period information i.e. the second ascending-descending subframes configuration information according to the up-downgoing business of the second community of own coverage area, just first network equipment can be sent to, or transmission period information i.e. the second ascending-descending subframes configuration information directly sends to first network equipment by the center processing unit controlling first network equipment and second network equipment, etc..
It should be noted that, in embodiments of the present invention, when transmission period information is the second ascending-descending subframes configuration information, first network equipment obtains transmission period information i.e. the second ascending-descending subframes configuration information mode, can be that first network equipment is determined, also can be that second network equipment sends to first network equipment, can also be directly send to first network equipment by the center processing unit controlling first network equipment and second network equipment, the embodiment of the present invention does not limit the obtain manner of transmission period information when to transmit period information be the second ascending-descending subframes configuration information at this.
303a, first network equipment adopt the mode of multicast or clean culture to send transmission period information to UE.
Wherein, first network equipment can adopt the mode of multicast to send transmission period information to UE, concrete can be, multiple employing can be estimated that the UE of perturbation technique is considered as one group of UE by first network equipment in advance, to employing, such as first network equipment estimates that the UE of perturbation technique sends a mark (Identity in advance in advance, ID), or can estimate that the UE of perturbation technique configures an ID in advance for adopting in advance, now first network equipment just can adopt the mode of multicast to estimate that the UE of perturbation technique sends transmission period information in advance to multiple employing according to ID, the benefit adopting multicast mode to save signaling.First network equipment also can adopt the mode of clean culture, transmission period information is sent separately to UE, the benefit adopting mode of unicast is to different employings, first network equipment can estimate that the UE of perturbation technique sends different transmission period information in advance, flexibility is relatively good, is convenient to the UE being suitable for disturbance situation.
It should be noted that, in embodiments of the present invention, mode first network equipment being sent to transmission period information is not restricted.
304a, UE receive the transmission period information that first network equipment sends.
305a, first network equipment determine the first ascending-descending subframes configuration information according to the up-downgoing business of the community of own coverage area.
306a, first network equipment adopt the mode of broadcast to send the first ascending-descending subframes configuration information to UE.
Wherein, in a tdd system, first network equipment is usually when UE access network or UE are switched to a certain community, the first ascending-descending subframes configuration information is sent to UE, and the first ascending-descending subframes configuration information is sent to UE by broadcast signaling by first network equipment usually, wherein general subframe structure as shown in Figure 4, first network equipment is ascending-descending subframes configuration numbering to the first ascending-descending subframes configuration information that UE sends, UE can according to the ascending-descending subframes configuration numbering received, inquire about the corresponding relation of ascending-descending subframes configuration numbering and the transmission period pre-set to determine up period and descending period, ascending-descending subframes configuration numbering is as shown in table 1 with the corresponding relation of transmission period.
Table 1
Wherein, in table 1, " D " represents that whole subframe is all the descending period; " U " represents that whole subframe is all the up period; " S " represents that whole subframe successively comprises according to time sequencing: the descending period; namely descending pilot frequency time slot (the Downlink Pilot Time Slot shown in Fig. 4; DwPTS); blank interval; namely protection interval (the Guard Period shown in Fig. 4; GP); and the up period, the uplink pilot time slot (Uplink Pilot Time Slot, UpPTS) namely shown in Fig. 4.Such as, the ascending-descending subframes configuration that first network equipment sends indicated by the first ascending-descending subframes configuration information to UE is numbered 0, then the transmission period that UE is numbered 0 correspondence according to the ascending-descending subframes configuration in table 1 determines the up-downgoing period.The up period mentioned in the present invention comprises the up period in U subframe and S subframe, and the descending period comprises the descending period in D subframe and S subframe.
307a, UE receive the first ascending-descending subframes configuration information that first network equipment sends.
308a, UE are according to the first ascending-descending subframes configuration information and transmission period information determination object transmission period.
Concrete, UE determines that the common factor of up period indicated by the first ascending-descending subframes configuration information and the up period of transmission indicated by period information is as the object transmission period; Or, UE determine descending period indicated by the first ascending-descending subframes configuration information and the up period of transmitting indicated by period information as the object transmission period.
Such as, heterogeneous network (Heterogeneous Network as shown in Figure 5, HetNet) scene, the corresponding macrocell of second network equipment, first network equipment is comprised in its overlay area, because the transmitted power of first network equipment is very little, therefore the Microcell that its overlay area is corresponding and Microcell are within the coverage of macrocell, and first network equipment provides service to UE, ascending-descending subframes configuration indicated by the first ascending-descending subframes configuration information that the first network equipment received as UE sends is numbered 2, the ascending-descending subframes configuration of the transmission period information received that is indicated by the second ascending-descending subframes configuration information is numbered 0, associative list 1, can find out, if UE is being numbered 3, 4, 8, arbitrary subframe in the subframe of 9 sends RS to first network equipment, and be numbered 2, arbitrary subframe in the subframe of 7 is to first network equipment sending data signal, so will cause UE when first network equipment sends RS, be subject to the interference of the downstream signal that second network equipment sends, and the interference of the upward signal that UE can be subject to being controlled by UE from second network equipment to the data-signal that first network equipment sends sends to second network equipment, cause the Adjusted Option determined according to RS unreasonable, therefore UE can determine that the common factor of up period indicated by the first ascending-descending subframes configuration information and the up period of transmission indicated by period information is as the object transmission period, that is, UE determines to be numbered 2, the subframe of 7 is the object transmission period, UE is made to send RS identical with the interference be subject to when sending data-signal, the irrational situation of Adjusted Option determined according to RS can be avoided like this to occur, or UE can determine the descending period indicated by the first ascending-descending subframes configuration information, and the up period of transmitting indicated by period information is as the object transmission period, that is, UE determines to be numbered 3, 4, 8, the subframe of 9 is the object transmission period, identical interference is subject to when making UE send RS and send data-signal, the irrational situation of Adjusted Option determined according to RS can be avoided like this to occur.
309a, UE send SRS to first network equipment.
310a, first network equipment carry out measurement to SRS and obtain CSI, and determine dispatch according to CSI.
Dispatch is sent to UE by 311a, first network equipment.
312a, UE receive the dispatch that first network equipment sends.
Wherein, comprise and comprise frequency resource indication information in dispatch, frequency resource indication information is used to indicate UE sends RS and frequency from data message to the network equipment, such as, for UE distributes which Resource Block (Resource Block, RB); Also comprise in dispatch and use which kind of Modulation and Coding Scheme (Modulation and Coding Scheme, MCS), the information such as how many power adjustment are adopted, wherein, RB can be Physical Resource Block (Physical Resource Block, or virtual resource blocks (Virtual Resource Block PRB), VRB), 12 subcarriers of a corresponding frequency domain of RB.
313a, UE, according to object transmission period and dispatch, first send RS to first network equipment, then to first network equipment sending data signal.
Wherein, UE sends RS to the network equipment to carry out in different subframe from data-signal, be convenient to like this for receiver measurement RS reserve time enough after, carry out the transmission of data-signal again, wherein receiver can be UE, also can be first network equipment
Concrete: step 313a can comprise following steps:
313a1, UE, according to object transmission period and dispatch, send RS, so that first network equipment determines the receiving parameter in receiving algorithm or receiving algorithm according to RS to first network equipment.
Wherein, after UE receives the dispatch of first network equipment transmission, just can send RS according to the object transmission period determined in dispatch and step 308a to first network equipment, such first network equipment just can determine the receiving parameter in receiving algorithm or receiving algorithm according to the RS received.
Such as in LTE-TDD system, first network equipment sends by Physical Downlink Control Channel (Physical Downlink Control CHannel to UE in the subframe being numbered n, PDCCH) dispatch carrying out uplink for dispatching UE carried, when UE is after receiving dispatch, the first frequency band of subframe being numbered n+A sends RS, so that first network equipment determines the receiving parameter in receiving algorithm or receiving algorithm according to the RS received to first network equipment.Wherein, the subframe being numbered n+A is the some subframes in the object transmission period, and the first frequency band is the UE of the frequency resource indication information instruction comprised in dispatch sends RS and frequency from data message to the network equipment.
313a2, UE according to object transmission period and dispatch, to first network equipment sending data signal.
Wherein, send after RS to first network equipment at UE, can according to the object transmission period determined in the dispatch received and step 308a, to first network equipment sending data signal, such first network equipment just can receive the data-signal of UE transmission very much according to the receiving parameter in the receiving algorithm determined or receiving algorithm, due to the interference of channel when the adjustment made according to RS can reflect transmission of data signals accurately, therefore first network equipment can receive the data-signal that UE sends more reliably.
Such as, the object transmission period that UE determines be numbered 3,4,8,9 subframe, when UE receives dispatch, and be numbered 3 subframe the first frequency band on send after RS to first network equipment, just can be numbered 8 subframe the first frequency band on to first network equipment send by Physical Uplink Shared Channel (Physical Uplink Shared Channel, PUSCH) data-signal carried, the subframe being wherein numbered 8 is the some subframes in the object transmission period.Due to first network equipment according to UE be numbered 3 subframe the first frequency band on the RS that sends determine in receiving algorithm or receiving algorithm receiving parameter, and the subframe being numbered 3 and the subframe being numbered 8 are and choose in the object transmission period, according to the description in step 308a, in different subframes in the object transmission period, the interference sent suffered by signal is identical, that is UE be numbered 3 subframe the first frequency band on to first network equipment send RS, with be numbered 8 subframe the first frequency band on interference suffered by the data-signal that sends to first network equipment identical, that is first network equipment can determine Adjusted Option accurately according to the measurement result of RS, just the inaccurate problem of Adjusted Option caused due to disturbance fluctuation can be avoided so like this to occur.
Or step 313a can comprise following steps:
313a3, UE, according to object transmission period and dispatch, send RS, so that first network equipment is measured RS and determined Dispatching adjustment scheme to first network equipment.
Wherein, after UE receives the dispatch of first network equipment transmission, can according to the object transmission period determined in step 308a and dispatch, RS is sent to first network equipment, after first network equipment receives the RS of UE transmission, the RS received measured and determines Dispatching adjustment scheme, such as, adjusting MCS, and the Dispatching adjustment scheme determined is sent to UE.
Such as, when the object transmission period determined in step 308a be numbered 2,7 subframe, so UE just can select the subframe being numbered 2, and according to the frequency of transmission RS of the frequency resource indication information instruction in dispatch, send RS to first network equipment, now first network equipment just can be measured the RS received and obtain Dispatching adjustment scheme according to the result measured.
313a4, UE receive the Dispatching adjustment scheme that first network equipment sends.
313a5, UE according to object transmission period, dispatch and Dispatching adjustment scheme, to first network equipment sending data signal.
Wherein, after UE receives Dispatching adjustment scheme, can according to object transmission period, dispatch and Dispatching adjustment scheme, to first network equipment sending data signal.Such as, when the object transmission period determined in step 308a is for being numbered 2, the subframe of 7, and UE selects the subframe being numbered 2, and send RS according to the frequency of the transmission RS of the frequency resource indication information instruction in dispatch to first network equipment, so UE is after receiving Dispatching adjustment scheme, first data-signal is prepared according to Dispatching adjustment scheme, then the subframe being numbered 7 is selected, and according to the frequency resource indication information in dispatch, to first network equipment sending data signal, the RS sent in the subframe being numbered 2 according to UE due to first network equipment adjusts scheduling scheme, and be numbered 2 subframe identical with the interference that the subframe being numbered 7 is subject to, it is hereby ensured according to the accuracy to the Adjusted Option that the measurement result of RS is determined, the problem that the fluctuation effectively avoiding interference is brought.
In the second application scenarios, when transmission period information is the second ascending-descending subframes configuration information, and when the object transmission period determined is the target downlink period, as shown in Figure 6, the method can comprise:
301b, UE determine the UE from estimating perturbation technique in advance as employing according to self-ability; Or UE receives the mode indication information that first network equipment sends, and determine the UE from estimating perturbation technique in advance as employing according to mode indication information.
Wherein, estimate that perturbation technique is according to dispatch, before transmission of data signals, first need carry out the technology of RS transmission in advance.
302b, first network equipment receive the transmission period information that second network equipment sends.
Wherein, transmitting period information is that second network equipment is determined according to the up-downgoing business of the community of own coverage area.
303b, first network equipment adopt the mode of multicast or clean culture to send transmission period information to UE.
304b, UE receive the transmission period information that first network equipment sends.
305b, first network equipment determine the first ascending-descending subframes configuration information according to the up-downgoing business of the community of own coverage area.
306b, first network equipment adopt the mode of broadcast to send the first ascending-descending subframes configuration information to UE.
307b, UE receive the first ascending-descending subframes configuration information that first network equipment sends.
308b, UE are according to the first ascending-descending subframes configuration and transmission period information determination object transmission period.
Wherein, UE determines that the common factor of descending period indicated by the first ascending-descending subframes configuration information and the descending period of transmission indicated by period information is as the object transmission period; Or, UE determine up period indicated by the first ascending-descending subframes configuration information and the descending period of transmitting indicated by period information as the object transmission period.
Such as, ascending-descending subframes configuration indicated by the first ascending-descending subframes configuration information that the first network equipment received as UE sends is numbered 2, the ascending-descending subframes configuration of the transmission period information received that is indicated by the second ascending-descending subframes configuration information is numbered 0, associative list 1, when UE determines the common factor of the descending period indicated by descending period indicated by the first ascending-descending subframes configuration information and transmission period information as the object transmission period, the target downlink period determined be numbered 0,1,5,6 subframe.
309b, UE receive the channel state information reference signals (Channel State Information Reference Signal, CSI-RS) that first network equipment sends.
310b, UE carry out measurement to CSI-RS and obtain CSI.
CSI is sent to first network equipment by 311b, UE.
312b, first network equipment determine dispatch according to CSI.
Dispatch is sent to UE by 313b, first network equipment.
314b, UE receive the dispatch that first network equipment sends.
315b, UE, according to object transmission period and dispatch, first receive the RS that first network equipment sends, then receive the data-signal of first network equipment transmission.
Concrete: step 315b can comprise following steps:
315b1, UE, according to object transmission period and dispatch, receive the RS that first network equipment sends.
Wherein, after UE receives the dispatch of first network equipment transmission, just according to the object transmission period determined in step 308b and the dispatch received, the RS that first network equipment sends can be received.
Such as, the object transmission period determined in step 308b be numbered 0,1,5,6 subframe, the RS that the first frequency band that so UE just can choose the subframe being numbered 1 sends to receive first network equipment, wherein, the first frequency band is the RS of UE reception network equipment transmission and the frequency of data message of the frequency resource indication information instruction comprised in dispatch.
315b2, UE determine the receiving parameter in receiving algorithm or receiving algorithm according to RS.
315b3, UE are according to object transmission period, dispatch, and the receiving parameter in receiving algorithm or receiving algorithm, receive the data-signal that first network equipment sends.
Wherein, after UE determines the receiving parameter in receiving algorithm or receiving algorithm according to the RS received, according to the receiving parameter in the object transmission period determined in step 308b, dispatch and receiving algorithm or receiving algorithm, the data-signal that first network equipment sends can be received.
Such as, the object transmission period determined in step 308b be numbered 0,1,5,6 subframe, the RS that the first frequency band that UE chooses the subframe being numbered 1 sends to receive first network equipment, the data-signal that the first frequency band that now UE can choose the subframe being numbered 6 sends to receive first network equipment, because the subframe being numbered 1 is identical with the interference that the subframe being numbered 6 is subject to, therefore UE is also accurately according to the Adjusted Option that the RS received makes, and so just can ensure that UE can receive the data-signal of first network equipment transmission more reliably.
Or step 315b can comprise following steps:
315b4, UE, according to object transmission period and dispatch, receive the RS that first network equipment sends.
315b5, UE measure RS, and measurement result is sent to first network equipment.
315b6, first network equipment are to according to measurement result determination Dispatching adjustment scheme.
315b7, UE receive the Dispatching adjustment scheme that first network equipment sends.
315b8, UE, according to object transmission period, dispatch and Dispatching adjustment scheme, receive the data-signal that first network equipment sends.
It should be noted that, specific descriptions in the embodiment of the present invention in step 301b-step 315b can with reference to the specific descriptions of corresponding content in step 301a-313a in the first application scenarios of the embodiment of the present invention, and the embodiment of the present invention repeats the specific descriptions in step 301b-step 315b no longer one by one at this.
In the third application scenarios, when transmission period information is the period information that instruction UE transmits RS and data-signal, and during up period that is target object transmission period determined, as shown in Figure 7, the method can comprise:
301c, UE determine the UE from estimating perturbation technique in advance as employing according to self-ability; Or UE receives the mode indication information that first network equipment sends, and determine the UE from estimating perturbation technique in advance as employing according to mode indication information.
Wherein, estimate that perturbation technique is according to dispatch, before transmission of data signals, first need carry out the technology of RS transmission in advance
302c, first network equipment were determined to transmit period information according to the period of the period of second network device transmission RS and second network equipment transmission data signal.
Wherein, the UE under second network equipment controls also uses and estimates perturbation technique in advance, and so first network equipment can be determined to transmit period information according to the period of the period of second network device transmission RS and second network equipment transmission data signal.Such as, associative list 1, the subframe that second network equipment is being numbered 3 sends RS to its UE controlled, and send data-signal in the subframe being numbered 8 to its UE controlled, so first network equipment just can be determined to be numbered 3, the subframe of 8 is the object transmission period, this is because when UE sends RS to first network equipment in the subframe being numbered 3, the interference that second network equipment sends RS can be subject to, and when UE in the subframe being numbered 8 to first network equipment sending data signal time, the interference of second network equipment sending data signal can be subject to equally, such UE is identical with the interference be subject to when sending data-signal at transmission RS, thus ensure that the accuracy of Adjusted Option, the problem that the fluctuation avoiding interference is brought.
303c, first network equipment adopt the mode of multicast or clean culture to send transmission period information to UE.
The period information of transmission period information instruction is defined as the object transmission period by 304c, UE.
Wherein, after UE receives the transmission period information of first network equipment transmission, just can using the period information indicated by the object transmission period as the object transmission period.Indicate to send RS in which subframe in this object transmission period, which subframe sends data-signal.
305c, UE send SRS to first network equipment.
306c, first network equipment carry out measurement to SRS and obtain CSI, and determine dispatch according to CSI.
Dispatch is sent to UE by 307c, first network equipment.
308c, UE receive the dispatch that first network equipment sends.
309c, UE, according to object transmission period and dispatch, first send RS to first network equipment, then to first network equipment sending data signal.
Concrete: step 309c can comprise following steps:
309c1, UE, according to object transmission period and dispatch, send RS, so that first network equipment determines the receiving parameter in receiving algorithm or receiving algorithm according to RS to first network equipment.
309c2, UE according to object transmission period and dispatch, to first network equipment sending data signal.
Or step 309c can comprise following steps:
309c3, UE, according to object transmission period and dispatch, send RS, so that first network equipment is measured RS and determined Dispatching adjustment scheme to first network equipment.
309c4, UE receive the Dispatching adjustment scheme that first network equipment sends.
309c5, UE according to object transmission period, dispatch and Dispatching adjustment scheme, to first network equipment sending data signal.
It should be noted that, specific descriptions in the embodiment of the present invention in step 301c-309c can with reference to the specific descriptions of corresponding content in step 301b-315b in step 301a-313a in the first application scenarios of the embodiment of the present invention and the second application scenarios, and the embodiment of the present invention repeats the specific descriptions in step 301c-309c no longer one by one at this.
In the 4th kind of application scenarios, when transmission period information is the period information that instruction UE transmits RS and data-signal, and when the object transmission period determined is the target downlink period, as shown in Figure 8, the method can comprise:
301d, UE determine the UE from estimating perturbation technique in advance as employing according to self-ability; Or UE receives the mode indication information that first network equipment sends, and determine the UE from estimating perturbation technique in advance as employing according to mode indication information.
Wherein, estimate that perturbation technique is according to dispatch, before transmission of data signals, first need carry out the technology of RS transmission in advance.
302d, first network equipment were determined to transmit period information according to the period of the period of second network device transmission RS and second network equipment transmission data signal.
303d, first network equipment adopt the mode of multicast or clean culture to send transmission period information to UE.
The period information of transmission period information instruction is defined as the object transmission period by 304d, UE.
305d, UE receive the CSI-RS that first network equipment sends.
306d, UE carry out measurement to CSI-RS and obtain CSI.
CSI is sent to first network equipment by 307d, UE.
308d, first network equipment determine dispatch according to CSI.
Dispatch is sent to UE by 309d, first network equipment.
310d, UE receive the dispatch that first network equipment sends.
311d, UE, according to object transmission period and dispatch, first receive the RS that first network equipment sends, then receive the data-signal of first network equipment transmission.
Concrete: step 311d can comprise following steps:
311d1, UE, according to object transmission period and dispatch, receive the RS that first network equipment sends.
311d2, UE determine the receiving parameter in receiving algorithm or receiving algorithm according to RS.
311d3, UE are according to object transmission period, dispatch, and the receiving parameter in receiving algorithm or receiving algorithm, receive the data-signal that first network equipment sends.
Or step 311d can comprise following steps:
311d4, UE, according to object transmission period and dispatch, receive the RS that first network equipment sends.
311d5, UE measure RS, and measurement result is sent to first network equipment.
311d6, first network equipment are to according to measurement result determination Dispatching adjustment scheme.
311d7, UE receive the Dispatching adjustment scheme that first network equipment sends.
311d8, UE, according to object transmission period, dispatch and Dispatching adjustment scheme, receive the data-signal that first network equipment sends.
It should be noted that, specific descriptions in the embodiment of the present invention in step 301b-step 315b can with reference to the specific descriptions of step 301c-309c corresponding content in step 301b-315b in step 301a-313a, the second application scenarios in the first application scenarios of the embodiment of the present invention and the third application scenarios, and the embodiment of the present invention repeats the specific descriptions in step 301d-step 311d no longer one by one at this.
It should be noted that, the embodiment of the present invention also provides a kind of scheme, concrete composition graphs 5, second network equipment transmits in the resource of RS or transmission of data signals at UE and does not send any information, to avoid the interference of these signals to UE transmission, ensure that these two signals all can not be subject to the interference of the signal of second network device transmission, guarantee the certainty of the Adjusted Option of making equally, the problem that the fluctuation avoided interference is brought.
Such as, in LTE system, a symbol in a corresponding time domain of RE and a subcarrier on frequency domain, a RB is to the subcarrier of 12 on corresponding frequency domain, such as shown in Fig. 9, for uplink, RS occupies the subcarrier of the even-numbered of last symbol of a subframe, then for estimating perturbation technique in advance, if first network equipment scheduling UE is being numbered the RB of 1 ~ 3 to transmission of data signals, then UE can on last symbol of subframe being numbered 3, first network device measuring is convenient to the subcarrier of the even-numbered in corresponding subcarrier sends RS to first network equipment at the RB being numbered 1 ~ 3, again on last symbol of subframe being numbered 8, the RB being numbered 1 ~ 3 on to first network equipment sending data signal.And for second network equipment, in order to not to UE send RS and data-signal cause interference, in the subframe being numbered 3, the RB being numbered 1 ~ 3 on do not send any signal, and in the subframe being numbered 8, the RB being numbered 1 ~ 3 on do not send any signal, thus avoid the interference of RS and the data-signal that UE is sent.
The transmission method of the interferometry reference signal that the embodiment of the present invention provides, subscriber equipment receives the transmission period information that the network equipment sends, and according to this transmission period information determination object transmission period, and after the dispatch receiving network equipment transmission, the transmission of reference signal is first carried out according to object transmission period and dispatch and the network equipment, carry out the transmission of data-signal again, by carrying out the transmission of RS and data-signal according to object transmission period and the network equipment, the interference be subject to when making to carry out RS transmission is identical with the interference carrying out being subject to when data-signal transmits, that is the interfere information that obtains of RS is measured identical with the interference that transmission of data signals is subject to, and then ensure that the accuracy of the Adjusted Option obtained according to the measurement result of RS, alleviate the problem of disturbance fluctuation.
Another embodiment of the present invention provides a kind of subscriber equipment, as shown in Figure 10, comprising: the first receiving element 41, first determining unit 42, second receiving element 43, transmission unit 44.
First receiving element 41, for receiving the transmission period information that the network equipment sends.
First determining unit 42, for the described transmission period information determination object transmission period obtained according to described first receiving element 41.
Second receiving element 43, for receiving the dispatch that the described network equipment sends.
Transmission unit 44, for the described dispatch that described object transmission period of obtaining according to described first determining unit 42 and described second receiving element 43 obtain, first carries out the transmission of reference signal RS with the described network equipment, then carries out the transmission of data-signal.
Wherein, described dispatch comprises frequency resource indication information, and described frequency resource indication information is used to indicate the frequency that described user equipment (UE) and the described network equipment carry out described RS and described data information transfer; Described UE and the described network equipment carry out the transmission of described RS and described data-signal in different subframe.
Further, as shown in figure 11, described subscriber equipment, can also comprise: the second determining unit 45.
Second determining unit 45, for receive transmission period information that the network equipment sends at described first receiving element 41 before, determines to estimate the UE of perturbation technique in advance from as adopting according to self-ability; Or, receive the mode indication information that the described network equipment sends, and determine certainly as the UE estimating perturbation technique described in employing in advance according to described mode indication information.
Wherein, the described perturbation technique of estimation is in advance according to described dispatch, before the described data-signal of transmission, first need carry out the technology of described RS transmission.
Further, described transmission period information is the period information that the described UE of instruction transmits described RS and described data-signal.
Described first determining unit 42, specifically for being defined as the described object transmission period by the described period information of described transmission period information instruction.
Further, described transmission period information is the second ascending-descending subframes configuration information.
Described first receiving element 41, also for before described first determining unit 42 is according to the described transmission period information determination object transmission period, receives the first ascending-descending subframes configuration information that the described network equipment sends.
Described first determining unit 42, described first ascending-descending subframes specifically for obtaining according to described first receiving element 41 configures and described transmission period information determines the described object transmission period.
Further, the described object transmission period is the target up period.
Described transmission unit 44 can comprise: sending module 441.
Sending module 441, for the described dispatch that described object transmission period of obtaining according to described first determining unit 42 and described second receiving element 43 obtain, first send described RS to the described network equipment, then send described data-signal to the described network equipment.
Further, the described object transmission period is the target downlink period.
Described transmission unit 44 can comprise: receiver module 442.
Receiver module 442, for the described dispatch that described object transmission period of obtaining according to described first determining unit 42 and described second receiving element 43 obtain, first receive the described RS that the described network equipment sends, then receive the described data-signal of described network equipment transmission.
Further, described first determining unit 42, specifically for determining that the common factor of the up period indicated by described first ascending-descending subframes configuration information and the up period indicated by described transmission period information is as the described object transmission period; Or, determine the descending period indicated by described first ascending-descending subframes configuration information and the up period indicated by described transmission period information as the described object transmission period.
Further, described first determining unit 42, specifically for determining that the common factor of the descending period indicated by described first ascending-descending subframes configuration information and the descending period indicated by described transmission period information is as the described object transmission period; Or, determine the up period indicated by described first ascending-descending subframes configuration information and the descending period indicated by described transmission period information as the described object transmission period.
Further, described subscriber equipment can also comprise: the first transmitting element 46.
First transmitting element 46, for receive at described second receiving element 43 network equipment send dispatch before, detection reference signal SRS is sent to the described network equipment, so that the described network equipment carries out measurement to described SRS obtain channel condition information CSI, and determine described dispatch according to described CSI, described dispatch is sent to described UE.
Further, described subscriber equipment can also comprise: the 3rd receiving element 47, measuring unit 48, second transmitting element 49.
3rd receiving element 47, for receive at described second receiving element 43 network equipment send dispatch before, receive the described network equipment send channel state information reference signals CSI-RS.
Measuring unit 48, the described CSI-RS for obtaining described 3rd receiving element 47 carries out measurement and obtains CSI.
Second transmitting element 49, is sent to the described network equipment for the described CSI obtained by described measuring unit 48, so that the described network equipment determines described dispatch according to described CSI, and described dispatch is sent to described UE.
Further, described sending module 441 can comprise: first sends submodule 4411, second sends submodule 4412.
First sends submodule 4411, for the described dispatch that described object transmission period of obtaining according to described first determining unit 42 and described second receiving element 43 obtain, described RS is sent, so that the described network equipment determines the receiving parameter in receiving algorithm or receiving algorithm according to described RS to the described network equipment.
Second sends submodule 4412, for the described dispatch that described object transmission period of obtaining according to described first determining unit 42 and described second receiving element 43 obtain, sends described data-signal to the described network equipment.
Further, described sending module 441 can comprise: the 3rd sends submodule 4413, first receives submodule 4414, the 4th transmission submodule 4415.
3rd sends submodule 4413, for the described dispatch that described object transmission period of obtaining according to described first determining unit 42 and described second receiving element 43 obtain, described RS is sent, so that the described network equipment is measured described RS and determined Dispatching adjustment scheme to the described network equipment.
First receives submodule 4414, for receiving the Dispatching adjustment scheme that the described network equipment sends.
4th sends submodule 4415, the described dispatch obtained for the described object transmission period obtained according to described first determining unit 42, described second receiving element 43 and described first receives the described Dispatching adjustment scheme that submodule 4414 obtains, and sends described data-signal to the described network equipment.
Further, described receiver module 442 can comprise: second receive submodule 4421, determine submodule 4422, the 3rd receive submodule 4423.
Second receives submodule 4421, for the described dispatch that described object transmission period of obtaining according to described first determining unit 42 and described second receiving element 43 obtain, receives the described RS that the described network equipment sends.
Determine submodule 4422, the described RS for obtaining according to described second reception submodule 4421 determines the receiving parameter in receiving algorithm or receiving algorithm.
3rd receives submodule 4423, for the described dispatch that the described object transmission period obtained according to described first determining unit 42, described second receiving element 43 obtain, and the described receiving parameter determined in the described receiving algorithm that submodule 4422 obtains or receiving algorithm, receive the described data-signal that the described network equipment sends.
Further, described receiver module 442 can comprise: the 4th receives submodule 4424, measurement sends submodule 4425, the 5th reception submodule 4426, the 6th receives submodule 4427.
4th receives submodule 4424, for the described dispatch that described object transmission period of obtaining according to described first determining unit 42 and described second receiving element 43 obtain, receives the described RS that the described network equipment sends.
Measure and send submodule 4425, measure for receiving the described RS that obtains of submodule 4424 to the described 4th, and measurement result is sent to the described network equipment, so that the described network equipment is to according to described measurement result determination Dispatching adjustment scheme.
5th receives submodule 4426, for receiving the Dispatching adjustment scheme that the described network equipment sends.
6th receives submodule 4427, the described dispatch obtained for the described object transmission period obtained according to described first determining unit 42, described second receiving element 43 and the described 5th receives the described Dispatching adjustment scheme that submodule 4426 obtains, and receives the described data-signal that the described network equipment sends.
The subscriber equipment that the embodiment of the present invention provides, receive the transmission period information that the network equipment sends, and according to this transmission period information determination object transmission period, and after the dispatch receiving network equipment transmission, the transmission of reference signal is first carried out according to object transmission period and dispatch and the network equipment, carry out the transmission of data-signal again, by carrying out the transmission of RS and data-signal according to object transmission period and the network equipment, the interference be subject to when making to carry out RS transmission is identical with the interference carrying out being subject to when data-signal transmits, that is the interfere information that obtains of RS is measured identical with the interference that transmission of data signals is subject to, and then ensure that the accuracy of the Adjusted Option obtained according to the measurement result of RS, alleviate the problem of disturbance fluctuation.
Another embodiment of the present invention provides a kind of first network equipment, as shown in figure 12, comprising: acquiring unit 51, first transmitting element 52, second transmitting element 53.
Acquiring unit 51, for obtaining transmission period information.
First transmitting element 52, is sent to user equipment (UE) for the described transmission period information obtained by described acquiring unit 51, so that described UE is according to the described transmission period information determination object transmission period.
Second transmitting element 53, for sending dispatch to described UE, so that described UE first carries out the transmission of reference signal RS according to described dispatch and described object transmission period and described first network equipment, then carries out the transmission of data-signal.
Wherein, described dispatch comprises frequency resource indication information, and described frequency resource indication information is used to indicate the frequency that described UE and described first network equipment carry out described RS and described data information transfer; Described UE and the described network equipment carry out the transmission of described RS and described data-signal in different subframe.
Further, described transmission period information is the period information that the described UE of instruction transmits described RS and described data-signal.
As shown in figure 13, described acquiring unit 51 can comprise: determination module 511.
Determination module 511, for determining described transmission period information according to the period of second network device transmission RS and the period of described second network equipment transmission data signal.
Further, described transmission period information is the second ascending-descending subframes configuration information.
Described acquiring unit 51 can comprise: receiver module 512.
Receiver module 512, for receiving the described transmission period information that second network equipment sends; Wherein, described transmission period information is that described second network equipment is determined according to the up-downgoing business of the community of own coverage area.
Described first network equipment, can also comprise: determining unit 54, the 3rd transmitting element 55.
Determining unit 54, determines the first ascending-descending subframes configuration information according to the up-downgoing business of the community of own coverage area.
3rd transmitting element 55, described first ascending-descending subframes configuration information for described determining unit 54 being obtained is sent to described UE, so that described UE determines the described object transmission period according to described first ascending-descending subframes configuration information and described transmission period information.
Further, described UE adopts the UE estimating perturbation technique in advance; Wherein, the described perturbation technique of estimation is in advance according to described dispatch, before the described data-signal of transmission, first need carry out the technology of described RS transmission.
Described first transmitting element 52, sends described transmission period information specifically for adopting the mode of multicast or clean culture to described UE.
Described 3rd transmitting element 55, sends described first ascending-descending subframes configuration information specifically for adopting the mode of broadcast to described UE.
The first network equipment that the embodiment of the present invention provides, transmission period information is sent to subscriber equipment, so that subscriber equipment is according to this transmission period information determination object transmission period, and send dispatch to subscriber equipment, first carry out the transmission of reference signal according to object transmission period and dispatch and first network equipment than just subscriber equipment, carry out the transmission of data-signal again, subscriber equipment is by carrying out the transmission of RS and data-signal according to object transmission period and first network equipment, the interference be subject to when making to carry out RS transmission is identical with the interference carrying out being subject to when data-signal transmits, that is the interfere information that obtains of RS is measured identical with the interference that transmission of data signals is subject to, and then ensure that the accuracy of the Adjusted Option obtained according to the measurement result of RS, alleviate the problem of disturbance fluctuation.
Another embodiment of the present invention provides a kind of subscriber equipment, as shown in figure 14, comprise: at least one processor 61, memory 62, communication interface 63 and bus 74, this at least one processor 61, memory 62 and communication interface 63 are connected by bus 74 and complete mutual communication, wherein:
Described bus 74 can be industry standard architecture (Industry StandardArchitecture, ISA) bus, peripheral component interconnect (Peripheral ComponentInterconnect, PCI) bus or extended industry-standard architecture (Extended IndustryStandard Architecture, EISA) bus etc.This bus 74 can be divided into address bus, data/address bus, control bus etc.For ease of representing, only representing with a thick line in Figure 14, but not representing the bus only having a bus or a type.
Described memory 62 is for stores executable programs code, and this program code comprises computer-managed instruction.Memory 62 may comprise high-speed RAM memory, still may comprise nonvolatile memory (non-volatile memory), such as at least one magnetic disc store.
Described processor 61 may be a central processing unit (Central Processing Unit, CPU), or specific integrated circuit (Application Specific Integrated Circuit, or be configured to implement one or more integrated circuits of the embodiment of the present invention ASIC).
Described communication interface 63, is mainly used in the communication realized between the equipment of the present embodiment.
Described processor 61, for performing the executable program code stored in described memory 62, concrete for performing following operation:
Described processor 61, for receiving the transmission period information that the network equipment sends; According to the described transmission period information determination object transmission period; Receive the dispatch that the described network equipment sends; According to described object transmission period and described dispatch, first carry out the transmission of reference signal RS with the described network equipment, then carry out the transmission of data-signal.
Wherein, described dispatch comprises frequency resource indication information, and described frequency resource indication information is used to indicate the frequency that described user equipment (UE) and the described network equipment carry out described RS and described data information transfer; Described UE and the described network equipment carry out the transmission of described RS and described data-signal in different subframe.
Further, described processor 61, also for determining the UE from estimating perturbation technique in advance as employing according to self-ability; Or, receive the mode indication information that the described network equipment sends, and determine certainly as the UE estimating perturbation technique described in employing in advance according to described mode indication information.
Wherein, the described perturbation technique of estimation is in advance according to described dispatch, before the described data-signal of transmission, first need carry out the technology of described RS transmission.
Further, described transmission period information is the period information that the described UE of instruction transmits described RS and described data-signal.
Described processor 61, also for the described period information of described transmission period information instruction is defined as the described object transmission period.
Further, described transmission period information is the second ascending-descending subframes configuration information.
Described processor 61, also for described according to the described transmission period information determination object transmission period before, receive the described network equipment send the first ascending-descending subframes configuration information.
Described processor 61, also for determining the described object transmission period according to described first ascending-descending subframes configuration and described transmission period information.
Further, the described object transmission period is the target up period.
Described processor 61, also for according to described object transmission period and described dispatch, first sends described RS to the described network equipment, then sends described data-signal to the described network equipment.
Further, the described object transmission period is the target downlink period.
Described processor 61, also for according to described object transmission period and described dispatch, first receives the described RS that the described network equipment sends, then receives the described data-signal of described network equipment transmission.
Further, described processor 61, also for determining that the common factor of the up period indicated by described first ascending-descending subframes configuration information and the up period indicated by described transmission period information is as the described object transmission period; Or, determine the descending period indicated by described first ascending-descending subframes configuration information and the up period indicated by described transmission period information as the described object transmission period.
Further, described processor 61, also for determining that the common factor of the descending period indicated by described first ascending-descending subframes configuration information and the descending period indicated by described transmission period information is as the described object transmission period; Or, determine the up period indicated by described first ascending-descending subframes configuration information and the descending period indicated by described transmission period information as the described object transmission period.
Further, described processor 61, also for before the dispatch of described reception network equipment transmission, detection reference signal SRS is sent to the described network equipment, so that the described network equipment carries out measurement to described SRS obtain channel condition information CSI, and determine described dispatch according to described CSI, described dispatch is sent to described UE.
Further, described processor 61, also for before the dispatch of described reception network equipment transmission, receives the channel state information reference signals CSI-RS that the described network equipment sends; Measurement is carried out to described CSI-RS and obtains CSI; Described CSI is sent to the described network equipment, so that the described network equipment determines described dispatch according to described CSI, and described dispatch is sent to described UE.
Further, described processor 61, also for according to described object transmission period and described dispatch, sends described RS to the described network equipment, so that the described network equipment determines the receiving parameter in receiving algorithm or receiving algorithm according to described RS; According to described object transmission period and described dispatch, send described data-signal to the described network equipment.
Further, described processor 61, also for according to described object transmission period and described dispatch, sends described RS to the described network equipment, so that the described network equipment is measured described RS and determined Dispatching adjustment scheme; Receive the Dispatching adjustment scheme that the described network equipment sends; According to described object transmission period, described dispatch and described Dispatching adjustment scheme, send described data-signal to the described network equipment.
Further, described processor 61, also for according to described object transmission period and described dispatch, receives the described RS that the described network equipment sends; The receiving parameter in receiving algorithm or receiving algorithm is determined according to described RS; According to described object transmission period, described dispatch, and the receiving parameter in described receiving algorithm or receiving algorithm, receive the described data-signal that the described network equipment sends.
Further, described processor 61, also for according to described object transmission period and described dispatch, receives the described RS that the described network equipment sends; Described RS is measured, and measurement result is sent to the described network equipment, so that the described network equipment is to according to described measurement result determination Dispatching adjustment scheme; Receive the Dispatching adjustment scheme that the described network equipment sends; According to described object transmission period, described dispatch and described Dispatching adjustment scheme, receive the described data-signal that the described network equipment sends.
The subscriber equipment that the embodiment of the present invention provides, receive the transmission period information that the network equipment sends, and according to this transmission period information determination object transmission period, and after the dispatch receiving network equipment transmission, the transmission of reference signal is first carried out according to object transmission period and dispatch and the network equipment, carry out the transmission of data-signal again, by carrying out the transmission of RS and data-signal according to object transmission period and the network equipment, the interference be subject to when making to carry out RS transmission is identical with the interference carrying out being subject to when data-signal transmits, that is the interfere information that obtains of RS is measured identical with the interference that transmission of data signals is subject to, and then ensure that the accuracy of the Adjusted Option obtained according to the measurement result of RS, alleviate the problem of disturbance fluctuation.
Another embodiment of the present invention provides a kind of first network equipment, as shown in figure 15, comprise: at least one processor 71, memory 72, communication interface 73 and bus 74, this at least one processor 71, memory 72 and communication interface 73 are connected by bus 74 and complete mutual communication, wherein:
Described bus 74 can be industry standard architecture (Industry StandardArchitecture, ISA) bus, peripheral component interconnect (Peripheral ComponentInterconnect, PCI) bus or extended industry-standard architecture (Extended IndustryStandard Architecture, EISA) bus etc.This bus 74 can be divided into address bus, data/address bus, control bus etc.For ease of representing, only representing with a thick line in Figure 15, but not representing the bus only having a bus or a type.
Described memory 72 is for stores executable programs code, and this program code comprises computer-managed instruction.Memory 72 may comprise high-speed RAM memory, still may comprise nonvolatile memory (non-volatile memory), such as at least one magnetic disc store.
Described processor 71 may be a central processing unit (Central Processing Unit, CPU), or specific integrated circuit (Application Specific Integrated Circuit, or be configured to implement one or more integrated circuits of the embodiment of the present invention ASIC).
Described communication interface 73, is mainly used in the communication realized between the equipment of the present embodiment.
Described processor 71, for performing the executable program code stored in described memory 72, concrete for performing following operation:
Described processor 71, for obtaining transmission period information; Described transmission period information is sent to user equipment (UE), so that described UE is according to the described transmission period information determination object transmission period; Send dispatch to described UE, so that described UE first carries out the transmission of reference signal RS according to described dispatch and described object transmission period and described first network equipment, then carry out the transmission of data-signal.
Wherein, described dispatch comprises frequency resource indication information, and described frequency resource indication information is used to indicate the frequency that described UE and described first network equipment carry out described RS and described data information transfer; Described UE and the described network equipment carry out the transmission of described RS and described data-signal in different subframe.
Further, described transmission period information is the period information that the described UE of instruction transmits described RS and described data-signal.
Described processor 71, also for determining described transmission period information according to the period of second network device transmission RS and the period of described second network equipment transmission data signal.
Further, described transmission period information is the second ascending-descending subframes configuration information.
Described processor 71, also for receiving the described transmission period information that second network equipment sends; Wherein, described transmission period information is that described second network equipment is determined according to the up-downgoing business of the community of own coverage area.
Described processor 71, the up-downgoing business also for the community according to own coverage area determines the first ascending-descending subframes configuration information; The described first ascending-descending subframes configuration information described determining unit obtained is sent to described UE, so that described UE determines the described object transmission period according to described first ascending-descending subframes configuration information and described transmission period information.
Further, described UE adopts the UE estimating perturbation technique in advance; Wherein, the described perturbation technique of estimation is in advance according to described dispatch, before the described data-signal of transmission, first need carry out the technology of described RS transmission.
Described processor 71, also for adopting the mode of multicast or clean culture to send described transmission period information to described UE; The mode of broadcast is adopted to send described first ascending-descending subframes configuration information to described UE.
The first network equipment that the embodiment of the present invention provides, transmission period information is sent to subscriber equipment, so that subscriber equipment is according to this transmission period information determination object transmission period, and send dispatch to subscriber equipment, first carry out the transmission of reference signal according to object transmission period and dispatch and first network equipment than just subscriber equipment, carry out the transmission of data-signal again, subscriber equipment is by carrying out the transmission of RS and data-signal according to object transmission period and first network equipment, the interference be subject to when making to carry out RS transmission is identical with the interference carrying out being subject to when data-signal transmits, that is the interfere information that obtains of RS is measured identical with the interference that transmission of data signals is subject to, and then ensure that the accuracy of the Adjusted Option obtained according to the measurement result of RS, alleviate the problem of disturbance fluctuation.
Through the above description of the embodiments, those skilled in the art can be well understood to the mode that the present invention can add required common hardware by software and realize, and can certainly pass through hardware, but in a lot of situation, the former is better execution mode.Based on such understanding, technical scheme of the present invention can embody with the form of software product the part that prior art contributes in essence in other words, this computer software product is stored in the storage medium that can read, as the floppy disk of computer, hard disk or CD etc., comprise some instructions and perform method described in each embodiment of the present invention in order to make a computer equipment (can be personal computer, server, or the network equipment etc.).
The above; be only the specific embodiment of the present invention, but protection scope of the present invention is not limited thereto, is anyly familiar with those skilled in the art in the technical scope that the present invention discloses; the change that can expect easily or replacement, all should be encompassed within protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with the protection range of described claim.

Claims (54)

1. a transmission method for interferometry reference signal, is characterized in that, comprising:
User equipment (UE) receives the transmission period information that the network equipment sends;
Described UE is according to the described transmission period information determination object transmission period;
Described UE receives the dispatch that the described network equipment sends;
Described UE, according to described object transmission period and described dispatch, first carries out the transmission of reference signal RS with the described network equipment, then carries out the transmission of data-signal;
Wherein, described dispatch comprises frequency resource indication information, and described frequency resource indication information is used to indicate the frequency that described UE and the described network equipment carry out described RS and described data information transfer; Described UE and the described network equipment carry out the transmission of described RS and described data-signal in different subframe.
2. the transmission method of interferometry reference signal according to claim 1, is characterized in that, before receiving the transmission period information of network equipment transmission, also comprises at described user equipment (UE):
Described UE determines the UE from estimating perturbation technique in advance as employing according to self-ability;
Or described UE receives the mode indication information that the described network equipment sends, and determine certainly as the UE estimating perturbation technique described in employing in advance according to described mode indication information;
Wherein, the described perturbation technique of estimation is in advance according to described dispatch, before the described data-signal of transmission, first need carry out the technology of described RS transmission.
3. the transmission method of interferometry reference signal according to claim 1 and 2, is characterized in that, described transmission period information is the period information that the described UE of instruction transmits described RS and described data-signal;
Described UE, according to the described transmission period information determination object transmission period, comprising:
The described period information that described transmission period information indicates is defined as the described object transmission period by described UE.
4. the transmission method of interferometry reference signal according to claim 1 and 2, is characterized in that, described transmission period information is the second ascending-descending subframes configuration information;
Before described UE is according to the described transmission period information determination object transmission period, also comprise:
Described UE receives the first ascending-descending subframes configuration information that the described network equipment sends;
Described UE, according to the described transmission period information determination object transmission period, comprising:
Described UE determines the described object transmission period according to described first ascending-descending subframes configuration and described transmission period information.
5. the transmission method of the interferometry reference signal according to any one of claim 1-4, is characterized in that, the described object transmission period is the target up period;
Described UE, according to described object transmission period and described dispatch, first carries out the transmission of reference signal RS with the described network equipment, then carries out the transmission of data-signal, comprising:
Described UE, according to described object transmission period and described dispatch, first sends described RS to the described network equipment, then sends described data-signal to the described network equipment.
6. the transmission method of the interferometry reference signal according to any one of claim 1-4, is characterized in that, the described object transmission period is the target downlink period;
Described UE, according to described object transmission period and described dispatch, first carries out the transmission of reference signal RS with the described network equipment, then carries out the transmission of data-signal, comprising:
Described UE, according to described object transmission period and described dispatch, first receives the described RS that the described network equipment sends, then receives the described data-signal of described network equipment transmission.
7. the transmission method of the interferometry reference signal according to claim 4 or 5, is characterized in that, described UE determines the described object transmission period according to described first ascending-descending subframes configuration and described transmission period information, comprising:
Described UE determines that the common factor of the up period indicated by described first ascending-descending subframes configuration information and the up period indicated by described transmission period information is as the described object transmission period;
Or, described UE determine the descending period indicated by described first ascending-descending subframes configuration information and the up period indicated by described transmission period information as the described object transmission period.
8. the transmission method of the interferometry reference signal according to claim 4 or 6, is characterized in that, described UE determines the described object transmission period according to described first ascending-descending subframes configuration and described transmission period information, comprising:
Described UE determines that the common factor of the descending period indicated by described first ascending-descending subframes configuration information and the descending period indicated by described transmission period information is as the described object transmission period;
Or, described UE determine the up period indicated by described first ascending-descending subframes configuration information and the descending period indicated by described transmission period information as the described object transmission period.
9. the transmission method of the interferometry reference signal according to any one of claim 1-5,7, is characterized in that, before receiving the dispatch of network equipment transmission, also comprises at described UE:
Described UE sends detection reference signal SRS to the described network equipment, so that the described network equipment carries out measurement to described SRS obtain channel condition information CSI, and determines described dispatch according to described CSI, described dispatch is sent to described UE.
10. the transmission method of the interferometry reference signal according to any one of claim 1-4,6,8, is characterized in that, before receiving the dispatch of network equipment transmission, also comprises at described UE:
Described UE receives the channel state information reference signals CSI-RS that the described network equipment sends;
Described UE carries out measurement to described CSI-RS and obtains CSI;
Described CSI is sent to the described network equipment by described UE, so that the described network equipment determines described dispatch according to described CSI, and described dispatch is sent to described UE.
The transmission method of 11. interferometry reference signals according to any one of claim 5,7,9, it is characterized in that, described UE is according to described object transmission period and described dispatch, first send described RS to the described network equipment, send described data-signal to the described network equipment again, comprising:
Described UE, according to described object transmission period and described dispatch, sends described RS to the described network equipment, so that the described network equipment determines the receiving parameter in receiving algorithm or receiving algorithm according to described RS;
Described UE, according to described object transmission period and described dispatch, sends described data-signal to the described network equipment.
The transmission method of 12. interferometry reference signals according to any one of claim 5,7,9, it is characterized in that, described UE is according to described object transmission period and described dispatch, first send described RS to the described network equipment, send described data-signal to the described network equipment again, comprising:
Described UE, according to described object transmission period and described dispatch, sends described RS to the described network equipment, so that the described network equipment is measured described RS and determined Dispatching adjustment scheme;
Described UE receives the Dispatching adjustment scheme that the described network equipment sends;
Described UE, according to described object transmission period, described dispatch and described Dispatching adjustment scheme, sends described data-signal to the described network equipment.
The transmission method of 13. interferometry reference signals according to any one of claim 6,8,10, it is characterized in that, described UE is according to described object transmission period and described dispatch, first receive the described RS that the described network equipment sends, receive the described data-signal that the described network equipment sends again, comprising:
Described UE, according to described object transmission period and described dispatch, receives the described RS that the described network equipment sends;
Described UE determines the receiving parameter in receiving algorithm or receiving algorithm according to described RS;
Described UE is according to described object transmission period, described dispatch, and the receiving parameter in described receiving algorithm or receiving algorithm, receives the described data-signal that the described network equipment sends.
The transmission method of 14. interferometry reference signals according to any one of claim 6,8,10, it is characterized in that, described UE is according to described object transmission period and described dispatch, first receive the described RS that the described network equipment sends, receive the described data-signal that the described network equipment sends again, comprising:
Described UE, according to described object transmission period and described dispatch, receives the described RS that the described network equipment sends;
Described UE measures described RS, and measurement result is sent to the described network equipment, so that the described network equipment is to according to described measurement result determination Dispatching adjustment scheme;
Described UE receives the Dispatching adjustment scheme that the described network equipment sends;
Described UE, according to described object transmission period, described dispatch and described Dispatching adjustment scheme, receives the described data-signal that the described network equipment sends.
The transmission method of 15. 1 kinds of interferometry reference signals, is characterized in that, comprising:
First network equipment obtains transmission period information;
Described transmission period information is sent to user equipment (UE) by described first network equipment, so that described UE is according to the described transmission period information determination object transmission period;
Described first network equipment sends dispatch to described UE, so that described UE first carries out the transmission of reference signal RS according to described dispatch and described object transmission period and described first network equipment, then carries out the transmission of data-signal;
Wherein, described dispatch comprises frequency resource indication information, and described frequency resource indication information is used to indicate the frequency that described UE and described first network equipment carry out described RS and described data information transfer; Described UE and the described network equipment carry out the transmission of described RS and described data-signal in different subframe.
The transmission method of 16. interferometry reference signals according to claim 15, is characterized in that, described transmission period information is the period information that the described UE of instruction transmits described RS and described data-signal;
Described first network equipment obtains transmission period information, comprising:
Described first network equipment determines described transmission period information according to the period of the period of second network device transmission RS and described second network equipment transmission data signal.
The transmission method of 17. interferometry reference signals according to claim 15, is characterized in that, described transmission period information is the second ascending-descending subframes configuration information;
Described first network equipment obtains transmission period information, comprising:
Described first network equipment receives the described transmission period information that second network equipment sends; Wherein, described transmission period information is that described second network equipment is determined according to the up-downgoing business of the community of own coverage area;
Described method also comprises:
Described first network equipment determines the first ascending-descending subframes configuration information according to the up-downgoing business of the community of own coverage area;
Described first ascending-descending subframes configuration information is sent to described UE by described first network equipment, so that described UE determines the described object transmission period according to described first ascending-descending subframes configuration information and described transmission period information.
The transmission method of 18. interferometry reference signals according to any one of claim 15-17, is characterized in that, described UE adopts the UE estimating perturbation technique in advance; Wherein, the described perturbation technique of estimation is in advance according to described dispatch, before the described data-signal of transmission, first need carry out the technology of described RS transmission;
Described transmission period information is sent to user equipment (UE) by described first network equipment, comprising:
Described first network equipment adopts the mode of multicast or clean culture to send described transmission period information to described UE;
Described first ascending-descending subframes configuration information is sent to described UE by described first network equipment, comprising:
Described first network equipment adopts the mode of broadcast to send described first ascending-descending subframes configuration information to described UE.
19. 1 kinds of subscriber equipmenies, is characterized in that, comprising:
First receiving element, for receiving the transmission period information that the network equipment sends;
First determining unit, for the described transmission period information determination object transmission period obtained according to described first receiving element;
Second receiving element, for receiving the dispatch that the described network equipment sends;
Transmission unit, for the described dispatch that described object transmission period of obtaining according to described first determining unit and described second receiving element obtain, first carries out the transmission of reference signal RS with the described network equipment, then carries out the transmission of data-signal;
Wherein, described dispatch comprises frequency resource indication information, and described frequency resource indication information is used to indicate the frequency that described user equipment (UE) and the described network equipment carry out described RS and described data information transfer; Described UE and the described network equipment carry out the transmission of described RS and described data-signal in different subframe.
20. subscriber equipmenies according to claim 19, is characterized in that, also comprise:
Second determining unit, before receiving the transmission period information of network equipment transmission at described first receiving element, determines the UE from estimating perturbation technique in advance as employing according to self-ability; Or, receive the mode indication information that the described network equipment sends, and determine certainly as the UE estimating perturbation technique described in employing in advance according to described mode indication information;
Wherein, the described perturbation technique of estimation is in advance according to described dispatch, before the described data-signal of transmission, first need carry out the technology of described RS transmission.
21. subscriber equipmenies according to claim 19 or 20, is characterized in that, described transmission period information is the period information that the described UE of instruction transmits described RS and described data-signal;
Described first determining unit, specifically for being defined as the described object transmission period by the described period information of described transmission period information instruction.
22. subscriber equipmenies according to claim 19 or 20, it is characterized in that, described transmission period information is the second ascending-descending subframes configuration information;
Described first receiving element, also for before described first determining unit is according to the described transmission period information determination object transmission period, receives the first ascending-descending subframes configuration information that the described network equipment sends;
Described first determining unit, described first ascending-descending subframes specifically for obtaining according to described first receiving element configures and described transmission period information determines the described object transmission period.
23. subscriber equipmenies according to any one of claim 19-22, it is characterized in that, the described object transmission period is the target up period;
Described transmission unit, comprising:
Sending module, for the described dispatch that described object transmission period of obtaining according to described first determining unit and described second receiving element obtain, first sends described RS to the described network equipment, then send described data-signal to the described network equipment.
24. subscriber equipmenies according to any one of claim 19-22, it is characterized in that, the described object transmission period is the target downlink period;
Described transmission unit, comprising:
Receiver module, for the described dispatch that described object transmission period of obtaining according to described first determining unit and described second receiving element obtain, first receive the described RS that the described network equipment sends, then receive the described data-signal of described network equipment transmission.
25. subscriber equipmenies according to claim 22 or 23, is characterized in that,
Described first determining unit, specifically for determining that the common factor of the up period indicated by described first ascending-descending subframes configuration information and the up period indicated by described transmission period information is as the described object transmission period; Or, determine the descending period indicated by described first ascending-descending subframes configuration information and the up period indicated by described transmission period information as the described object transmission period.
26., according to the subscriber equipment of claim 22 or 24, is characterized in that,
Described first determining unit, specifically for determining that the common factor of the descending period indicated by described first ascending-descending subframes configuration information and the descending period indicated by described transmission period information is as the described object transmission period; Or, determine the up period indicated by described first ascending-descending subframes configuration information and the descending period indicated by described transmission period information as the described object transmission period.
27. subscriber equipmenies according to any one of claim 19-23,25, is characterized in that, also comprise:
First transmitting element, before receiving the dispatch of network equipment transmission at described second receiving element, detection reference signal SRS is sent to the described network equipment, so that the described network equipment carries out measurement to described SRS obtain channel condition information CSI, and determine described dispatch according to described CSI, described dispatch is sent to described UE.
28. subscriber equipmenies according to any one of claim 19-22,24,26, is characterized in that, also comprise:
3rd receiving element, before receiving the dispatch of network equipment transmission at described second receiving element, receives the channel state information reference signals CSI-RS that the described network equipment sends;
Measuring unit, the described CSI-RS for obtaining described 3rd receiving element carries out measurement and obtains CSI;
Second transmitting element, is sent to the described network equipment for the described CSI obtained by described measuring unit, so that the described network equipment determines described dispatch according to described CSI, and described dispatch is sent to described UE.
29. subscriber equipmenies according to any one of claim 23,25,27, it is characterized in that, described sending module, comprising:
First sends submodule, for the described dispatch that described object transmission period of obtaining according to described first determining unit and described second receiving element obtain, described RS is sent, so that the described network equipment determines the receiving parameter in receiving algorithm or receiving algorithm according to described RS to the described network equipment;
Second sends submodule, for the described dispatch that described object transmission period of obtaining according to described first determining unit and described second receiving element obtain, sends described data-signal to the described network equipment.
30. subscriber equipmenies according to any one of claim 23,25,27, it is characterized in that, described sending module, comprising:
3rd sends submodule, for the described dispatch that described object transmission period of obtaining according to described first determining unit and described second receiving element obtain, described RS is sent, so that the described network equipment is measured described RS and determined Dispatching adjustment scheme to the described network equipment;
First receives submodule, for receiving the Dispatching adjustment scheme that the described network equipment sends;
4th sends submodule, the described dispatch obtained for the described object transmission period obtained according to described first determining unit, described second receiving element and described first receives the described Dispatching adjustment scheme that submodule obtains, and sends described data-signal to the described network equipment.
31. subscriber equipmenies according to any one of claim 24,26,28, it is characterized in that, described receiver module, comprising:
Second receives submodule, for the described dispatch that described object transmission period of obtaining according to described first determining unit and described second receiving element obtain, receives the described RS that the described network equipment sends;
Determine submodule, the described RS for obtaining according to described second reception submodule determines the receiving parameter in receiving algorithm or receiving algorithm;
3rd receives submodule, for the described dispatch that the described object transmission period obtained according to described first determining unit, described second receiving element obtain, and the described receiving parameter determined in the described receiving algorithm that submodule obtains or receiving algorithm, receive the described data-signal that the described network equipment sends.
32. subscriber equipmenies according to any one of claim 24,26,28, it is characterized in that, described receiver module, comprising:
4th receives submodule, for the described dispatch that described object transmission period of obtaining according to described first determining unit and described second receiving element obtain, receives the described RS that the described network equipment sends;
Measure and send submodule, measure for receiving the described RS that obtains of submodule to the described 4th, and measurement result is sent to the described network equipment, so that the described network equipment is to according to described measurement result determination Dispatching adjustment scheme;
5th receives submodule, for receiving the Dispatching adjustment scheme that the described network equipment sends;
6th receives submodule, the described dispatch obtained for the described object transmission period obtained according to described first determining unit, described second receiving element and the described 5th receives the described Dispatching adjustment scheme that submodule obtains, and receives the described data-signal that the described network equipment sends.
33. 1 kinds of first network equipment, is characterized in that, comprising:
Acquiring unit, for obtaining transmission period information;
First transmitting element, is sent to user equipment (UE) for the described transmission period information obtained by described acquiring unit, so that described UE is according to the described transmission period information determination object transmission period;
Second transmitting element, for sending dispatch to described UE, so that described UE first carries out the transmission of reference signal RS according to described dispatch and described object transmission period and described first network equipment, then carries out the transmission of data-signal;
Wherein, described dispatch comprises frequency resource indication information, and described frequency resource indication information is used to indicate the frequency that described UE and described first network equipment carry out described RS and described data information transfer; Described UE and the described network equipment carry out the transmission of described RS and described data-signal in different subframe.
34. first network equipment according to claim 33, is characterized in that, described transmission period information is the period information that the described UE of instruction transmits described RS and described data-signal;
Described acquiring unit, comprising:
Determination module, for determining described transmission period information according to the period of second network device transmission RS and the period of described second network equipment transmission data signal.
35. first network equipment according to claim 33, is characterized in that, described transmission period information is the second ascending-descending subframes configuration information;
Described acquiring unit, comprising:
Receiver module, for receiving the described transmission period information that second network equipment sends; Wherein, described transmission period information is that described second network equipment is determined according to the up-downgoing business of the community of own coverage area;
Described first network equipment, also comprises:
Determining unit, determines the first ascending-descending subframes configuration information according to the up-downgoing business of the community of own coverage area;
3rd transmitting element, is sent to described UE for the described first ascending-descending subframes configuration information described determining unit obtained, so that described UE determines the described object transmission period according to described first ascending-descending subframes configuration information and described transmission period information.
36. first network equipment according to any one of claim 33-35, is characterized in that, described UE adopts the UE estimating perturbation technique in advance; Wherein, the described perturbation technique of estimation is in advance according to described dispatch, before the described data-signal of transmission, first need carry out the technology of described RS transmission;
Described first transmitting element, sends described transmission period information specifically for adopting the mode of multicast or clean culture to described UE;
Described 3rd transmitting element, sends described first ascending-descending subframes configuration information specifically for adopting the mode of broadcast to described UE.
37. 1 kinds of subscriber equipmenies, is characterized in that, comprising: at least one processor, memory, communication interface and bus, and at least one processor described, described memory and described communication interface are connected by described bus and complete mutual communication;
Described processor, for performing storage executable program code in which memory, concrete for performing following operation:
Described processor, for receiving the transmission period information that the network equipment sends; According to the described transmission period information determination object transmission period; Receive the dispatch that the described network equipment sends; According to described object transmission period and described dispatch, first carry out the transmission of reference signal RS with the described network equipment, then carry out the transmission of data-signal;
Wherein, described dispatch comprises frequency resource indication information, and described frequency resource indication information is used to indicate the frequency that described user equipment (UE) and the described network equipment carry out described RS and described data information transfer; Described UE and the described network equipment carry out the transmission of described RS and described data-signal in different subframe.
38., according to subscriber equipment according to claim 37, is characterized in that,
Described processor, also for determining the UE from estimating perturbation technique in advance as employing according to self-ability; Or, receive the mode indication information that the described network equipment sends, and determine certainly as the UE estimating perturbation technique described in employing in advance according to described mode indication information;
Wherein, the described perturbation technique of estimation is in advance according to described dispatch, before the described data-signal of transmission, first need carry out the technology of described RS transmission.
39. subscriber equipmenies according to claim 37 or 38, is characterized in that, described transmission period information is the period information that the described UE of instruction transmits described RS and described data-signal;
Described processor, also for the described period information of described transmission period information instruction is defined as the described object transmission period.
40. subscriber equipmenies according to claim 37 or 38, it is characterized in that, described transmission period information is the second ascending-descending subframes configuration information;
Described processor, also for described according to the described transmission period information determination object transmission period before, receive the described network equipment send the first ascending-descending subframes configuration information;
Described processor, also for determining the described object transmission period according to described first ascending-descending subframes configuration and described transmission period information.
41. subscriber equipmenies according to any one of claim 37-40, it is characterized in that, the described object transmission period is the target up period;
Described processor, also for according to described object transmission period and described dispatch, first sends described RS to the described network equipment, then sends described data-signal to the described network equipment.
42. subscriber equipmenies according to any one of claim 37-40, it is characterized in that, the described object transmission period is the target downlink period;
Described processor, also for according to described object transmission period and described dispatch, first receives the described RS that the described network equipment sends, then receives the described data-signal of described network equipment transmission.
43. subscriber equipmenies according to claim 40 or 41, is characterized in that,
Described processor, also for determining that the common factor of the up period indicated by described first ascending-descending subframes configuration information and the up period indicated by described transmission period information is as the described object transmission period; Or, determine the descending period indicated by described first ascending-descending subframes configuration information and the up period indicated by described transmission period information as the described object transmission period.
44., according to the subscriber equipment of claim 40 or 42, is characterized in that,
Described processor, also for determining that the common factor of the descending period indicated by described first ascending-descending subframes configuration information and the descending period indicated by described transmission period information is as the described object transmission period; Or, determine the up period indicated by described first ascending-descending subframes configuration information and the descending period indicated by described transmission period information as the described object transmission period.
45. subscriber equipmenies according to any one of claim 37-41,43, is characterized in that,
Described processor, also for before the dispatch of described reception network equipment transmission, detection reference signal SRS is sent to the described network equipment, so that the described network equipment carries out measurement to described SRS obtain channel condition information CSI, and determine described dispatch according to described CSI, described dispatch is sent to described UE.
46. subscriber equipmenies according to any one of claim 37-40,42,44, is characterized in that,
Described processor, also for before the dispatch of described reception network equipment transmission, receives the channel state information reference signals CSI-RS that the described network equipment sends; Measurement is carried out to described CSI-RS and obtains CSI; Described CSI is sent to the described network equipment, so that the described network equipment determines described dispatch according to described CSI, and described dispatch is sent to described UE.
47. subscriber equipmenies according to any one of claim 41,43,45, is characterized in that,
Described processor, also for according to described object transmission period and described dispatch, sends described RS to the described network equipment, so that the described network equipment determines the receiving parameter in receiving algorithm or receiving algorithm according to described RS; According to described object transmission period and described dispatch, send described data-signal to the described network equipment.
48. subscriber equipmenies according to any one of claim 41,43,45, is characterized in that,
Described processor, also for according to described object transmission period and described dispatch, sends described RS to the described network equipment, so that the described network equipment is measured described RS and determined Dispatching adjustment scheme; Receive the Dispatching adjustment scheme that the described network equipment sends; According to described object transmission period, described dispatch and described Dispatching adjustment scheme, send described data-signal to the described network equipment.
49. subscriber equipmenies according to any one of claim 42,44,46, is characterized in that,
Described processor, also for according to described object transmission period and described dispatch, receives the described RS that the described network equipment sends; The receiving parameter in receiving algorithm or receiving algorithm is determined according to described RS; According to described object transmission period, described dispatch, and the receiving parameter in described receiving algorithm or receiving algorithm, receive the described data-signal that the described network equipment sends.
50. subscriber equipmenies according to any one of claim 42,44,46, is characterized in that,
Described processor, also for according to described object transmission period and described dispatch, receives the described RS that the described network equipment sends; Described RS is measured, and measurement result is sent to the described network equipment, so that the described network equipment is to according to described measurement result determination Dispatching adjustment scheme; Receive the Dispatching adjustment scheme that the described network equipment sends; According to described object transmission period, described dispatch and described Dispatching adjustment scheme, receive the described data-signal that the described network equipment sends.
51. 1 kinds of first network equipment, is characterized in that, comprising: at least one processor, memory, communication interface and bus, and at least one processor described, described memory and described communication interface are connected by described bus and complete mutual communication;
Described processor, for performing storage executable program code in which memory, concrete for performing following operation:
Described processor, for obtaining transmission period information; Described transmission period information is sent to user equipment (UE), so that described UE is according to the described transmission period information determination object transmission period; Send dispatch to described UE, so that described UE first carries out the transmission of reference signal RS according to described dispatch and described object transmission period and described first network equipment, then carry out the transmission of data-signal;
Wherein, described dispatch comprises frequency resource indication information, and described frequency resource indication information is used to indicate the frequency that described UE and described first network equipment carry out described RS and described data information transfer; Described UE and the described network equipment carry out the transmission of described RS and described data-signal in different subframe.
52. first network equipment according to claim 51, is characterized in that, described transmission period information is the period information that the described UE of instruction transmits described RS and described data-signal;
Described processor, also for determining described transmission period information according to the period of second network device transmission RS and the period of described second network equipment transmission data signal.
53. first network equipment according to claim 51, is characterized in that, described transmission period information is the second ascending-descending subframes configuration information;
Described processor, also for receiving the described transmission period information that second network equipment sends; Wherein, described transmission period information is that described second network equipment is determined according to the up-downgoing business of the community of own coverage area;
Described processor, the up-downgoing business also for the community according to own coverage area determines the first ascending-descending subframes configuration information; The described first ascending-descending subframes configuration information described determining unit obtained is sent to described UE, so that described UE determines the described object transmission period according to described first ascending-descending subframes configuration information and described transmission period information.
54. first network equipment according to any one of claim 51-53, is characterized in that, described UE adopts the UE estimating perturbation technique in advance; Wherein, the described perturbation technique of estimation is in advance according to described dispatch, before the described data-signal of transmission, first need carry out the technology of described RS transmission;
Described processor, also for adopting the mode of multicast or clean culture to send described transmission period information to described UE; The mode of broadcast is adopted to send described first ascending-descending subframes configuration information to described UE.
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Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2019029464A1 (en) * 2017-08-07 2019-02-14 华为技术有限公司 Data transmission method and device for flexible duplex system
CN109392158A (en) * 2017-08-07 2019-02-26 华为技术有限公司 Data transmission method and equipment for flexible duplex system
WO2019201350A1 (en) * 2018-04-20 2019-10-24 华为技术有限公司 Signal processing method and apparatus
CN110603743A (en) * 2017-08-09 2019-12-20 Oppo广东移动通信有限公司 Downlink signal transmission method, terminal equipment and network equipment
WO2021163900A1 (en) * 2020-02-18 2021-08-26 华为技术有限公司 Reference signal transmission method and related device
WO2024197960A1 (en) * 2023-03-31 2024-10-03 北京小米移动软件有限公司 Interference measurement method, apparatus and device, and storage medium

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101584132A (en) * 2007-01-09 2009-11-18 株式会社Ntt都科摩 Base station device, user device, and method used in mobile communication system
CN102448088A (en) * 2010-09-30 2012-05-09 华为技术有限公司 Method for indicating measurement resources, measurement method and device
US20120327881A1 (en) * 2010-03-01 2012-12-27 Hiroshi Nakano Communication system, transmitter, receiver and communication method

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101584132A (en) * 2007-01-09 2009-11-18 株式会社Ntt都科摩 Base station device, user device, and method used in mobile communication system
US20120327881A1 (en) * 2010-03-01 2012-12-27 Hiroshi Nakano Communication system, transmitter, receiver and communication method
CN102448088A (en) * 2010-09-30 2012-05-09 华为技术有限公司 Method for indicating measurement resources, measurement method and device

Cited By (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2019029464A1 (en) * 2017-08-07 2019-02-14 华为技术有限公司 Data transmission method and device for flexible duplex system
CN109392158A (en) * 2017-08-07 2019-02-26 华为技术有限公司 Data transmission method and equipment for flexible duplex system
CN109392158B (en) * 2017-08-07 2020-10-27 华为技术有限公司 Data transmission method, device and storage medium for flexible duplex system
CN110603743A (en) * 2017-08-09 2019-12-20 Oppo广东移动通信有限公司 Downlink signal transmission method, terminal equipment and network equipment
CN110603743B (en) * 2017-08-09 2023-12-05 Oppo广东移动通信有限公司 Method for transmitting downlink signal, terminal equipment and network equipment
WO2019201350A1 (en) * 2018-04-20 2019-10-24 华为技术有限公司 Signal processing method and apparatus
CN110391887A (en) * 2018-04-20 2019-10-29 华为技术有限公司 Signal processing method and device
WO2021163900A1 (en) * 2020-02-18 2021-08-26 华为技术有限公司 Reference signal transmission method and related device
CN115039473A (en) * 2020-02-18 2022-09-09 华为技术有限公司 Reference signal transmission method and related equipment
EP4099781A4 (en) * 2020-02-18 2023-04-05 Huawei Technologies Co., Ltd. Reference signal transmission method and related device
WO2024197960A1 (en) * 2023-03-31 2024-10-03 北京小米移动软件有限公司 Interference measurement method, apparatus and device, and storage medium

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