WO2009096187A1 - Appareil de relais sans fil, émetteur et récepteur sans fil, procédé de relais sans fil, procédé de transmission et de réception sans fil, nœud de relais et station de base - Google Patents

Appareil de relais sans fil, émetteur et récepteur sans fil, procédé de relais sans fil, procédé de transmission et de réception sans fil, nœud de relais et station de base Download PDF

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Publication number
WO2009096187A1
WO2009096187A1 PCT/JP2009/000351 JP2009000351W WO2009096187A1 WO 2009096187 A1 WO2009096187 A1 WO 2009096187A1 JP 2009000351 W JP2009000351 W JP 2009000351W WO 2009096187 A1 WO2009096187 A1 WO 2009096187A1
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WIPO (PCT)
Prior art keywords
base station
relay
terminal device
wireless
message
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PCT/JP2009/000351
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English (en)
Japanese (ja)
Inventor
Chie Ishida
Takahisa Aoyama
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Panasonic Corporation
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Publication date
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Publication of WO2009096187A1 publication Critical patent/WO2009096187A1/fr

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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W88/00Devices specially adapted for wireless communication networks, e.g. terminals, base stations or access point devices
    • H04W88/08Access point devices
    • H04W88/085Access point devices with remote components
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W74/00Wireless channel access
    • H04W74/08Non-scheduled access, e.g. ALOHA
    • H04W74/0866Non-scheduled access, e.g. ALOHA using a dedicated channel for access

Definitions

  • the present invention relates to a relay technology for wireless communication performed between a base station and a terminal device, and particularly to a wireless relay device used in a network having a relay station.
  • RACH procedure also referred to as a RACH procedure
  • a procedure called a RACH procedure is executed when the terminal device changes from the idle state to the connected state.
  • a RACH procedure also referred to as a RACH procedure
  • an individual channel for communicating with the base station has not been set yet.
  • the terminal device needs to send a signal to the network by some procedure.
  • a random access channel RACH
  • This procedure using RACH is the RACH procedure.
  • FIG. 21 is a sequence diagram for explaining a conventional RACH procedure. As shown in FIG. 21, the conventional RACH procedure includes four steps.
  • the terminal device transmits a random access preamble (also referred to as a RACH preamble) to the base station (S1).
  • the base station receives the random access preamble from the terminal device and measures the transmission timing of the terminal device.
  • the terminal device In order for the terminal device to transmit data to the base station, it is necessary to establish uplink synchronization.
  • the base station transmits a random access response (also referred to as a RACH response) to the terminal device (S2).
  • the base station is based on the T-CRNI (Temporary Cell Radio Network Identifier) that is a temporary ID used between the terminal device and the base station during the RACH procedure, and the timing measured in the first step.
  • T-CRNI Temporal Cell Radio Network Identifier
  • the transmission timing of the terminal device after the third step is instructed by a random access response.
  • a grant indicating a scheduling resource used by the terminal device to transmit a message to the base station in the next step is indicated by a random access response.
  • the terminal device transmits an RRC (Radio Resource Control) connection request to the base station (S3).
  • the RRC connection request includes the ID of the terminal device.
  • the base station transmits an RRC connection response to the terminal device (S4).
  • a connection is established between the terminal device and the base station, and an individual channel for the terminal device to communicate with the base station can be acquired.
  • relay station (relay node) having a role of relaying communication between the base station and the terminal device into the network system.
  • technologies include, for example, IEEE P802.16j / D1 (August 2007) “Part 16: Interface for Fixed and Mobile Broadband Wireless Access Systems”, WIRELESS WORLD RESEARCH FORUM “White Paper on Multi-hop Protocols for Deployment based on Deployment”.
  • This relay station is arranged at the cell edge portion of the base station for the purpose of improving the reception efficiency at the cell edge of the base station.
  • the relay station belongs to at least one neighboring base station and has a function of relaying communication between the corresponding base station and the terminal device.
  • FIG. 22 is an explanatory diagram showing an example of a relay station.
  • FIG. 22 shows a protocol of a control plane (C-Plane) that is a protocol for control signals of a terminal device (UE), a relay station (RN), and a base station (eNB).
  • the relay station illustrated in FIG. 22 is a layer 2 relay having a function up to layer 2, and is also called a layer 2 repeater, a MAC relay, or a MAC repeater.
  • the layer 2 relay has functions such as error correction and retransmission as well as non-regenerative relay (amplify and forward or non-regenerative relay) in which the signal received from the base station is transmitted to the terminal as it is.
  • FIG. 23 is a sequence diagram showing the flow of the RACH procedure when a relay station is simply introduced into the conventional network system.
  • the flow of the relay process when the terminal apparatus moves from the base station to the area of the relay station during the RACH procedure is shown.
  • the terminal device transmits a random access preamble to the base station (S10).
  • the random access preamble may not reach the base station.
  • the relay station and the base station use the same access slot, the relay station can also receive the random access preamble transmitted from the terminal device to the base station.
  • the relay station that has received the random access preamble for the base station from the terminal device transfers the message to the base station (S11).
  • the base station determines that the terminal device has moved to the area of the relay station, and sends the next random access response to the relay station.
  • the terminal device Via the terminal device (S12, S13).
  • the T-CRNI and grant assigned to the terminal device by the base station shall be selected from the T-CRNI and grant specified to the relay station in advance for the relay station to assign to the terminal device. .
  • the terminal device When the terminal device receives the random access response, it transmits an RRC connection request via the relay station, and the base station transmits an RRC connection response via the relay station (S14 to S17).
  • the coverage area of the base station is expanded and the reception quality deterioration at the cell edge is compensated. Furthermore, if the relay station and the base station use the same access slot in the RACH procedure, the RACH procedure can be continued even if the terminal device moves from the base station to the area of the relay station during the RACH procedure. become.
  • a random access preamble transmitted from one terminal device may be received redundantly at the base station. That is, there are cases where both messages received directly from the terminal device to the base station and messages relayed by the relay station and received by the base station are received by the base station. In such a case, the base station will allocate resources to both random access preambles. In this case, the terminal device selects one resource according to the reception status of the response from the base station and continues communication with the base station. Then, the resource that is not selected by the terminal device is wasted. Also, unnecessary signaling occurs when the relay station relays the random access preamble to the base station.
  • An object of the present invention is to provide a radio relay apparatus capable of reducing wasteful resource allocation due to introduction of a relay station and increase in the amount of signaling due to relay of unnecessary messages in a network system having the relay station. There is to do.
  • One aspect of the present invention is a wireless relay device that is arranged in a communication cell of a base station and relays wireless communication performed between the base station and the terminal device.
  • Message receiving means for receiving a message communicated between the terminal device and the base station using a common channel in the RACH procedure, and relaying of wireless communication between the terminal device and the base station based on the reception status of the message Relay determining means for determining whether or not to perform, and message transmitting means for transmitting a message according to the determination to the terminal device using a common channel.
  • Another aspect of the present invention is a wireless relay device that is arranged in a plurality of communication cells of a base station and relays wireless communication performed between the base station and the terminal device, and the wireless relay device is a terminal device.
  • Message receiving means for receiving a message communicated between a terminal apparatus and a base station using a common channel in the RACH procedure, and an assigned signature in which a signature used in message communication is assigned to the radio relay apparatus
  • the wireless relay device includes: a signature determining unit that determines whether or not the message is an assigned signature; and a relay transmission unit that relays and transmits the message received from the terminal device to the base station when the signature is determined to be an assigned signature. At least one signature is assigned, and at least one signature is assigned so as not to overlap between adjacent wireless relay devices It has been.
  • Another aspect of the present invention is a wireless transmission / reception device capable of wireless communication with a plurality of terminal devices via a plurality of wireless relay devices, and the wireless reception device transmits a common channel from the terminal device in the RACH procedure of the terminal device.
  • a message receiving means for receiving a message to be transmitted, a determination means for determining a wireless relay apparatus that relays a message based on a resource allocated to each wireless relay apparatus, and messages from a plurality of terminal apparatuses, respectively
  • response generating means for generating a plurality of response signals different for each wireless relay device as responses to a plurality of messages, and a plurality of response signals different for each wireless relay device
  • Response transmitting means for transmitting using a common channel.
  • Another aspect of the present invention is a wireless relay method for relaying wireless communication performed between a base station and a terminal device in a wireless relay device arranged in a communication cell of the base station, and this wireless relay method Receives a message communicated using a common channel between the terminal device and the base station in the RACH procedure of the terminal device, and performs wireless communication between the terminal device and the base station based on the reception status of the message. It is determined whether to perform relaying, and a message corresponding to the determination is transmitted to the terminal device using the common channel.
  • Another aspect of the present invention is a wireless relay method for relaying wireless communication performed between a base station and a terminal device in each of a plurality of wireless relay devices arranged in a communication cell of a base station, At least one signature is assigned to the radio relay apparatus, and at least one signature is assigned to the radio relay apparatuses adjacent to each other so as not to overlap.
  • Receiving a message communicated with a base station using a common channel determining whether a signature used in the communication of the message is an assigned signature assigned to the wireless relay device, and assigning a signature When it is determined that the message is received, the message received from the terminal device is relayed to the base station.
  • Another aspect of the present invention is a wireless transmission / reception method, which is a wireless transmission / reception device capable of wireless communication with a plurality of terminal devices via a plurality of wireless relay devices, in a terminal device RACH procedure.
  • Receives a message transmitted using a common channel from the mobile station determines a wireless relay device that relays the message based on resources allocated to each wireless relay device, and wirelessly relays messages from multiple terminal devices.
  • a plurality of response signals different for each wireless relay device are generated as responses to the plurality of messages, and a plurality of response signals different for each wireless relay device are transmitted using the common channel .
  • Another aspect of the present invention is a relay node provided with the above wireless relay device.
  • Another aspect of the present invention is a base station provided with the above wireless transmission / reception device.
  • FIG. 1 is a block diagram illustrating configurations of a wireless relay device and a terminal device according to the first embodiment.
  • FIG. 2 is an explanatory diagram illustrating a positional relationship among the base station, the relay station, and the terminal device according to the first embodiment.
  • FIG. 3 is an explanatory diagram of the reception quality of signals from the base station or relay station received by the terminal device.
  • FIG. 4 is a sequence diagram showing the flow of the RACH procedure when the CQI is high in the first embodiment.
  • FIG. 5 is a sequence diagram showing the flow of the RACH procedure when the CQI is low in the first embodiment.
  • FIG. 6 is a flowchart showing the flow of relay processing in the first embodiment.
  • FIG. 1 is a block diagram illustrating configurations of a wireless relay device and a terminal device according to the first embodiment.
  • FIG. 2 is an explanatory diagram illustrating a positional relationship among the base station, the relay station, and the terminal device according to the first embodiment.
  • FIG. 3 is an ex
  • FIG. 7 is a sequence diagram showing the flow of the RACH procedure when the CQI is high in the reference example.
  • FIG. 8 is a flowchart showing the flow of relay processing in the reference example.
  • FIG. 9 is a block diagram illustrating a configuration of a wireless relay device according to a modification.
  • FIG. 10 is a sequence diagram showing the flow of the RACH procedure when the CQI is low in the modification.
  • FIG. 11 is a flowchart showing the flow of relay processing in the modification.
  • FIG. 12 is an explanatory diagram illustrating a positional relationship among a base station, a relay station, and a terminal device according to the second embodiment.
  • FIG. 13 is a diagram showing an example of assignment of signatures used for wireless communication FIG.
  • FIG. 14 is a block diagram illustrating a configuration of a wireless relay device according to the second embodiment.
  • FIG. 15 is a sequence diagram showing the flow of the RACH procedure in the second embodiment.
  • FIG. 16 is a flowchart showing the flow of relay processing in the second embodiment.
  • FIG. 17 is an explanatory diagram illustrating a positional relationship among a base station, a relay station, and a terminal device according to the third embodiment.
  • FIG. 18 is a block diagram illustrating a configuration of a wireless transmission / reception apparatus according to the third embodiment.
  • FIG. 19 is a sequence diagram showing the flow of the RACH procedure in the third embodiment.
  • FIG. 20 is a flowchart showing a flow of transmission / reception processing in the third embodiment.
  • FIG. 21 is a sequence diagram for explaining a conventional RACH procedure.
  • FIG. 22 is an explanatory diagram illustrating an example of a relay station.
  • FIG. 23 is a sequence diagram showing the flow of the RACH procedure.
  • the network system of the present embodiment includes a terminal device (such as a mobile phone or a PDA device), a relay station (relay node), and a base station.
  • the relay station is equipped with a wireless relay device
  • the base station is equipped with a wireless transmission / reception device.
  • FIG. 1 is a block diagram illustrating configurations of a radio relay apparatus and a terminal apparatus according to the present embodiment.
  • FIG. 2 is an explanatory diagram illustrating an example of a positional relationship among a base station, a relay station, and a terminal apparatus according to the present embodiment. It is.
  • the relay station is located in an edge region of a communication cell (also referred to as an area) of the base station.
  • the terminal device (UE) is located at a boundary point between the areas of the base station (eNB) and the relay station (RN). Further, the area of the base station is larger than the area of the relay station.
  • the relay station can also receive the random access preamble (also referred to as RACH preamble) transmitted from the terminal device to the base station. Therefore, although the terminal device communicates with the base station, as shown in FIG. 2, since the terminal device is within the area of the relay station, the relay station also receives a signal transmitted from the terminal device to the base station. can do. In this way, the relay station and the base station use the same access slot in the RACH procedure, so that even when the terminal apparatus moves from the base station to the relay station area during the RACH procedure, the RACH procedure can be continued. Is possible.
  • FIG. 3 is an explanatory diagram of the reception quality of a signal from a base station or a relay station received by a terminal device in such a base station communication cell.
  • the strength of the received signal from the base station also referred to as eNB
  • the strength of the received signal from the relay station also referred to as RN
  • the terminal device when focusing on the edge region of the communication cell of the base station, if the terminal device is located near the relay station (for example, the cell edge of the base station, the center of the area of the relay station), the terminal device The reception quality (also called Channel Quality Indicator, CQI) of the signal received from the relay apparatus becomes high.
  • the terminal device when the terminal device is located at a location away from the relay station (for example, a boundary point between the area of the base station and the relay station), the reception quality of the signal received by the terminal device from the relay device is low. become.
  • the wireless relay device 10 includes a reception unit 11, a random access preamble storage unit 12 (also simply referred to as a preamble storage unit), a determination unit 13, and a control unit 14.
  • the wireless relay device 10 includes a resource storage unit 15, a random access response generation unit 16 (also simply referred to as a response generation unit), and a transmission unit 17.
  • the reception unit 11 receives a message communicated between the terminal device and the base station from the antenna 18 in the RACH procedure. Specifically, the receiving unit 11 receives a random access preamble, a random access response (also referred to as a RACH response), an RRC connection request, an RRC connection establishment, and the like from the terminal device and the base station. Here, the receiving unit 11 corresponds to the message receiving means of the present invention.
  • the preamble storage unit 12 includes a memory or the like, stores the random access preamble input from the reception unit 11, and outputs the random access preamble to the determination unit 13 and the transmission unit 17.
  • the determination unit 13 determines the reception status of the received message and determines wireless communication relay. Specifically, the determination unit 13 determines the signature of the random access preamble input from the preamble storage unit 12, and sends a determination result on whether the CQI of the terminal device indicated by the random access preamble is high or low to the control unit 14. Output.
  • the control unit 14 determines to relay wireless communication based on the reception status of the received message. For example, when the control unit 14 receives the determination result input from the determination unit 13 and determines that the CQI of the terminal apparatus indicated by the random access preamble is high, the control unit 14 relays the random access preamble to the base station. Is sent to the transmitter 17. In addition, when it is determined that the CQI of the terminal device indicated by the random access preamble is low, the control unit 14 waits for reception of a random access response from the base station to the terminal device for a certain period of time, and from the base station to the terminal device. When the random access response is not received, an instruction to relay the random access preamble to the base station is sent to the transmission unit 17.
  • the control unit 14 corresponds to the relay determining means of the present invention.
  • the resource storage unit 15 stores resources (T-CRNI, grant) to be allocated to terminal devices that have attempted random access. This resource is allocated in advance from the base station.
  • the transmission unit 17 transmits the random access preamble input from the preamble storage unit 12 from the antenna 18 in accordance with an instruction from the control unit 14. In this case, the transmission unit 17 transmits a message according to the necessity of relay. Therefore, the transmission unit 17 corresponds to the message transmission unit 17 of the present invention. In addition, when the random access response is not received within a certain period after receiving the random access preamble, the transmission unit 17 relays and transmits the received random access preamble to the base station. Therefore, it can be said that this transmission unit 17 corresponds to the relay transmission means of the present invention.
  • the terminal device 100 includes a reception unit 101, a signature storage unit 102, a CQI determination unit 103, a random access preamble generation unit 104, and a transmission unit 105.
  • the receiving unit 101 receives signals from the base station and the relay device from the antenna 106.
  • the CQI determination unit 102 determines the CQI of the signal received by the reception unit 101 and outputs the determination result to the signature storage unit 102. At this time, the CQI determination is mainly performed based on the reception level of the downlink reference signal.
  • the signature storage unit 102 stores the signature group received by the reception unit 101 and used for the random access preamble, selects one signature according to the determination result input from the CQI determination unit 103, and selects the random access preamble generation unit 104. Output to.
  • the random access preamble generation unit 104 generates a random access preamble message using the signature input from the signature storage unit 102 and outputs the random access preamble message to the transmission unit 105. Transmitting section 105 transmits the random access preamble message input from random access preamble generating section 104 from antenna 106.
  • the operation of the relay station including the radio relay device 10 configured as described above will be described with reference to FIGS.
  • a case where two terminal devices (terminal devices A and B) are relayed by two relay stations (relay stations A and B) is illustrated.
  • FIG. 4 is a sequence diagram showing the flow of the RACH procedure when the reception quality (CQI) of the terminal device indicated by the random access preamble is high.
  • the two terminal apparatuses both transmit a random access preamble (message 1) to the base station (S100, S101).
  • the base station S100, S101
  • the random access preambles transmitted by the two terminal devices do not reach the base station and are received by the two relay stations, respectively.
  • FIG. 7 is a sequence diagram showing the flow of the RACH procedure when the reception quality (CQI) of the terminal device indicated by the random access preamble is high.
  • the two terminal devices both transmit a random access preamble (message 1) to the base station (S100, S101).
  • S100, S101 the base station
  • the random access preambles transmitted by the two terminal devices do not reach the base station and are received by the two relay stations, respectively.
  • the relay station When the reception quality (CQI) of the terminal device indicated by the received random access preamble is high, the relay station that has received the random access preamble transmitted by the terminal device immediately relays the received random access preamble to the terminal device (S150). , S151). Thereafter, the relay station relays the random access response received from the base station to the terminal device (S152 to S155).
  • CQI reception quality
  • the terminal device transmits an RRC connection request (message 3) to the base station via the relay station (S104 to S107).
  • the base station transmits RRC connection establishment (message 4) via each relay station (S108 to S111).
  • FIG. 5 is a sequence diagram showing the flow of the RACH procedure when the reception quality (CQI) of the terminal device indicated by the random access preamble is low.
  • both the two terminal devices transmit a random access preamble (message 1) to the base station (S120, S121).
  • the base station S120, S121
  • the random access preamble transmitted from the terminal device A reaches the base station (S120), but the random access preamble transmitted from the terminal device B does not reach the base station and is received by the relay station B (S121). ). Note that the random access preamble transmitted by the terminal device A is also received by the relay station A.
  • the relay station A that has received the random access preamble transmitted by the terminal device A has a low reception quality (CQI) of the terminal device A indicated by the received random access preamble, a certain time ( In FIG. 5, it is shown by hatching) and waits for a random access response from the base station to the terminal device A to be transmitted.
  • CQI reception quality
  • the relay station A If a random access response from the base station to the terminal device A is received within a certain time (S122), the relay station A does not relay. Thereafter, the terminal device A transmits an RRC connection request to the base station (S123), and the base station receives the RRC connection request from the terminal device A and transmits RRC connection establishment to the terminal device (S124).
  • the relay station B that has received the random access preamble transmitted by the terminal device B is also constant when the reception quality (CQI) of the terminal device indicated by the received random access preamble is low. It waits for a time (shown by hatching in FIG. 5) and whether or not a random access response is transmitted from the base station to the terminal device B.
  • CQI reception quality
  • the relay station B relays the received random access preamble to the base station (S125). Thereafter, the relay station B relays the random access response received from the base station to the terminal device B (S126, S127).
  • the terminal apparatus B transmits an RRC connection request to the base station via the relay station B (S128, S129).
  • the base station responds to the RRC connection request from the terminal apparatus B via the relay station B via the RRC. Connection establishment is transmitted (S130, S131).
  • FIG. 8 is a flowchart showing an operation flow when the relay station equipped with the wireless relay device 10 receives the random access preamble. As illustrated in FIG. 8, when the relay station receives the random access preamble transmitted by the terminal device (S140), the relay station determines the CQI of the terminal device indicated in the random access preamble (S141). If the CQI is high, the received random access preamble is relayed to the base station (S160).
  • the CQI When the CQI is low, it waits for a certain time (S144), and determines whether or not a random access response from the base station is received within the certain time (S145). When a random access response is received from the base station within a certain time, relaying is not performed. On the other hand, when a random access response is received from the terminal device at a certain time, the random access preamble is relayed to the base station (S146).
  • the wireless relay device 10 of the first embodiment based on the reception status of the terminal device included in the message communicated by the RACH procedure of the terminal device, the wireless communication according to the necessity of relay is performed.
  • the support state By determining the support state, it is possible to suppress an increase in signaling amount due to unnecessary resource allocation in the base station and relaying of unnecessary messages.
  • the wireless communication support state is determined according to the necessity of relay based on the reception quality (CQI) of the random access preamble transmitted from the terminal device.
  • the radio relay device 10 is arranged in the edge region of the communication cell of the base station. Therefore, when the reception quality of the terminal device included in the preamble signal is high, it is determined that the necessity for relaying is high, and relaying by the wireless relay device 10 is performed. Thereby, the reception efficiency in the edge area
  • the reception quality (CQI) of the random access preamble is high, there is a high possibility that the terminal device is located near the edge area of the communication cell. That is, the terminal device is located in a region away from the base station, and it is highly likely that it is difficult for the terminal device to communicate directly with the base station. In such a case, it is determined that the necessity for relay is high, and the random access preamble is relayed to the base station. In this way, relaying by the radio relay device 10 is performed, and reception efficiency in the edge region of the communication cell is improved. Moreover, according to this, the resource allocation of the terminal device can be centrally managed on the base station side. In such a case, when the CQI of the terminal device is high, the random access preamble can be relayed to the base station without waiting for a random access response from the base station.
  • CQI reception quality
  • the wireless communication support state is determined according to the necessity of relay based on whether or not a random access response is received from the base station within a predetermined determination period. If the random access response from the base station is not received within a predetermined determination period after receiving the random access preamble, it is determined that the necessity for relaying is high, and relaying by the wireless relay device 10 is performed. Thereby, the reception efficiency in the edge area
  • the reception quality (CQI) of the random access preamble is low and the random access response is not received within a predetermined determination period, it is difficult for the terminal device to communicate directly with the base station. There is a high possibility. In such a case, it is determined that the necessity for relay is high, and the random access preamble is relayed to the base station. In this way, relaying by the wireless relay device 10 is performed, and reception efficiency in the communication cell is improved. Moreover, according to this, the resource allocation of the terminal device can be centrally managed on the base station side.
  • the relay station determines whether to relay the random access preamble to the base station based on the CQI of the terminal apparatus. Therefore, when the CQI of the terminal device is high, the relay station relays and transmits the random access preamble to the base station, thereby enabling centralized resource management of the terminal device on the base station side and reducing unnecessary resource allocation. be able to.
  • the relay station waits for a random access response from the base station for a certain time. Thereby, the relay station relays the random access preamble to the base station only when the random access preamble does not reach the base station directly. Therefore, wasteful resource consumption due to the base station allocating resources to a plurality of random access preambles and an increase in signaling amount due to unnecessary message relay can be reduced.
  • the wireless relay device 10 according to the modified example is different from the first embodiment in that an allocation instruction acquisition unit is provided.
  • the receiving unit 11 receives from the antenna 18 a random access preamble, a random access response, an RRC connection request, an RRC connection establishment, and the like from the terminal device and the base station.
  • the receiving unit 11 receives a resource allocation instruction for the terminal device from the base station, and outputs the received resource allocation instruction to the allocation instruction acquiring unit.
  • the allocation instruction acquisition unit generates a random access response in which T-CRNI and grant are allocated to the terminal device instructed to the base station according to the allocation instruction input from the receiving unit 11, and to the specified terminal device
  • the control unit 14 is instructed to transmit.
  • This resource allocation instruction corresponds to the response generation instruction signal of the present invention.
  • the control unit 14 receives the determination result input from the determination unit 13 and determines that the reception quality (CQI) of the terminal device indicated by the random access preamble is high, the random access response generation unit 16 (simply a response) An instruction is also sent to the transmission unit 17.
  • reception quality (CQI) of the terminal device indicated by the random access preamble is low, reception of a random access response from the base station to the terminal device is awaited for a certain period of time, and random transmission from the base station to the terminal device is performed.
  • an instruction to relay the random access preamble to the base station is sent to the transmission unit 17. Further, when instructed from the assignment instruction acquiring unit, an instruction is sent to the response generating unit 16 and the transmitting unit 17.
  • the response generation unit 16 generates a random access response message using the resource input from the resource storage unit 15 when receiving an instruction from the control unit 14.
  • the generated random access response message is output to the transmission unit 17.
  • the response generator 16 corresponds to a response signal generator of the present invention.
  • the transmission unit 17 transmits the random access response message input from the response generation unit 16 or the random access preamble input from the random access preamble storage unit 12 from the antenna 18 according to the instruction of the control unit 14.
  • terminal apparatuses A and B are relayed by two relay stations (relay stations A and B) is illustrated.
  • FIG. 10 is a sequence diagram showing the flow of the RACH procedure when the reception quality (CQI) of the terminal device indicated by the random access preamble is low.
  • the two terminal devices both transmit a random access preamble (message 1) to the base station (S120, S121).
  • the base station S120, S121
  • the random access preamble transmitted from the terminal device A reaches the base station (S120), but the random access preamble transmitted from the terminal device B does not reach the base station and is received by the relay station B (S121). ). Note that the random access preamble transmitted by the terminal device A is also received by the relay station A.
  • the operation of the terminal device A is the same as that of the first embodiment shown in FIG. 5, the description thereof is omitted here.
  • the relay station B that has received the random access preamble transmitted by the terminal device B has a certain time (FIG. 10) when the reception quality (CQI) of the terminal device indicated by the received random access preamble is low.
  • the process waits whether a random access response from the base station to the terminal device B is transmitted.
  • the relay station B relays the received random access preamble to the base station (S125). Thereafter, the relay station B generates a random access response based on the resource allocation instruction (instruction message) received from the base station (S170), and transmits the random access response (message 2) to the terminal device B ( S171). Thereafter, the terminal apparatus B transmits an RRC connection request to the base station via the relay station B (S128, S129). The base station responds to the RRC connection request from the terminal apparatus B via the relay station B. , RRC connection establishment is transmitted (S130, S131).
  • FIG. 11 is a flowchart showing an operation flow when the relay station including the wireless relay device 10 receives the random access preamble.
  • the relay station determines the CQI of the terminal device indicated in the random access preamble (S141). When the CQI is low, it waits for a certain time (S144), and determines whether or not a random access response from the base station is received within the certain time (S145). When a random access response is received from the terminal device at a certain time, the random access preamble is relayed to the base station (S146).
  • the relay station receives a resource allocation instruction from the base station to the terminal device (S180), generates a random access response message according to the received resource allocation instruction (S181), and transmits the generated random access response to the terminal device. (S182).
  • the wireless relay device 10 of such a modification if the random access response from the base station is not received within a predetermined determination period and it is determined that the necessity for relay is high, the resource received from the base station A random access response is generated based on the allocation instruction, and the random access response is transmitted to the terminal device. In this way, relaying by the wireless relay device 10 is performed, and reception efficiency in the communication cell is improved. Moreover, according to this, the resource allocation of the terminal device can be centrally managed on the base station side.
  • the relay station when the resources allocated to the terminal device are distributed and managed by the base station and the relay station, it is determined whether the relay station relays the random access preamble to the base station according to the CQI of the terminal device. To do. Therefore, when the CQI of the terminal device is high, the relay station can directly transmit a random access response to the terminal device, thereby reducing unnecessary signaling.
  • the relay station waits for a random access response from the base station for a certain period of time, so that the relay station uses the random access preamble only when the random access preamble does not reach the base station directly. Relay to station. Therefore, useless resource consumption due to the base station allocating resources to a plurality of random access preambles can be reduced.
  • FIG. 12 is an explanatory diagram showing an example of the positional relationship among the base station, the relay station, and the terminal device in the present embodiment.
  • one terminal device UE
  • this terminal device can communicate with the base station and can also communicate with two relay stations. That is, since this terminal device is in the area of two relay stations, the signal transmitted from the terminal device to the base station can also be received by the two relay stations.
  • FIG. 13 is a diagram showing an example of assignment of signatures used in wireless communication.
  • signatures 0 to 47 are assigned to nine relay stations (RN1 to RN9).
  • the relay stations are divided into three groups, and signatures are assigned so that adjacent relay stations (for example, RN1 and RN3, see FIG. 12) do not belong to the same group.
  • signatures are assigned so as to be used depending on the level of reception quality (CQI). It can be said that the signatures 0 to 47 are assigned to the radio relay apparatus 20.
  • CQI level of reception quality
  • reception quality (CQI) of communication with the relay stations of RN1, 4, and 7 is low, a signature of 40 to 47 is used in the terminal device, and when the reception quality (CQI) is high , 16-23 signatures are used.
  • the terminal apparatus uses signatures 32 to 39, and when the reception quality (CQI) is high, 8 to Fifteen signatures are used.
  • the reception quality (CQI) of communication with the relay stations of RN3, 6, 9 is low, the signature of 24 to 31 is used in the terminal device, and when the reception quality (CQI) is high, 0 to Seven signatures are used.
  • FIG. 14 is a block diagram illustrating a configuration of the wireless relay device 20 according to the present embodiment.
  • the wireless relay device 20 of the present embodiment is different from the first embodiment of FIG. 1 in that a signature determination unit 23 is provided. That is, the radio relay apparatus 20 according to the present embodiment includes the same receiving unit 21, preamble storage unit 22, and control unit 24 as those in the first embodiment.
  • the signature determination unit 23 determines whether the signature used in the random access preamble corresponds to a signature (also referred to as an assigned signature) assigned to the wireless relay device 20.
  • the signature determination unit 23 corresponds to signature determination means of the present invention.
  • the transmitting unit 27 relays and transmits the received random access preamble from the antenna 28 to the base station when it is determined that the signature used in the random access preamble is an assigned signature of the wireless relay device 20. Therefore, it can be said that this transmission unit 27 corresponds to the relay transmission means of the present invention.
  • the operation of the relay station including the wireless relay device 20 configured as described above will be described with reference to FIGS. 15 and 16.
  • a case where one terminal apparatus is located at the boundary between the areas of two relay stations (RN1, RN3) is illustrated.
  • FIG. 15 is a sequence diagram showing the flow of the RACH procedure in the second embodiment.
  • the terminal apparatus transmits a random access preamble (message 1) to the base station (S200).
  • the random access preamble transmitted by the terminal device does not reach the base station but is received by the two relay stations.
  • the two relay stations determine whether or not the received random access preamble signature is included in the signature group assigned to each relay station by the base station. For example, when the signature of the random access preamble transmitted by the terminal device is included in the signature group assigned to one relay station (RN1), the relay station relays the received random access preamble to the base station ( S201). In this case, the other relay station (RN3) rejects the received random access preamble because the signature of the received random access preamble is not included in the signature group assigned to itself.
  • the base station When the base station receives the random access preamble from one of the relay stations (RN1), the base station creates a random access response (message 2) to which T-CRNI and grant are assigned, and transmits the random access response to the terminal device via the relay station ( S202, S203).
  • the terminal device transmits an RRC connection request to the base station via the relay station (RN1) (S204, S205), and the base station responds to the RRC connection request from the terminal device with the relay station (RN1).
  • the RRC connection establishment (message 4) is transmitted via (S206, S207).
  • FIG. 16 is a flowchart showing an operation flow when the relay station including the wireless relay device 20 receives the random access preamble. As shown in FIG. 16, first, the relay station receives a random access preamble from the terminal device (S210). Next, it is determined whether the received signature of the random access preamble is included in the signature group assigned from the base station (S211).
  • the reception quality (CQI) of the terminal device indicated in the random access preamble is determined (S212).
  • the received random access preamble is relayed to the base station (S160).
  • the CQI is low, it waits for a certain time (S215), and determines whether or not a random access response from the base station is received within the certain time (S216). When a random access response is received from the base station within a certain time, relaying is not performed. On the other hand, when a random access response is received from the terminal device at a certain time, the random access preamble is relayed to the base station (S217).
  • the received random access preamble signature is not included in the signature group assigned by the base station, the received random access preamble is rejected (S218).
  • the terminal apparatus selects one radio relay apparatus 20 (RN1), and transmits a random access preamble using an allocation signature (for example, signature “40”) of the selected radio relay apparatus 20.
  • Each radio relay apparatus 20 relays and transmits only a message using the assigned signature of the radio relay apparatus 20 to the base station.
  • only one radio relay apparatus 20 (RN1) selected as the terminal apparatus performs relay transmission of the message. Therefore, it is possible to prevent a message from one terminal apparatus from being relayed by the plurality of radio relay apparatuses 20, and to suppress useless resource allocation at the base station.
  • a terminal apparatus located at the boundary between two relay station areas transmits a random access preamble
  • it is included in the signature group assigned by the base station. Only relay random access preambles using signatures. Thereby, it can suppress that both relay stations relay a random access preamble to a base station. Therefore, it is possible to prevent the base station from misinterpreting that a random access preamble using the same signature is transmitted from two terminal apparatuses and allocating resources to two random access preambles from one terminal apparatus. And wasteful resource consumption can be reduced.
  • FIG. 17 is an explanatory diagram illustrating an example of the positional relationship among the base station, the relay station, and the terminal device according to the present embodiment.
  • two terminal devices UE1, UE2 are located in the edge region of the communication cell (also referred to as area) of the base station.
  • each terminal device is located at a boundary point between the areas of the base station and each relay station (RN1, RN2).
  • FIG. 18 is a block diagram illustrating a configuration of the wireless transmission / reception device 30 according to the present embodiment.
  • the wireless transmission / reception apparatus 30 includes a reception unit 31, a random access preamble acquisition unit 32 (also simply referred to as a preamble acquisition unit), and a determination unit 33.
  • the wireless transmission / reception apparatus 30 includes a resource storage unit 34, a random access response generation unit 35 (also simply referred to as a response generation unit), and a transmission unit 36.
  • the receiving unit 31 receives a message transmitted from the terminal device from the antenna 37 in the RACH procedure. Specifically, the receiving unit 31 receives a random access preamble, an RRC connection request, and the like from the terminal device and the relay station. Here, the receiving unit 31 corresponds to the message receiving means of the present invention.
  • the preamble acquisition unit 32 acquires the random access preamble input from the reception unit 31 and outputs the random access preamble to the determination unit 33.
  • the determination unit 33 determines the signature of the random access preamble input from the preamble acquisition unit 32, and determines the relay station that relayed the random access preamble. When the random access preamble of the same signature is received from different relay stations, the determination unit 33 instructs the random access response generation unit 35 to use different T-CRNI and uplink resources ( grant). Here, the determination unit 33 corresponds to the determination unit of the present invention.
  • the resource storage unit 34 stores resources (T-CRNI, grant) to be allocated to terminal devices that have attempted random access. This resource is allocated in advance from the base station.
  • the response generation unit 35 generates a random access response message using the resource input from the resource storage unit 34.
  • the response generation unit 35 When instructed by the determination unit 33, the response generation unit 35 generates a random access response message in which different T-CRNIs and grants are assigned to two random access preambles using the same signature.
  • the response generation unit 35 corresponds to a response generation unit of the present invention.
  • the generated random access response message is output to the transmission unit 36.
  • the transmission unit 36 transmits the random access response message input from the response generation unit 35 from the antenna 37.
  • the transmission unit 36 corresponds to the transmission means of the present invention.
  • FIG. 19 is a sequence diagram showing the flow of the RACH procedure in the third embodiment.
  • the two terminal devices both transmit a random access preamble (message 1) to the base station (S300, S301).
  • the base station S300, S301.
  • the random access preambles transmitted by the two terminal devices do not reach the base station and are received by the two relay stations, respectively.
  • the relay station that has received the random access preamble transmitted by the terminal device relays the received random access preamble to the base station (S302, S303).
  • the base station T is a temporary ID used for communication between the terminal device and the base station for each random access preamble.
  • -Create a random access response (message 2) to which CRNI and the grant (scheduling grant) indicating the uplink resource used by the terminal device to transmit the message to the base station next is assigned to each of the two relay stations. Transmit (S304, S305).
  • each relay station forwards the random access response to the terminal device (S306, S307).
  • each terminal device transmits an RRC connection request (message 3) to the base station via each relay station (S308 to S311).
  • the base station transmits RRC connection establishment (message 4) via each relay station (S312 to S315).
  • FIG. 20 is a flowchart showing an operation flow when the base station provided with the wireless transmission / reception device 30 receives a random access preamble.
  • the base station receives random access preambles relayed from two different radio relay apparatuses at the same timing (S320).
  • the base station determines the signatures of the two random access preambles (S321).
  • S321 a random access response message in which different resources (T-CRNI, grant) are assigned to each random access preamble is created (S322). If the signatures are different, resources are allocated to each random access preamble (S323). Thereafter, the created random access response message is transmitted to the relay destination of each random access preamble (S324).
  • T-CRNI, grant different resources
  • the wireless transmission / reception device 30 when two terminal devices simultaneously transmit random access preambles using the same time slot and the same signature when performing the RACH procedure, Two random access preambles relayed by the relay device may be received simultaneously by the wireless transmission / reception device 30.
  • resources for example, frequencies assigned to the random access preamble are used when the random access preamble is relayed and transmitted.
  • wireless transmission / reception apparatus 30 can discriminate
  • the third embodiment even when two terminal apparatuses transmit random access preambles using the same signature, they differ for random access preambles relayed from different relay stations.
  • a random access response is created by allocating resources. Then, by transmitting these random access responses to the terminal devices via the respective relay stations, it is possible to suppress the collision of random access preambles, and the two terminal devices can receive the random access responses correctly. it can. Therefore, even if the entire coverage is expanded by arranging the relay station, it is possible to suppress the occurrence probability of the random access preamble collision.
  • a radio relay apparatus of the present invention is a radio relay apparatus that is arranged in a communication cell of a base station and relays radio communication performed between the base station and the terminal apparatus.
  • a message receiver that receives a message communicated with a base station using a common channel, and whether to relay wireless communication between the terminal device and the base station based on the message reception status
  • a message transmission unit that transmits a message according to the determination to the terminal device using a common channel.
  • whether to relay wireless communication is determined based on the reception status of messages communicated using the common channel in the RACH procedure of the terminal device. For example, whether to relay wireless communication is determined based on the reception quality of the terminal device included in the preamble signal transmitted from the terminal device, the presence / absence of reception of a response signal within a predetermined determination period, and the like.
  • relaying by the wireless relay device is not performed. As a result, only messages transmitted directly from the terminal device to the base station are received by the base station, and useless resource allocation at the base station is suppressed.
  • the message receiving unit can receive a preamble signal transmitted from the terminal apparatus to the base station in the RACH procedure, and the preamble signal includes a reception indicating the level of reception quality in the terminal apparatus.
  • the quality information is included, and the relay determination unit may have a configuration for determining whether to perform wireless communication relaying according to the level of reception quality based on the reception quality information included in the preamble signal.
  • whether to relay wireless communication is determined based on the reception quality of the terminal device included in the preamble signal from the terminal device.
  • the reception quality of the terminal device included in the preamble signal is high, it is determined that the necessity for relaying is high, and relaying to the base station is performed by the wireless relay device.
  • region of a communication cell improves.
  • only messages transmitted directly from the terminal device to the base station are received by the base station, and useless resource allocation at the base station is suppressed.
  • the wireless relay device of the present invention may include a response signal generation unit that generates a response signal for the preamble signal received by the message reception unit when it is determined that the reception quality is high. .
  • the terminal device included in the preamble signal when the reception quality of the terminal device included in the preamble signal is high, there is a high possibility that the terminal device is located near the edge region of the communication cell. That is, the terminal device is located in a region away from the base station, and it is highly likely that it is difficult for the terminal device to communicate directly with the base station. In such a case, a response signal is generated in the wireless relay device, and the response signal is transmitted to the terminal device. In this way, the reception efficiency in the edge area of the communication cell is improved.
  • the radio relay apparatus of the present invention may have a configuration including a relay transmission unit that relays and transmits the preamble signal received by the message reception unit to the base station when it is determined that the reception quality is high. .
  • the terminal device included in the preamble signal when the reception quality of the terminal device included in the preamble signal is high, there is a high possibility that the terminal device is located near the edge region of the communication cell. That is, the terminal device is located in a region away from the base station, and it is highly likely that it is difficult for the terminal device to communicate directly with the base station. In such a case, it is determined that the necessity for relay is high, and the preamble signal is relayed to the base station. In this way, relaying by the wireless relay device is performed, and reception efficiency in the edge region of the communication cell is improved.
  • the message receiver can receive a preamble signal transmitted from the terminal apparatus to the base station in the RACH procedure and a response signal transmitted from the base station to the terminal apparatus as a response to the preamble signal.
  • the relay determination unit after receiving the preamble signal, determines that the reception quality is low, and within a determination period until a reference time indicating a criterion for necessity of relaying wireless communication elapses.
  • it may be configured to determine whether or not a response signal has been received and to determine whether or not to perform relaying depending on whether or not a response signal has been received.
  • This configuration determines whether or not to relay wireless communication based on whether or not a response signal is received within a predetermined determination period. If the response signal is not received within a predetermined determination period after receiving the preamble signal, it is determined that the necessity for relaying is high, and relaying by the wireless relay device is performed. Thereby, the reception efficiency in the edge area
  • the radio relay apparatus of the present invention has a configuration including a relay transmission unit that relays and transmits a preamble signal received from a terminal apparatus to a base station when it is determined that no response signal is received within the determination period. It's okay.
  • the wireless relay device of the present invention further includes a response signal generation unit that generates a response signal for the preamble signal based on a response generation instruction signal received from the base station as a response to the preamble signal relayed from the relay transmission unit. You may have the structure.
  • a plurality of radio relay apparatuses of the present invention are arranged in a communication cell of a base station and relay radio communication performed between the base station and the terminal apparatus.
  • a message receiving unit that receives a message communicated between a terminal apparatus and a base station using a common channel in the RACH procedure, and a signature used in the message communication is an assigned signature assigned to the wireless relay apparatus.
  • a signature determination unit that determines whether or not there is a relay transmission unit that relays and transmits a message received from the terminal device to the base station when it is determined that the signature is an assigned signature, and the wireless relay device includes at least One signature is assigned, and at least one signature is assigned to the wireless relay devices adjacent to each other so as not to overlap. It may have a configuration that.
  • the terminal device selects one wireless relay device and transmits a message using the assigned signature of the selected wireless relay device.
  • Each wireless relay device relays and transmits only a message using the assigned signature of the wireless relay device to the base station.
  • only one wireless relay device selected as the terminal device performs relay transmission of the message. Therefore, a message from one terminal device can be prevented from being relayed by a plurality of wireless relay devices, and useless resource allocation at the base station is suppressed.
  • the radio transmission / reception apparatus of the present invention is a radio transmission / reception apparatus capable of radio communication with a plurality of terminal apparatuses via a plurality of radio relay apparatuses, and is transmitted from a terminal apparatus using a common channel in the RACH procedure of the terminal apparatus.
  • a message receiving unit that receives a message, a determination unit that determines a wireless relay device that relays a message based on resources allocated to each wireless relay device, and messages from a plurality of terminal devices are relayed by different wireless relay devices
  • a response generating unit that generates a plurality of response signals different for each wireless relay device as a response to a plurality of messages, and a plurality of response signals that are different for each wireless relay device are transmitted using a common channel. And a response transmission unit.
  • the wireless transmission / reception apparatus uses resources allocated to each when relaying messages.
  • the wireless transmission / reception device determines the wireless relay device that relayed the message based on the resource, and transmits a different response for each wireless relay device. Therefore, when a plurality of terminal apparatuses simultaneously perform a RACH procedure on a common channel using the same time slot and the same signature, it is possible to reduce the probability of collision between the plurality of terminal apparatuses.
  • a radio relay method of the present invention is a radio relay method for relaying radio communication performed between a base station and a terminal device in a radio relay device arranged in a communication cell of the base station, and the RACH of the terminal device
  • a message communicated between the terminal device and the base station is received using a common channel, and whether to perform wireless communication relay between the terminal device and the base station based on the reception status of the message.
  • a message corresponding to the determination is transmitted to the terminal device using the common channel.
  • This method determines whether or not to relay based on the reception status of messages communicated using the common channel in the RACH procedure of the terminal device. As a result, only messages transmitted directly from the terminal device to the base station are received by the base station, and useless resource allocation at the base station is suppressed.
  • the radio relay method of the present invention is a radio relay method for relaying radio communication performed between a base station and a terminal device in each of a plurality of radio relay devices arranged in a communication cell of a base station, At least one signature is assigned to the wireless relay device, and at least one signature is assigned to wireless relay devices adjacent to each other so that they do not overlap.
  • Receives a message communicated with a station using a common channel determines whether the signature used in the communication of the message is an assigned signature assigned to the wireless relay device, and When it is determined that there is a message, the message received from the terminal device is relayed to the base station.
  • the terminal device selects one wireless relay device and assigns the assigned signature of the selected wireless relay device. Use to send a message. Then, each wireless relay device relays and transmits only a message using the assigned signature of the wireless relay device to the base station. Therefore, a message from one terminal device can be prevented from being relayed by a plurality of wireless relay devices, and useless resource allocation at the base station is suppressed.
  • the wireless transmission / reception method of the present invention receives a message transmitted from a terminal device using a common channel in a RACH procedure of the terminal device in a wireless transmission / reception device capable of wireless communication with the plurality of terminal devices via the plurality of wireless relay devices And determining the wireless relay device that relayed the message based on the resources allocated to each wireless relay device, and determining that the messages from the plurality of terminal devices are relayed by different wireless relay devices, As a response to the message, a plurality of response signals different for each wireless relay device are generated, and a plurality of response signals different for each wireless relay device are transmitted using a common channel.
  • the wireless relay device when a plurality of terminal devices transmit messages using the same time slot and the same signature at the same time when performing the RACH procedure, the wireless relay device is assigned to each when relaying the message. Resources are used. Then, the wireless transmission / reception device determines the wireless relay device that relayed the message based on the resource, and transmits a different response for each wireless relay device. Therefore, when a plurality of terminal apparatuses simultaneously perform a RACH procedure on a common channel using the same time slot and the same signature, it is possible to reduce the probability of collision between the plurality of terminal apparatuses.
  • the present invention it is possible to suppress allocation of useless resources in the base station by determining whether or not to relay wireless communication based on the reception status of messages communicated by the RACH procedure of the terminal device.
  • the wireless relay device has an effect of suppressing the allocation of useless resources at the base station, and is useful, for example, in a mobile communication system.

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

Abstract

Selon l'invention, un appareil de relais sans fil (10) est disposé dans une cellule de communication d'une station de base et relaie une communication sans fil réalisée entre la station de base et un appareil de terminal. Une partie de réception (11) reçoit un message communiqué grâce à un canal commun entre l'appareil de terminal et la station de base par une étape RACH de l'appareil de terminal. Sur les bases de la situation de réception du message évaluée par une partie d'évaluation (13), une partie de commande (14) détermine s'il faut relayer la communication sans fil entre l'appareil de terminal et la station de base. Puis, une partie de transmission (17) transmet le message selon la détermination à l'appareil de terminal grâce au canal commun. Par conséquent, l'appareil de relais sans fil est susceptible de supprimer l'allocation inutile de ressources par la station de base.
PCT/JP2009/000351 2008-02-01 2009-01-30 Appareil de relais sans fil, émetteur et récepteur sans fil, procédé de relais sans fil, procédé de transmission et de réception sans fil, nœud de relais et station de base WO2009096187A1 (fr)

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JP2008023343A JP2011077563A (ja) 2008-02-01 2008-02-01 無線中継装置および無線送受信装置、無線中継方法および無線送受信方法、リレーノードおよび基地局

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