WO2013028044A2 - 단말 간 직접 통신을 수행하는 방법과 이를 지원하는 방법 및 이를 위한 장치 - Google Patents
단말 간 직접 통신을 수행하는 방법과 이를 지원하는 방법 및 이를 위한 장치 Download PDFInfo
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- WO2013028044A2 WO2013028044A2 PCT/KR2012/006831 KR2012006831W WO2013028044A2 WO 2013028044 A2 WO2013028044 A2 WO 2013028044A2 KR 2012006831 W KR2012006831 W KR 2012006831W WO 2013028044 A2 WO2013028044 A2 WO 2013028044A2
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- terminal
- information
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W28/00—Network traffic management; Network resource management
- H04W28/02—Traffic management, e.g. flow control or congestion control
- H04W28/0289—Congestion control
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W76/00—Connection management
- H04W76/10—Connection setup
- H04W76/14—Direct-mode setup
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/50—Allocation or scheduling criteria for wireless resources
- H04W72/54—Allocation or scheduling criteria for wireless resources based on quality criteria
- H04W72/542—Allocation or scheduling criteria for wireless resources based on quality criteria using measured or perceived quality
Definitions
- the present invention relates to wireless communication, and more particularly, to a method for performing direct communication between terminals, a method for supporting the same, and an apparatus therefor.
- D2D communication is a distributed communication technology that directly passes traffic between adjacent nodes without using an infrastructure such as a base station.
- each node such as a portable terminal finds another physically adjacent terminal on its own, establishes a communication session, and transmits traffic. Since D2D communication can solve the traffic overload problem by distributing the concentrated traffic to the base station, it has been spotlighted as an element technology of the next generation mobile communication technology after 4G. For this reason, standards organizations such as 3GPP and IEEE are promoting D2D communication standards based on LTE-A or Wi-Fi, and Qualcomm is developing proprietary D2D communication technology.
- D2D communication is expected to not only contribute to improving the performance of mobile communication systems but also to create new communication services. It can also support services such as social network services or network games based on proximity.
- the D2D link can be used as a relay to solve the connectivity problem of the shadow area terminal. As such, D2D technology is expected to provide new services in various fields.
- device-to-device communication technologies such as infrared communication, ZigBee, radio frequency identification (RFID) and near field communication (NFC) based thereon are already widely used.
- RFID radio frequency identification
- NFC near field communication
- these technologies only support special-purpose communications within a very limited distance (about 1m), so it is difficult to classify them as D2D communication technology that distributes the traffic of the base station.
- An object of the present invention is to provide a method in which a D2D terminal performing direct communication between terminals in a wireless communication system supporting device-to-device (D2D) communication.
- D2D device-to-device
- Another object of the present invention is to provide a method for supporting a D2D communication by a base station in a wireless communication system supporting device-to-device (D2D) communication.
- D2D device-to-device
- Another technical problem to be achieved in the present invention is to provide a D2D terminal performing direct communication between terminals in a wireless communication system supporting device-to-device (D2D) communication.
- D2D device-to-device
- Another object of the present invention is to provide a base station supporting D2D communication in a wireless communication system supporting device-to-device (D2D) communication.
- D2D device-to-device
- a method for performing communication by a D2D terminal performing direct communication between terminals, at least Receiving a transmission request signal, which is a request signal for each D2D communication, from one other D2D terminal; Measuring a received signal strength or a signal to noise ratio (SNR) of the at least one transmission request signal; At least one of received signal strength or SNR information of a D2D link between the D2D UE and the at least one other D2D UE based on the measurement and information on the degree of interference due to the at least one other D2D UE.
- a transmission request signal which is a request signal for each D2D communication
- SNR signal to noise ratio
- the transmission request signal may include at least one of an identifier, quality of service (QoS) information, and transmission power level information of a transmission D2D terminal transmitting the transmission request signal and a reception D2D terminal receiving the transmission request signal.
- the D2D link information is D2D link information between the D2D terminal and at least one other D2D terminal that has transmitted a transmission request signal for D2D communication.
- the D2D link information may include received signal strength or SNR information of a D2D link between the D2D terminal and another D2D terminal having the best channel state.
- the generated D2D link information may be transmitted through a data channel and the bandwidth request through a control channel.
- a method for supporting a D2D communication by a base station in a wireless communication system supporting device-to-device (D2D) communication is a request signal for requesting D2D communication. From at least one D2D terminal receiving the transmission request signal to the received signal strength or signal to noise ratio (SNR) information for the link between the D2D terminals and at least one other D2D terminal transmitting the transmission request signal Receiving D2D link information including at least one piece of information on the degree of interference due to; And setting at least one D2D link between the D2D terminals based on at least one of received signal strength or SNR information on the received link between the D2D terminals and information on the degree of interference.
- SNR signal to noise ratio
- the configured D2D link information may include information on a D2D terminal pair to perform D2D communication.
- the received D2D link information includes an identifier of at least one D2D terminal transmitting the transmission request signal and at least one D2D terminal receiving the transmission request signal and a service of the at least one D2D terminal transmitting the transmission request signal.
- the apparatus further includes quality (QoS) information, and the setting of the D2D link sets the D2D link between the D2D terminals in consideration of the quality of service.
- the method may further include allocating resources to the at least one configured D2D link in consideration of the degree of interference between the at least one configured D2D link. The same resource may be allocated between the configured at least one D2D link that does not interfere with each other. Different resources may be allocated to the at least one configured D2D link that interferes with each other.
- a D2D terminal performing direct communication between terminals in a wireless communication system supporting device-to-device (D2D) communication includes at least one other D2D.
- a receiver for receiving a transmission request signal which is a request signal for each D2D communication from the terminal The received signal strength or signal-to-noise ratio (SNR) of the received at least one transmission request signal is measured, and based on the measurement, the D2D link between the D2D terminal and the at least one other D2D terminal is measured.
- SNR signal-to-noise ratio
- a processor for generating D2D link information including at least one of received signal strength or SNR information and information on a degree of interference caused by the at least one other D2D terminal; And a transmitter for transmitting the generated D2D link information and the bandwidth request for the D2D communication to a base station.
- a base station supporting D2D communication in a wireless communication system supporting device-to-device (D2D) communication transmits a request signal for requesting D2D communication.
- Received signal strength or signal-to-noise ratio (SNR) information for a link between the D2D terminals from at least one D2D terminal receiving the request signal, and at least one other D2D terminal transmitting the request signal A receiver for receiving D2D link information including at least one of information on the degree of interference; And a processor configured to establish at least one D2D link between the D2D terminals based on at least one of received signal strength or SNR information of the link between the received D2D terminals and information on the degree of interference.
- the configured D2D link information may include information on a D2D terminal pair to perform D2D communication.
- the received D2D link information includes an identifier of at least one D2D terminal transmitting the transmission request signal and at least one D2D terminal receiving the transmission request signal and a service of the at least one D2D terminal transmitting the transmission request signal.
- the processor further includes quality (QoS) information, and the processor may further configure the D2D link between the D2D terminals in consideration of the quality of service in the D2D link setup.
- the processor may allocate resources to the at least one configured D2D link in consideration of the degree of interference between the at least one configured D2D link.
- D2D UEs may efficiently perform D2D communication using an optimal D2D link and an optimally allocated resource.
- FIG. 1 is a block diagram showing the configuration of a base station 105 and a terminal 110 in a wireless communication system 100.
- FIG. 2 is a diagram illustrating a frame structure for D2D communication by way of example.
- 3 is a conceptual diagram illustrating a method of searching for neighboring terminals for D2D communication.
- FIG. 4 is an exemplary diagram for explaining D2D link establishment and resource allocation for a D2D link.
- 5 is an exemplary diagram for explaining a process for transmitting data through D2D communication by a D2D user equipment.
- a terminal collectively refers to a mobile or fixed user terminal device such as a user equipment (UE), a mobile station (MS), an advanced mobile station (AMS), and the like.
- the base station collectively refers to any node of the network side that communicates with the terminal such as a Node B, an eNode B, a Base Station, and an Access Point (AP).
- UE user equipment
- MS mobile station
- AMS advanced mobile station
- AP Access Point
- a user equipment may receive information from a base station through downlink, and the terminal may also transmit information through uplink.
- the information transmitted or received by the terminal includes data and various control information, and various physical channels exist according to the type and purpose of the information transmitted or received by the terminal.
- CDMA code division multiple access
- FDMA frequency division multiple access
- TDMA time division multiple access
- OFDMA orthogonal frequency division multiple access
- SC-FDMA single carrier frequency division multiple access
- CDMA may be implemented with a radio technology such as Universal Terrestrial Radio Access (UTRA) or CDMA2000.
- TDMA may be implemented with wireless technologies such as Global System for Mobile communications (GSM) / General Packet Radio Service (GPRS) / Enhanced Data Rates for GSM Evolution (EDGE).
- GSM Global System for Mobile communications
- GPRS General Packet Radio Service
- EDGE Enhanced Data Rates for GSM Evolution
- OFDMA may be implemented in a wireless technology such as IEEE 802.11 (Wi-Fi), IEEE 802.16 (WiMAX), IEEE 802-20, Evolved UTRA (E-UTRA).
- UTRA is part of the Universal Mobile Telecommunications System (UMTS).
- 3rd Generation Partnership Project (3GPP) long term evolution (LTE) employs OFDMA in downlink and SC-FDMA in uplink as part of Evolved UMTS (E-UMTS) using E-UTRA.
- LTE-A Advanced is an evolution of 3GPP LTE.
- FIG. 1 is a block diagram showing the configuration of a base station 105 and a terminal 110 in a wireless communication system 100.
- the wireless communication system 100 may include one or more base stations and / or one or more base stations. It may include a terminal.
- the base station 105 includes a transmit (Tx) data processor 115, a symbol modulator 120, a transmitter 125, a transmit / receive antenna 130, a processor 180, a memory 185, and a receiver ( 190, a symbol demodulator 195, and a receive data processor 197.
- the terminal 110 transmits (Tx) the data processor 165, the symbol modulator 175, the transmitter 175, the transmit / receive antenna 135, the processor 155, the memory 160, the receiver 140, and the symbol. It may include a demodulator 155 and a receive data processor 150.
- the base station 105 and the terminal 110 are provided with a plurality of transmit and receive antennas. Accordingly, the base station 105 and the terminal 110 according to the present invention support a multiple input multiple output (MIMO) system. In addition, the base station 105 according to the present invention may support both a single user-MIMO (SU-MIMO) and a multi-user-MIMO (MU-MIMO) scheme.
- MIMO multiple input multiple output
- SU-MIMO single user-MIMO
- MU-MIMO multi-user-MIMO
- the transmit data processor 115 receives the traffic data, formats the received traffic data, codes it, interleaves and modulates (or symbol maps) the coded traffic data, and modulates the symbols ("data"). Symbols ").
- the symbol modulator 120 receives and processes these data symbols and pilot symbols to provide a stream of symbols.
- the symbol modulator 120 multiplexes the data and pilot symbols and sends it to the transmitter 125.
- each transmission symbol may be a data symbol, a pilot symbol, or a signal value of zero.
- pilot symbols may be sent continuously.
- the pilot symbols may be frequency division multiplexed (FDM), orthogonal frequency division multiplexed (OFDM), time division multiplexed (TDM), or code division multiplexed (CDM) symbols.
- Transmitter 125 receives the stream of symbols and converts it into one or more analog signals, and further adjusts (eg, amplifies, filters, and frequency upconverts) the analog signals to provide a wireless channel. Generates a downlink signal suitable for transmission via the transmission antenna 130, the transmission antenna 130 transmits the generated downlink signal to the terminal.
- the receiving antenna 135 receives the downlink signal from the base station and provides the received signal to the receiver 140.
- Receiver 140 adjusts the received signal (eg, filtering, amplifying, and frequency downconverting), and digitizes the adjusted signal to obtain samples.
- the symbol demodulator 145 demodulates the received pilot symbols and provides them to the processor 155 for channel estimation.
- the symbol demodulator 145 receives a frequency response estimate for the downlink from the processor 155 and performs data demodulation on the received data symbols to obtain a data symbol estimate (which is an estimate of the transmitted data symbols). Obtain and provide data symbol estimates to a receive (Rx) data processor 150.
- Receive data processor 150 demodulates (ie, symbol de-maps), deinterleaves, and decodes the data symbol estimates to recover the transmitted traffic data.
- the processing by symbol demodulator 145 and receiving data processor 150 is complementary to the processing by symbol modulator 120 and transmitting data processor 115 at base station 105, respectively.
- the terminal 110 is on the uplink, and the transmit data processor 165 processes the traffic data to provide data symbols.
- the symbol modulator 170 may receive and multiplex data symbols, perform modulation, and provide a stream of symbols to the transmitter 175.
- the transmitter 175 receives and processes a stream of symbols to generate an uplink signal.
- the transmit antenna 135 transmits the generated uplink signal to the base station 105.
- an uplink signal is received from the terminal 110 through the reception antenna 130, and the receiver 190 processes the received uplink signal to obtain samples.
- the symbol demodulator 195 then processes these samples to provide received pilot symbols and data symbol estimates for the uplink.
- the received data processor 197 processes the data symbol estimates to recover the traffic data transmitted from the terminal 110.
- Processors 155 and 180 of the terminal 110 and the base station 105 respectively instruct (eg, control, coordinate, manage, etc.) operations at the terminal 110 and the base station 105, respectively.
- Respective processors 155 and 180 may be connected to memory units 160 and 185 that store program codes and data.
- the memory 160, 185 is coupled to the processor 180 to store the operating system, applications, and general files.
- the processors 155 and 180 may also be referred to as controllers, microcontrollers, microprocessors, microcomputers, or the like.
- the processors 155 and 180 may be implemented by hardware or firmware, software, or a combination thereof.
- ASICs application specific integrated circuits
- DSPs digital signal processors
- DSPDs digital signal processing devices
- PLDs programmable logic devices
- FPGAs Field programmable gate arrays
- the firmware or software may be configured to include a module, a procedure, or a function for performing the functions or operations of the present invention, and to perform the present invention.
- the firmware or software configured to be may be provided in the processors 155 and 180 or stored in the memory 160 and 185 to be driven by the processors 155 and 180.
- the layers of the air interface protocol between the terminal and the base station between the wireless communication system (network) are based on the lower three layers of the open system interconnection (OSI) model, which is well known in the communication system. ), And the third layer L3.
- the physical layer belongs to the first layer and provides an information transmission service through a physical channel.
- a Radio Resource Control (RRC) layer belongs to the third layer and provides control radio resources between the UE and the network.
- the terminal and the base station may exchange RRC messages through the wireless communication network and the RRC layer.
- D2D communication when a terminal performs device to device communication (hereinafter, referred to as D2D communication or D2D direct communication), data is transmitted to another terminal through centralized scheduling.
- D2D communication device to device communication
- a UE performing D2D communication performs D2D communication using a frame structure as shown in FIG. 2.
- FIG. 2 is a diagram illustrating a frame structure for D2D communication by way of example.
- D2D communication is performed using the frame structure as shown in FIG. 2, and the frame illustrated in FIG. 2 may include a discovery interval, a request and response interval, and a traffic block interval.
- a terminal capable of performing or performing D2D communication (hereinafter, referred to as a D2D terminal) may determine the presence or absence of D2D terminals in the vicinity through the discovery interval.
- the D2D UE In order to perform D2D communication through a request and response interval (Req & Rsp interval), the D2D UE transmits and receives a Tx request signal through the request and response interval, transmits a D2D request to a base station, and allocates resources.
- RA may perform an operation such as receiving information.
- Names and names for each section shown in FIG. 2 are just examples and may be referred to as other names.
- an operation region for a D2D user equipment may be defined by dividing by frequency instead of time.
- the terminal may provide information on the frame structure for the D2D communication (eg, section length (search section length, request and response section length), period, information on the number of symbols / slots / subframes, starting point) Information (information on symbols, slots, subframe indexes, etc.) may be received from a base station through a broadcasting channel (for example, PBCH (Physical Broadcasting CHannel) or a control channel (for example, PDCCH (Physical Downlink Control CHannel)) Can be.
- PBCH Physical Broadcasting CHannel
- PDCCH Physical Downlink Control CHannel
- the UE performs D2D discovery to identify neighboring UEs before performing D2D communication, and performs two operations for discovery.
- a terminal that is located in its vicinity receives a discovery signal transmitted through a broadcast signal and obtains identifier information for the terminals transmitted through the received signal to other terminals in the vicinity. It can be known whether the
- the terminal transmits its own identifier information through a discovery signal to inform its neighbors of its existence.
- the broadcast discovery signal may be transmitted using a resource (ie, empty resource) in a broadcast channel that other terminals do not use to transmit the discovery signal.
- the transmitting D2D terminal refers to a terminal that transmits a transmission request signal (TRS) signal
- the receiving D2D terminal refers to a terminal receiving the TRS signal.
- the D2D UE may transmit a TRS signal to another D2D UE or may receive a TRS signal from another D2D UE.
- TRS signal may also be called other name.
- 3 is a conceptual diagram illustrating a method of searching for neighboring terminals for D2D communication.
- the transmission D2D terminal 1 310 detects the existence of other terminals in the vicinity of the terminal itself through the discovery and transmits a request signal to the receiving D2D terminal 2 320, which is another D2D terminal in the vicinity, in order to perform D2D communication.
- Transmit Request signal can be transmitted.
- the TRS is an identifier of the transmitting D2D terminal 1 310, an identifier of the receiving D2D terminal 2 320 receiving the transmission request signal, a quality of service (Qos) of the transmitting D2D terminal 1 310, a transmission power level, and the like.
- Information may be included and may be transmitted through a broadcast channel.
- the receiving D2D UE 2 320 may receive a TRS transmitted by transmitting D2D UEs 310, 330, 340, 350, and the like. That is, in view of the D2D UE receiving the TRS, by receiving the TRS transmitted by the active D2D UEs around the user, the D2D UEs can grasp the information of the D2D UEs operating or trying to operate in the vicinity thereof. By measuring the Signal to Noise Ratio (SNR), it is possible to measure the degree of interference by other D2D links or on the D2D links.
- SNR Signal to Noise Ratio
- the receiving D2D terminal 2 320 monitoring the TRS transmitted by the transmitting D2D terminal 1 310 or the like for performing the D2D communication is applied to the TRS information received from the neighboring D2D terminals as well as the transmitting D2D terminal 1 310.
- the degree of interference received signal strength, SNR
- the adjacent D2D link list or table that is, the receiving D2D user equipment
- this list or table may include interference degree information on neighboring D2D terminals.
- the receiving D2D terminal 2 320 receives a TRS transmitted by a neighboring D2D terminal
- the destination that is, the receiver
- the signal is received.
- FIG. 3 not only the receiving D2D terminal 1 320 but also a list created by another receiving D2D terminal based on the TRS is illustrated.
- the list or table created by the receiving D2D UE2 320 includes a D2D bandwidth request or a D2D link information including a D2D indicator, a D2D identifier, and the like in an uplink control channel (for example, PUCCH ( A physical uplink control channel or a uplink data channel (for example, a physical uplink shared channel) may be transmitted to a base station.
- a list or table and bandwidth request or D2D created by the D2D UE 2 320 may be transmitted. It is called D2D link information including an indicator and a D2D identifier.
- the PUCCH may transmit a D2D bandwidth request or information on a PUSCH transmitting information on the D2D indicator and the list.
- List information obtained through the measurement may be transmitted through the PUSCH.
- the receiving D2D terminal (for example, D2D terminal 2 (320)) is the information about the transmitting D2D terminal (for example, D2D terminal 1 310) (for example, including the created neighboring D2D link list or table) And a D2D bandwidth request or a D2D indicator to the base station through the D2D request signal.
- the list transmitted by the receiving D2D terminal 2 320 to the base station may also include information on QoS between D2D links included in the TRS by the transmitting D2D terminal.
- the receiving D2D UE 2 320 receives a TRS from neighboring transmitting D2D UEs 310, 330, 340, and 350 to receive information about a neighboring D2D UE that has been acquired for a predetermined period or event triggering.
- the TRS is transmitted by measuring the TRS signal can be transmitted to the base station.
- the receiving D2D terminal when there is a transmitting D2D terminal that transmits a D2D request to perform D2D communication from the information found through the TRS signal received by the receiving D2D terminal (D2D request for itself and / or D2D for another receiving D2D terminal Transmit the measured information only to the base station.
- the receiving D2D terminal can reduce the overhead of transmitting information on the terminal that has not performed D2D by feeding back measurement information to the base station only when there is a D2D request for itself.
- D2D UE 2 320 receives the TRS, but the other D2D UEs 310, 330, 340, and 350 also receive TRSs from the D2D UEs to perform D2D communication. Can be.
- the base station may receive the TRS information and the D2D request information received from the transmitting D2D terminals from the receiving D2D terminal, and may perform 1) D2D link formation and 2) resource allocation for the D2D link.
- a D2D link formation and a resource allocation operation for the D2D link will be described.
- the transmitting D2D terminal transmits a TRS signal to a desired receiving D2D terminal to perform the D2D communication, and at this time, the receiving D2D terminal performs a measurement on the TRS received from the transmitting D2D terminals to prepare a list.
- the receiving D2D terminal transmits the created list to the base station, so that the base station transmits the received D2D terminal through the received list to the receiving D2D terminal, that is, information on a destination or D2D link when performing D2D communication. Can be identified.
- the base station determines the information (identifier, Qos, transmission power level) of the transmitting D2D terminals and the received signal strength between each transmitting D2D terminal and the receiving D2D terminal through the list information. Information can be obtained. Based on the obtained information, the base station may set (or determine) a transmitting D2D terminal to perform D2D communication with the receiving D2D terminal with the received signal strength and QoS.
- the transmitting D2D terminal that wants to perform D2D communication with the receiving D2D terminal 1 (Rx 1) is the transmitting D2D terminal 1 and the transmitting D2D terminal 3 (Tx1 and Tx 3), from the transmitting D2D terminal 1 (Tx1).
- the base station transmits the QoS level and the reception transmitted by each transmitting D2D terminal. Compare signal strength.
- the signal strength between the two terminals is good for the transmitting D2D terminal 1 (Tx1) and the receiving D2D terminal 1 (Rx1), but the link is difficult to meet the required QoS level (that is, 7), it is possible to satisfy the QoS level
- the connection between the transmitting D2D terminal 3 (Tx3) and the receiving D2D terminal 1 (Rx1) may be selected as the D2D link.
- the base station selects a transmitting D2D terminal to transmit data to the receiving D2D terminal through the D2D, and may indicate this to the configured D2D pair (specifically transmitting D2D terminal and specific transmitting D2D terminal).
- the base station may list the links included in the list by QoS level or SNR (or received signal strength), and form the links in high order.
- the base station that has set up the transmitting D2D terminal to perform D2D on the receiving D2D terminals through the D2D link establishment may use the D2D configured using the signal strength received from other transmitting D2D terminals included in the list information transmitted by the receiving D2D terminal. Resource allocation for the link can be performed. In this case, since a D2D link including a transmitting D2D terminal having a large reception signal strength measured by a receiving D2D terminal of a configured D2D link has a large strength of interference affecting the D2D link and each other, the base station has different resources ( Or band) can reduce the effects of interference with each other.
- the D2D link of the transmitting D2D terminal that is not strong in the received signal or is not included in the list transmitted by the receiving D2D terminal may be allocated to the same resource (or band). That is, frequency efficiency can be improved by allocating the same resource to multiple D2D links that do not interfere with each other.
- the base station may allocate a plurality of resources or bands by setting priority for each resource without allocating only one resource to the configured D2D link.
- FIG. 4 is an exemplary diagram for explaining D2D link establishment and resource allocation for a D2D link.
- FIG. 4 illustrates a D2D link and resource allocation formed through a discovery process of a neighboring terminal for the D2D communication described with reference to FIG. 3.
- a receiving D2D terminal 1 420 (Rx 1) transmits D2D terminal 1 410 (Tx 1) and a transmitting D2D terminal 5 460 that want to perform D2D communication with itself.
- the receiving D2D terminal 1 (420) (Rx 1) is the transmitting D2D terminal 3 (430) (Tx 3), the transmitting D2D terminal 4 440 (Tx 4), the transmitting D2D terminal 6 (450) (Tx 6) )
- the terminal also receives the TRS transmitted to different receiving D2D terminals and prepares a list by using the identifier, QoS, transmission power, and received signal strength of the terminal.
- the receiving D2D terminal 2, 3, 4 (475, 465, 470) (Rx 2, Rx 3, Rx 4) is also the receiving D2D terminal different from the TRS coming to its own as the receiving D2D terminal 1 (420) (Rx 1) Create a list by receiving the TRS sent to the user.
- Each of the receiving D2D terminals 420, 475, 465, and 470 transmits the list (including identifiers, QoS, received signal strength, or SNR, etc. of the transmitting D2D terminal and the receiving D2D terminal) to each base station.
- the pairing operation of the D2D link that is, the transmitting D2D terminal and the receiving D2D terminal is performed based on the list information.
- resources (or bands) for performing D2D on the D2D links Tx1-Rx1, Tx2-Rx2, Tx3-Rx3, Tx4-Rx4, Tx6-Rx6) formed as shown in FIG.
- the terminals 420, 475, 465, and 470 allocate links having no interference to the same resource in consideration of the received signal strength or the level of interference received from another D2D link in the list received from the terminal.
- the interference on the D2D link 1 (Tx1-Rx1) formed by the base station is transmitted through the list transmitted by the receiving D2D UE 3, 4, 6 (403, 440, 460) ( Tx3, Tx4, and Tx6). Since the transmitting D2D terminal 3, 4, 6 (430, 440, 460) (Tx3, Tx4, Tx6) terminal also forms a D2D link, the base station is the transmitting D2D terminal 3, 4, 6 (430, 440, 460) By assigning different resources to the D2D link and the D2D link 1 (Tx1-Rx1) including the (Tx3, Tx4, Tx6) terminals, the influence of interference may be reduced.
- the base station is the D2D link 1 (Tx1-Rx1) and the transmitting D2D terminal 3, 4, 6 (430). (440, 460) (Tx3, Tx4, Tx6)
- the same resource may be allocated between the D2D link including the terminals. In this case, even if the D2D link affecting the interference does not exceed the threshold for the D2D transmission, it may be allocated to the same resource.
- the base station that has performed the configuration of the D2D UE and the resource allocation for the configured D2D link transmits the information to each D2D UE through a control channel (for example, a physical downlink control channel (PDCCH)).
- a control channel for example, a physical downlink control channel (PDCCH)
- the information or signal transmitted from the base station to the D2D link terminal through the PDCCH is measured information (pilot sequence, transmission power, cyclic shift value) for measuring the channel state between the two terminals through the allocated channel or resource. Configuration information, etc.), a measurement indicator, and a threshold value for D2D transmission.
- the base station may pair / group several D2D links allocated to the same resource and transmit resource allocation information to the D2D terminal at once.
- the transmitting D2D terminal and the receiving D2D terminal may perform D2D communication in consideration of the channel state with respect to the resource (channel or band) allocated by the base station. That is, the transmitting D2D terminal transmits a reference signal (or a pilot signal) to the receiving D2D terminal through the allocated resource (channel or band), and the receiving D2D terminal can receive the channel signal by measuring and receiving the reference signal.
- the receiving D2D UE determines the channel state (CQI (Channel Quality Information), CSI (Channel State Imformation), Signal to Interference plus Noise to Ratio (SINR), etc.) through the pilot or reference signal transmitted by the transmitting D2D UE. Feedback to the transmitting D2D terminal that has transmitted the reference signal.
- the transmitting D2D terminal receiving the measurement result for the channel from the receiving D2D terminal may determine whether to perform D2D communication on a corresponding resource or channel by comparing with a threshold received from the base station.
- the transmitting D2D user equipment transmits a bandwidth request (BR) to the base station without performing D2D communication through the channel to re-resource the resource for D2D communication.
- the measurement is performed again by using a resource or channel corresponding to the next rank among several channels allocated or transmitted by the base station.
- D2D communication is performed using the corresponding channel.
- 5 is an exemplary diagram for explaining a process for transmitting data through D2D communication by a D2D user equipment.
- the receiving D2D terminal 5 receives a TRS signal from the transmitting D2D terminals Tx 4, Tx 5, Tx 6, and Tx 7, and the receiving D2D terminal 1 (Rx 1) transmits.
- the TRS signal may be received from the D2D terminals Tx 1, Tx 2, Tx 3, and Tx 4 (S510).
- the receiving D2D terminal 1, 5 does not directly transmit the information obtained through the TRS to the base station, but through the measurement of the band or resources through the strength of the signal strength / interference for each band or resource Determine (S520).
- the receiving D2D terminals 1 and 5 may transmit all information on each band or resource obtained through the measurement to the base station, but the best band / resource (best band) in consideration of signaling overhead / resource) or information on the worst band / resource may be transmitted to the base station together with the list information on the neighboring terminal (S520).
- the best band / resource is the smallest measured signal strength / interference, which corresponds to the band or resource that is desired to perform D2D communication, and conversely, the worst band / resource. resource) is the largest signal strength / interference strength, and means a band or a resource to be avoided due to the high influence of interference when performing D2D communication.
- the best or worst band (or resource) information transmitted by the receiving D2D terminals 1 and 5 (Rx 1 and Rx 5) to the base station may be information on one band or resource or a set composed of several. In the case of transmitting a set, the order is transmitted in order.
- Receiving D2D terminals 1, 5 transmits the information on each identified band or resource to the base station as the information on the neighboring D2D terminal (S530).
- the base station receiving the list of the neighboring D2D terminals transmitted by the receiving D2D terminals 1 and 5 (Rx 1 and Rx 5) and the information on the best or worst band / resource and the D2D pair through the information
- the resource to be allocated may be determined for each D2D link.
- the best band / resource may be allocated for each D2D link or other band / resource may be allocated except for the worst band / resource.
- the base station determines the QoS and By comparing the strength / interference of the signal, the best bandwidth / resource can be allocated to a D2D link having a better performance (ie, a link having a lower interference strength or a link having a higher QoS).
- the base station may allocate an optimal resource / band to each D2D link by using channel state and interference information on resources / bands obtained through information and measurement on neighboring D2D terminals transmitted by the D2D UE.
- the base station may allocate the same resources to the two D2D links.
- the base station that has allocated the resource / band for the D2D link may transmit a response message including resource allocation information (RA info), D2D pair information, and yielding information to the transmitting D2D terminals and the receiving D2D terminal ( S550).
- RA info resource allocation information
- D2D pair information D2D pair information
- yielding information refers to information indicating that the current specific D2D user equipment cannot communicate with another specific D2D user equipment.
- transmitting D2D terminals eg, transmitting D2D terminal 1 (Tx 1) and transmitting D2D terminal 5 (Tx 5)
- the receiving D2D terminal 1 (Rx 1)) and the reference signal may be transmitted to the receiving D2D terminal 5 (Rx 5) (S560).
- the receiving D2D terminal 1 (Rx 1) and the receiving D2D terminal 5 (Rx 5) may respectively measure the channel state based on the received reference signal (S570), and transmit the transmitted D2D for the measured channel state, respectively.
- the terminal 1 (Tx 1) and the transmission may be fed back to the D2D terminal 5 (Tx 5) (S580).
- the transmitted D2D terminal 1 Tx 1
- the respective D2D communication is performed (S590).
- the transmitted D2D UE 5 (Tx 5) transmits a bandwidth request to the base station when the fed back channel state is not better than the threshold compared to the threshold for D2D transmission (S585), and re-assigns the allocated resource. Through D2D communication is performed (S590).
- D2D UEs can efficiently perform D2D communication using an optimal D2D link and an optimally allocated resource.
- each component or feature is to be considered optional unless stated otherwise.
- Each component or feature may be embodied in a form that is not combined with other components or features. It is also possible to combine some of the components and / or features to form an embodiment of the invention.
- the order of the operations described in the embodiments of the present invention may be changed. Some components or features of one embodiment may be included in another embodiment or may be replaced with corresponding components or features of another embodiment. It is obvious that the claims may be combined to form an embodiment by combining claims that do not have an explicit citation relationship in the claims or as new claims by post-application correction.
- Methods for performing direct communication between terminals, a method for supporting the same, and an apparatus therefor may be industrially used in various communication systems such as 3GPP LTE, LTE-A, and IEEE 802.
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Abstract
Description
Claims (14)
- 단말 간(Device-to-Device, D2D) 통신을 지원하는 무선통신 시스템에서 단말 간 직접 통신을 수행하는 D2D 단말이 통신을 수행하는 방법에 있어서,적어도 하나의 다른 D2D 단말로부터 각각 D2D 통신을 원하는 요청 신호인 전송 요청 신호를 수신하는 단계;상기 수신한 적어도 하나의 전송 요청 신호에 대한 수신신호 세기 또는 신호 대 잡음비(Signal to Noise Ratio, SNR)를 측정하는 단계;상기 측정에 기초하여 상기 D2D 단말과 상기 적어도 하나의 다른 D2D 단말간의 D2D 링크에 대한 수신신호 세기 또는 SNR 정보 및 상기 적어도 하나의 다른 D2D 단말로 인한 간섭의 정도에 대한 정보 중 적어도 하나의 정보를 포함하는 D2D 링크 정보를 생성하는 단계; 및상기 생성된 D2D 링크 정보와 상기 D2D 통신을 위한 대역폭 요청을 기지국으로 전송하는 단계를 포함하는, D2D 단말의 통신 수행 방법.
- 제 1항에 있어서,상기 전송 요청 신호는 상기 전송 요청 신호를 전송하는 전송 D2D 단말 및 상기 전송 요청 신호를 수신하는 수신 D2D 단말의 식별자, 서비스 품질(QoS) 정보, 전송 파워 레벨 정보 중 적어도 하나를 포함하는, D2D 단말의 통신 수행 방법.
- 제 1항에 있어서,상기 D2D 링크 정보는 상기 D2D 단말과 D2D 통신을 원하는 전송 요청 신호를 전송한 적어도 하나의 다른 D2D 단말 간의 D2D 링크 정보인, D2D 단말의 통신 수행 방법.
- 제 1항에 있어서,상기 D2D 링크 정보는 상기 D2D 단말과 채널 상태가 가장 양호한 다른 D2D 단말 간의 D2D 링크에 대한 수신신호 세기 또는 SNR 정보를 포함하는, D2D 단말의 통신 수행 방법.
- 제 1항에 있어서,상기 생성된 D2D 링크 정보는 데이터 채널, 상기 대역폭 요청은 제어 채널을 통해 전송되는, D2D 단말의 통신 수행 방법.
- 단말 간(Device-to-Device, D2D) 통신을 지원하는 무선통신 시스템에서 기지국이 D2D 통신을 지원하는 방법에 있어서,D2D 통신을 원하는 요청 신호인 전송 요청 신호를 수신한 적어도 하나의 D2D 단말로부터 D2D 단말들 간의 링크에 대한 수신신호 세기 또는 신호 대 잡음비(Signal to Noise Ratio, SNR) 정보 및 상기 전송 요청 신호를 전송한 적어도 하나의 다른 D2D 단말로 인한 간섭의 정도에 대한 정보 중 적어도 하나의 정보를 포함하는 D2D 링크 정보를 수신하는 단계;상기 수신한 D2D 단말들 간의 링크에 대한 수신신호 세기 또는 SNR 정보 및 상기 간섭의 정도에 대한 정보 중 적어도 하나의 정보에 기초하여 D2D 단말들 간의 적어도 하나의 D2D 링크를 설정하는 단계를 포함하되,상기 설정된 D2D 링크 정보는 D2D 통신을 수행할 D2D 단말 페어에 대한 정보를 포함하는, D2D 통신 지원 방법.
- 제 6항에 있어서,상기 수신된 D2D 링크 정보는 상기 전송 요청 신호를 전송한 적어도 하나의 D2D 단말 및 상기 전송 요청 신호를 수신한 적어도 하나의 D2D 단말의 식별자와 상기 전송 요청 신호를 전송한 상기 적어도 하나의 D2D 단말의 서비스 품질(QoS) 정보를 더 포함하며,상기 D2D 링크 설정 단계는 상기 서비스 품질을 더 고려하여 상기 D2D 단말들 간의 D2D 링크를 설정하는 것을 특징으로 하는, D2D 통신 지원 방법.
- 제 6항에 있어서,상기 설정된 적어도 하나의 D2D 링크들 간의 간섭 정도를 고려하여 상기 설정된 적어도 하나의 D2D 링크에 대해 자원을 할당하는 단계를 더 포함하는, D2D 통신 지원 방법.
- 제 8항에 있어서,서로 간섭을 미치지 않는 상기 설정된 적어도 하나의 D2D 링크들 간에 대해서는 동일한 자원을 할당하는, D2D 통신 지원 방법.
- 제 8항에 있어서,서로 간섭을 미치는 상기 설정된 적어도 하나의 D2D 링크들 간에 대해서는 서로 다른 자원을 할당하는, D2D 통신 지원 방법.
- 단말 간(Device-to-Device, D2D) 통신을 지원하는 무선통신 시스템에서 단말 간 직접 통신을 수행하는 D2D 단말에 있어서,적어도 하나의 다른 D2D 단말로부터 각각 D2D 통신을 원하는 요청 신호인 전송 요청 신호를 수신하는 수신기;상기 수신한 적어도 하나의 전송 요청 신호에 대한 수신신호 세기 또는 신호 대 잡음비(Signal to Noise Ratio, SNR)를 측정하고, 상기 측정에 기초하여 상기 D2D 단말과 상기 적어도 하나의 다른 D2D 단말간의 D2D 링크에 대한 수신신호 세기 또는 SNR 정보 및 상기 적어도 하나의 다른 D2D 단말로 인한 간섭의 정도에 대한 정보 중 적어도 하나의 정보를 포함하는 D2D 링크 정보를 생성하는 프로세서; 및상기 생성된 D2D 링크 정보와 상기 D2D 통신을 위한 대역폭 요청을 기지국으로 전송하는 송신기를 포함하는, D2D 단말.
- 단말 간(Device-to-Device, D2D) 통신을 지원하는 무선통신 시스템에서 D2D 통신을 지원하는 기지국에 있어서,D2D 통신을 원하는 요청 신호인 전송 요청 신호를 수신한 적어도 하나의 D2D 단말로부터 D2D 단말들 간의 링크에 대한 수신신호 세기 또는 신호 대 잡음비(Signal to Noise Ratio, SNR) 정보 및 상기 전송 요청 신호를 전송한 적어도 하나의 다른 D2D 단말로 인한 간섭의 정도에 대한 정보 중 적어도 하나의 정보를 포함하는 D2D 링크 정보를 수신하는 수신기;상기 수신한 D2D 단말들 간의 링크에 대한 수신신호 세기 또는 SNR 정보 및 상기 간섭의 정도에 대한 정보 중 적어도 하나의 정보에 기초하여 D2D 단말들 간의 적어도 하나의 D2D 링크를 설정하는 프로세서를 포함하되,상기 설정된 D2D 링크 정보는 D2D 통신을 수행할 D2D 단말 페어에 대한 정보를 포함하는, 기지국.
- 제 12항에 있어서,상기 수신된 D2D 링크 정보는 상기 전송 요청 신호를 전송한 적어도 하나의 D2D 단말 및 상기 전송 요청 신호를 수신한 적어도 하나의 D2D 단말의 식별자와 상기 전송 요청 신호를 전송한 상기 적어도 하나의 D2D 단말의 서비스 품질(QoS) 정보를 더 포함하며,상기 프로세서는 상기 D2D 링크 설정에서 상기 서비스 품질을 더 고려하여 상기 D2D 단말들 간의 D2D 링크를 설정하는 것을 특징으로 하는, 기지국.
- 제 12항에 있어서,상기 프로세서는 상기 설정된 적어도 하나의 D2D 링크들 간의 간섭 정도를 고려하여 상기 설정된 적어도 하나의 D2D 링크에 대해 자원을 할당하는 것을 특징으로 하는, D2D 통신 지원 방법.
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Also Published As
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US9319931B2 (en) | 2016-04-19 |
KR20140058644A (ko) | 2014-05-14 |
US20140219095A1 (en) | 2014-08-07 |
WO2013028044A3 (ko) | 2013-05-10 |
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