KR20140011954A - Communicating method of terminal and station for direct communication link between terminals - Google Patents

Abstract

A communicating method of a terminal and a station for a direct communication link between terminals is disclosed. A station schedules a reference terminal to transmit ranging codes; and schedules a target terminal to receive ranging codes. The reference terminal measures the ranging code received from the target terminal; and transmits the measurement result of the ranging code to the station. The station selects a terminal for forming a direct communication link with the reference terminal from the target terminals based on the measurement result of the ranging code. [Reference numerals] (100) Base station; (200A) Reference terminal; (200B) Target terminal

Description

A communication method of a terminal and a communication method of a base station for a direct communication link between terminals {COMMUNICATING METHOD OF TERMINAL AND STATION FOR DIRECT COMMUNICATION LINK BETWEEN TERMINALS}

The present invention relates to a communication method of a terminal and a communication method of a base station for establishing and utilizing a direct communication link between terminals.

In order to support proximity-based services in a mobile communication system, a method of communicating by forming a direct communication link between terminals has been proposed. In particular, a direct communication link between terminals has been discussed in IEEE 802.16n, IEEE 802.16.1a, and 3GPPP Direct Communication.

When both terminals exist in the access area of the base station and exist in the communication area with each other, a direct communication link is formed between the terminals to exchange data between the terminals. Under the frame structure of infrastructure communication (ie cellular communication) between a base station and a terminal, some of the resources for cellular communication are used by terminals utilizing a direct communication link between terminals. Some of the uplink resources in the infrastructure communication (cellular communication) frame are allocated as a radio communication resource for the direct communication link between terminals, and the base station and the terminal participating in the infrastructure communication do not use the resources allocated for the direct communication link between the terminals. . In this allocated resource, terminals perform a direct communication link between terminals as a direct communication link protocol and procedure.

While the existing proposed methods deal with methods of performing communication using a direct link between terminals, there is insufficient development of a search method of a neighboring terminal for determining whether a direct communication link between terminals is possible.

An object of the present invention is to provide a method for searching for neighboring terminals to establish a direct communication link between terminals.

Another object of the present invention is to provide a method for continuously monitoring the quality of the direct communication link when there is a direct communication link between terminals.

Another problem to be solved by the present invention is to provide a method for detecting when a terminal forming a direct communication link between terminals is out of the area of the base station.

According to an embodiment of the present invention, a communication method of a base station for controlling a direct communication link between terminals is provided. The communication method may include selecting a first terminal as a reference terminal to form the direct communication link, selecting a second terminal as a candidate terminal to form the direct communication link with the first terminal, and the second terminal. Scheduling the first terminal so that a first terminal transmits a first ranging code, scheduling the second terminal so that the second terminal receives the first ranging code, and the second terminal Receiving first information measured using the first ranging code received from the first terminal from the second terminal, and using the first information, the first terminal of the second terminal And selecting a third terminal to form the direct communication link.

The communication method may include: scheduling the first terminal so that the first terminal periodically transmits a second ranging code, and wherein the third terminal periodically receives the second ranging code. The method may further include scheduling the terminal.

The communication method may further include receiving second information measured by the third terminal using the second ranging code periodically received from the first terminal, and receiving the second information. The method may further include determining whether or not the quality of the direct communication link is lost.

In the periodic communication method, when the second ranging code is not received from the first terminal, determining that the first terminal has lost coverage, and the second information is not received from the third terminal. If not, the method may further include determining that the third terminal has lost coverage.

The scheduling of the first terminal may include transmitting a ranging command message to the first terminal, wherein the ranging command message includes a field in which transmission information of the first ranging code is set. It may include.

The scheduling of the second terminal may include transmitting a ranging command message to the second terminal, wherein the ranging command message includes a field in which reception information of the first ranging code is set. It may include.

Scheduling the first terminal to periodically transmit the second ranging code may include transmitting a ranging command message to the first terminal, wherein the ranging command message is the second lane. It may include a field indicating a transmission period of the gong code, and a field indicating the transmission duration of the second ranging code.

The scheduling of the third terminal may include transmitting a ranging command message to the third terminal, wherein the ranging command message is a field indicating a reception period of the second ranging code, and the It may include a field indicating the reception duration of the second ranging code.

Receiving the first information from the second terminal may include receiving a ranging response message from the second terminal, and the ranging response message may include a field indicating the first information. Can be.

According to another embodiment of the present invention, a communication method of a terminal, which is a reference for forming a direct communication link between terminals, is provided. The communication method includes the steps of: being scheduled by a base station to transmit a first ranging code; transmitting the first ranging code to a target terminal that is a candidate to form the direct communication link with the terminal; and the target And forming the direct communication link with a selected terminal selected based on a measurement result of the first ranging code measured by the target terminal among the terminals.

The communication method may further include scheduling by the base station to periodically transmit a second ranging code, and periodically transmitting the second ranging code to the selection terminal.

If the base station does not receive the second ranging code, it may be determined that the terminal has lost coverage.

The scheduling by the base station may include receiving a ranging command message from the base station, and the ranging command message may include a field in which transmission information of the first ranging code is set. have.

Scheduling by the base station to transmit the second ranging code may include receiving a ranging command message from the base station, wherein the ranging command message is a transmission period of the second ranging code. And a field indicating a transmission duration of the second ranging code.

According to another embodiment of the present invention, a communication method of a base station for controlling a direct communication link between terminals is provided. The communication method may include selecting a first terminal which is a reference for forming the direct communication, selecting a second terminal that is a candidate for forming the direct communication link with the first terminal, and wherein the second terminal is selected. Transmitting a first ranging command message to the second terminal to transmit a first ranging code, and a second ranging command to the first terminal so that the first terminal receives the first ranging code Transmitting a message, receiving first information measured by the first terminal using the first ranging code received from the second terminal, from the first terminal, and using the first information The method may include selecting a third terminal to form the direct communication link with the first terminal among the second terminals.

The communication method may further include transmitting a third ranging command message to the first terminal such that the first terminal periodically receives a second ranging code, and wherein the third terminal transmits the second ranging code. The method may further include transmitting a fourth ranging command message to the third terminal to transmit periodically.

The communication method may further include receiving, from the first terminal, second information measured by the first terminal using the second ranging code periodically received from the third terminal, and receiving the second information. The method may further include determining whether or not the quality of the direct communication link is lost.

The first ranging command message may include a field in which transmission information of the first ranging code is set, and the second ranging command message is a field in which reception information of the first ranging code is set. The third ranging command message may include a field indicating a reception period of the second ranging code, and a field indicating a reception duration of the second ranging code. The ranging command message may include a field indicating a transmission period of the second ranging code, and a field indicating a transmission duration of the second ranging code.

The communication method may include determining that the first terminal has lost coverage when the second information is not received from the first terminal, and when the second ranging code is not received from the third terminal. The method may further include determining that the third terminal has lost coverage.

According to an embodiment of the present invention, the base station may search for terminals capable of forming a direct communication link between terminals, whereby a proximity-based service may be provided through a direct communication link.

According to an embodiment of the present invention, the base station may periodically obtain quality information of the direct communication link between the terminals, and may quickly recognize when the terminal forming the direct communication link leaves the area of the base station. In addition, since the base station can quickly recognize the loss of the direct communication link and the loss of coverage, the restoration of the direct communication link or the service recovery procedure can be performed quickly.

1 is a diagram illustrating a mobile communication system for a direct communication link between terminals according to an embodiment of the present invention.
2 is a diagram illustrating a procedure for searching for a terminal to form a direct communication link between terminals according to an embodiment of the present invention.
3 is a diagram illustrating a procedure for searching for a terminal to form a direct communication link between terminals according to another embodiment of the present invention.
FIG. 4 is a diagram illustrating a case where a direct communication link is used to provide proximity based service.
5 is a diagram illustrating a case in which a direct communication link is used for the loss recovery of the reference terminal 200A.
6 is a diagram illustrating a procedure for monitoring the quality of a direct communication link between terminals according to an embodiment of the present invention.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

Throughout the specification, a terminal may be a mobile terminal (MT), a mobile station (MS), an advanced mobile station (AMS), a high reliability mobile station (HR-MS). May also refer to a subscriber station (SS), a portable subscriber station (PSS), an access terminal (AT), a user equipment (UE), and the like. May include all or part of the functionality of the MS, SS, PSS, AT, UE and the like.

Also, a base station (BS) is an advanced base station (ABS), a high reliability base station (HR-BS), a node B, an evolved node B, eNodeB), an access point (AP), a radio access station (RAS), a base transceiver station (BTS), a mobile multihop relay (MMR) BS, RS, HR, RS, etc.) may be referred to as a high reliability relay station (HR-RS) -RS, and the like.

Hereinafter, a communication method of a terminal and a communication method of a base station for a direct communication link between terminals according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

A communication method of a terminal and a communication method of a base station for establishing a direct communication link between terminals according to an embodiment of the present invention are largely a procedure of searching for a terminal to form a direct communication link between terminals, and a terminal to form a direct communication link between terminals. It is divided into a procedure for selecting a procedure, a process for monitoring the quality of the direct communication link between the terminals and a process for detecting the loss of coverage of the terminal forming the direct communication link. Each of these procedures is described below.

First, a procedure of searching for a terminal for forming a direct communication link between terminals according to an embodiment of the present invention will be described with reference to FIGS. 1 and 2.

1 is a diagram illustrating a mobile communication system for a direct communication link between terminals according to an embodiment of the present invention.

As shown in FIG. 1, a mobile communication system according to an exemplary embodiment of the present invention includes a base station 100 and terminals 200A and 200B in a coverage area of the base station 100. In FIG. 1, 200A is a terminal (hereinafter referred to as reference terminal) as a reference for a direct communication link between terminals, and 200B is a terminal (hereinafter, referred to as a candidate) to form a direct communication link with the reference terminal 200A. (Target) terminal). Here, it is assumed that the reference terminal 200A is predetermined by communication between the reference terminal 200A and the base station 100.

In order to discover the reference terminal 200A and the target terminal 200B, the base station 100 may schedule the reference terminal 200A to transmit a ranging code on a specific resource, and the target terminal 200B may lane on that resource. It can be scheduled to receive the gong code. In this case, the target terminal 200B receiving the ranging code may be all terminals in the cell, and the base station 100 may arbitrarily select terminals adjacent to the reference terminal 200A as the target terminal 200B. . In this way, when the base station 100 schedules transmission and reception of the ranging code, the same resource can be assigned to all target terminals 200B, so that the broadcast can be used. This allows the discovery procedure to be performed with a small number of message transmissions.

2 is a diagram illustrating a procedure for searching for a terminal to form a direct communication link between terminals according to an embodiment of the present invention.

When the base station 100 schedules the ranging code transmission of the reference terminal 200A and the reception of the ranging code of the target terminal 200B, the ranging command message (AAI-HR-RNG-CMD, Advanced Air Interface-High Reliability) Ranging-Command) is used, which can be replaced with other messages depending on the purpose.

First, the base station 100 transmits a ranging command message (AAI-HR-RNG-CMD) to the reference terminal 200A (S210), through which the reference terminal 200A is scheduled to transmit a ranging code. The ranging command message (AAI-HR-RNG-CMD) includes an Action field, a Frame field, an Index field, a Subframe Index field, and a Dedicated Ranging Code Index field. Here, the Action field is used to indicate that scheduling or transmission of the ranging code. Therefore, the Action field of the ranging command message (AAI-HR-RNG-CMD) transmitted to the reference terminal 200A is set to ranging code transmission, through which the reference terminal 200A is ranging. Scheduled to send code. The Frame field and the Subframe field are used to indicate the location of resources for transmitting the ranging code, and the Dedicated Ranging Code Index is used to specify the ranging code to be transmitted by the reference terminal 200A.

The base station 100 also transmits a ranging command message (AAI-HR-RNG-CMD) to the target terminal 200B (S220), through which the target terminal 200B is scheduled to receive the ranging code. That is, the ranging code reception of the target terminal 200B is also scheduled by the ranging command message AAI-HR-RNG-CMD. The ranging request message (AAI-HR-RNG-CMD) transmitted to the target terminal 200B may include an action field, a frame index field, a subframe index field, and the like. The Action field of the ranging command message (AAI-HR-RNG-CMD) is set to ranging code reception. Through this, the target terminal 200B is scheduled to receive the ranging code.

In addition, the ranging command message (AAI-HR-RNG-CMD) received by the target terminal 200B may include a Dedicated Ranging Code Index field. When the ranging command message (AAI-HR-RNG-CMD) includes the Dedicated Ranging Code Index field, the target terminal 200B sends the measurement result of the ranging code to the base station 100 only when receiving the designated code. Inform. If the ranging command message (AAI-HR-RNG-CMD) does not include the Dedicated Ranging Code Index field, the target terminal 200B informs the base station 100 of the measurement results of all received ranging codes.

As such, when the reference terminal 200A is scheduled to transmit the ranging code and the target terminal 200B is scheduled to receive the ranging code by the ranging command message AAI-HR-RNG-CMD, the reference terminal 200A transmits a ranging code to the target terminal 200B (S230).

When the target terminal 200B receives the ranging code transmitted by the reference terminal 200A, the target terminal 200B receives the ranging result (ie, the ranging code measurement result) from the ranging response message (AAI-HR-RNG-REP, Advanced Air Interface). High Reliability-Ranging-Reply) informs the base station 100 (S240). The ranging response message (AAI-HR-RNG-REP) used to inform the result of the ranging code reception includes a frame index field, a subframe index field, a dedicated ranging code index field, an SINR field, a time offset field, and a frequency. An offset (Frequency Offset) field and the like. Here, the Frame Index field and the Subframe Index field indicate the location of the resource that received the ranging code, and the Dedicated Ranging Code Index field is used to identify the received ranging code. The SINR field, the time offset field, and the frequency offset field are used to indicate a measurement result of the received ranging code.

By the procedure described with reference to FIG. 2, the base station 100 schedules transmission or reception of the ranging code, and the target terminal 200B informs the base station 100 of the ranging code measurement result. Through this, the base station 100 can know the information of the target terminal 200B that can form a link with the reference terminal 200A.

3 is a diagram illustrating a procedure for searching for a terminal to form a direct communication link between terminals according to another embodiment of the present invention.

Unlike the embodiment of FIG. 2, the base station 100 schedules the reference terminal 200A to receive the ranging code through at least one resource and uses different resources or different code indexes to the target terminal 200B. The ranging code may be scheduled to be transmitted.

As shown in FIG. 3, the base station 100 transmits the ranging command message (AAI-HR-RNG-CMD) to the reference terminal 200A and the Action field of the ranging command message (AAI-HR-RNG-CMD). Is set to a ranging code reception (S310).

The base station 100 transmits the ranging command message AAI-HR-RNG-CMD to the target terminal 200B, and the action field of the ranging command message AAI-HR-RNG-CMD transmits a transmission code. code transmission) (S320). In this case, when there are a plurality of target terminals 200B, different resources or different code indices are allocated to each target terminal 200B. Accordingly, the base station 100 may transmit a ranging command command message (AAI-HR-RNG-CMD) to each target terminal 200B.

By the above steps S310 and S320, the reference terminal 200A is scheduled to receive the ranging code and the target terminal 200B is scheduled to transmit the ranging code.

Next, each target terminal 200B transmits a ranging code to the reference terminal 200A by using different resources or different code indices (S330).

The reference terminal 200A measures the ranging code received from the target terminal 200B and transmits the measurement result to the base station 100 through the ranging response message AAI-HR-RNG-REP (S340). According to the embodiment of the present invention, even if the reference terminal 200A receives the ranging code from each target terminal 200B, the base station transmits the measurement result at once through the ranging response message (AAI-HR-RNG-REP). 100 can be transmitted.

After the base station 100 receives the ranging measurement result as shown in FIG. 2 or FIG. 3, the base station 100 performs a procedure for selecting a terminal to form a direct communication link between terminals. The base station 100 selects a target terminal to form a direct communication link with the reference terminal 200A among the target terminals 200B, and the selected target terminal is hereinafter referred to as 'selection terminal 200B'.

FIG. 4 is a diagram illustrating a case where a direct communication link is used to provide proximity based service.

The base station 100 may classify a service that can be provided through a direct communication link with the reference terminal 200A by using the received ranging measurement result. The base station 100 may select the selection terminal 200B 'from the target terminal 200B so that the reference terminal 200A may provide a specific service such as a neighboring terminal and a social network service using a direct communication link. have.

There are various ways for the base station 100 to select a service to be provided by using a direct communication link among the services of the reference terminal 200A. First, a method using a direct communication link between terminals for all services may be applied. Secondly, a method using a direct communication link can be applied when radio resources can be saved.

On the other hand, in addition to providing a neighbor-based service through a direct communication link, when the reference terminal 200A is lost from the base station 100 as shown in FIG. 5, a direct communication link may be used for recovery of the reference terminal 200A. have.

5 is a diagram illustrating a case in which a direct communication link is used for the loss recovery of the reference terminal 200A.

The base station 100 may select the selection terminal 200B 'to replace the reference terminal 200A among the target terminals 200B adjacent to the reference terminal 200A, and the selection terminal 200B' is the reference terminal 200A. It can perform the function of relaying data.

Various criteria may also be applied to the method for the base station 100 to select the selection terminal 200B 'to configure an alternative path of the reference terminal 200A. For example, a method of selecting a terminal having the best link quality with the reference terminal 200A as the selection terminal 200B 'may be applied. A method of selecting a terminal having the best link quality with the base station 100 as the selection terminal 200B 'may be applied. In addition, a method of selecting a terminal having a good link quality with the reference terminal 200A and a link quality with the base station 100 as the selection terminal 200B 'may be applied.

After the base station 100A selects the selection terminal 200B 'to form a direct communication link with the reference terminal 200A, a procedure for monitoring the quality of the direct communication link is performed. That is, the base station 100A may periodically monitor the link quality between the reference terminal 200A and the selection terminal 200B '. This will be described in detail below.

6 is a diagram illustrating a procedure for monitoring the quality of a direct communication link between terminals according to an embodiment of the present invention.

In order to monitor the direct communication link between the reference terminal 200A and the selection terminal 200B ', the base station 100A periodically transmits a ranging code to the reference terminal 200A and periodically to the selection terminal 200B'. Schedule reception of the ranging code.

Transmission of the periodic ranging code of the reference terminal 200A and reception of the periodic ranging code of the selection terminal 200B 'are also scheduled through the ranging command message AAI-HR-RNG-CMD described with reference to FIG. 2. do.

As shown in FIG. 6, the base station 100 transmits the ranging command message (AAI-HR-RNG-CMD) to the reference terminal 200A (S610), and also the ranging command message (the selected terminal 200B '). AAI-HR-RNG-CMD) is transmitted (S620). In the ranging command message (AAI-HR-RNG-CMD) transmitted to the reference terminal 200A, the Action field is set to ranging code transmission, and the ranging command transmitted to the selection terminal 200B '. In the message AAI-HR-RNG-CMD, the Action field is set to ranging code reception. In addition, a period field and a duration field are additionally set in the ranging command message AAI-HR-RNG-CMD.

A period of transmission or reception of a ranging code may be set through a period field of the ranging command message AAI-HR-RNG-CMD. The base station sets a value of the period field of the ranging command message (AAI-HR-RNG-CMD) to a non-zero value (ie, a fixed period). Receiving the ranging command message (AAI-HR-RNG-CMD) having such a fixed period, the reference terminal 200A periodically transmits the ranging code from the time of transmission of the first ranging code (S630). The selection terminal 200B 'that receives the ranging command message AAI-HR-RNG-CMD having a fixed period receives the ranging code periodically from the reception point of the first ranging code.

Meanwhile, a time duration for transmitting or receiving a ranging code may be set through a duration field of the ranging command message AAI-HR-RNG-CMD. If the duration field is not 0, the reference terminal 200A stops the ranging code transmission operation after performing the ranging code transmission operation for a time corresponding to the set period multiplied by the duration field value. do. The selected terminal 200B 'also stops the ranging code receiving operation after performing the ranging code receiving operation for a time corresponding to the set period multiplied by the duration field value. On the other hand, even when the reference terminal 200A receives a stop command for the periodic ranging code transmission from the base station 100, the ranging code transmission operation is stopped, and the selection terminal 200B 'also receives the periodic lane from the base station 100. The ranging code transmission operation is stopped even when a stop code transmission command is received.

The selection terminal 200B 'measures the ranging code received from the reference terminal 200A and notifies the base station 100 of the measurement result through the ranging response message AAI-HR-RNG-REP (640). The base station 100 may determine whether the direct communication link is lost or not, based on the ranging code measurement result received from the selection terminal 200B '. When the base station 100 recognizes the loss of the direct communication link, the base station 100 starts the operation of notifying the loss of the link to the reference terminal 200A and the selected node 200B 'or recovers the loss of the direct communication link. You can start the procedure.

In contrast to the case of FIG. 6, the base station 100 may schedule monitoring of the direct communication link. That is, similar to the case of FIG. 3, the base station 100 may schedule periodic reception of the ranging code to the reference terminal 200A and schedule periodic transmission of the ranging code to the selected terminal 200B '. . In this case, the selection terminal 200B 'transmits the ranging code to the reference terminal 200A, and the reference terminal 200A transmits the measurement result of the ranging code through the ranging response message (AAI-HR-RNG-REP). Notify the base station 100.

The base station 100 is referred to as a loss of coverage when the one of two terminals (that is, the reference terminal and the selected terminal) to form a direct communication link or form a direct communication link leaves the transmission area of the base station 100. Hereinafter, a method of detecting such coverage loss will be described.

 As shown in FIG. 6, when the reference terminal 200A periodically transmits the ranging code, the base station 100 may also receive the ranging code transmitted by the reference terminal 200A. If the base station does not receive the ranging code, it may be determined that the reference terminal 200A has lost coverage.

In addition, as shown in FIG. 6, the selection terminal 200B ′ periodically transmits the measurement result of the ranging code to the base station 100. Therefore, when the ranging response message AAI-HR-RNG-REP is not received, the base station 100 may determine that the selection terminal 200B 'has lost coverage.

Meanwhile, as described above, the base station 100 may schedule periodic reception of the ranging code to the reference terminal 200A and schedule periodic transmission of the ranging code to the selected terminal 200B '. In this case, when the base station 100 does not receive the ranging code transmitted by the selection terminal 200B ', the base station 100 may determine that the selection terminal 200B' has lost coverage. When the ranging response message (AAI-HR-RNG-REP) transmitted by the reference terminal 200A is not received, the base station 100 may determine that the reference terminal 200A has lost coverage.

Table 1 below shows each field description (AAI-HR-RNG-CMD message field description) of the ranging command message described above.

Field Size  ( bits ) Value Of Description Condition Frame identifier 4 Frame which contains the ranging channel. The frame identifier is the 4 least significant bits of the frame num-ber. Subframe index 3 Indicates the subframe index of the allocated ranging opportunity. Action 2 Indicates the purpose of this message
0b00: Ranging code transmission
0b01: Ranging code reception
0b10: Terminate periodic ranging code transmission or reception
0b11: Reserved if (Action == 0b00) { Period 4 Indicates the period of periodic ranging:
Bits 0-3: If bit 0-3 represent the binary representation of the integer N, then the Period = 2 ^ (N + 1) [Superframes] Shall be present when this message is unicast Duration 8 Indicates the duration of periodic ranging
0: Stop the periodic ranging code transmission when it receive the suspension command
1-255: Stop the periodic ranging code transmission after this value of periods Shall be present when this message is unicast Dedicated ranging code index 5 Indicates the index of dedicated rang-ing code. Transmit power level 5 Unsigned integer from 0 to 31 in units of 1 dBm, where 0b00000 = 0dBm and 0b11111 = 31dBm Reversed action offset 4 Indicates the reversed action
0: No reversed action
1-15: Number of frames between the transmit and reception frames If (Reversed action offset! = 0) { Reporting mode One Indicates if the report mode is exclu-sive or triggered by threshold.
0b0: exclusive reporting
0b1: triggered-based reporting if (Reporting mode == 0b1) { SINR threshold 4 Indicates the SINR threshold for the ranging signal above which report should be made by receiving station. The 4 bit value from 0b0000 to 0b1111 represent values among {-9, -8.5, -8, -7.5, -7, -6.5, -6, -5.5, -5, -4.5, -4, -3.5, -3 , -2.5, -2, -1.5} dB } // end of Reporting mode } // end of Reversed action offset } // end of Action } elseif (Action = 0b01) { Period 4 Indicates the period of periodic ranging:
Bits 0-3: If bit 0-3 represent the binary representation of the integer N, then the Period = 2 ^ (N + 1) [Superframes] Shall be present when this message is unicast Duration 8 Indicates the duration of periodic ranging
0: Stop the periodic ranging code transmission when it receive the suspension command
1-255: Stop the periodic ranging code transmission after this value of periods Shall be present when this message is unicast Reversed action offset 4 Indicates the reversed action
0: No reversed action
1-15: Number of frames between the transmit and reception frames Reporting mode One Indicates if the report mode is exclu-sive or triggered by threshold.
0b0: exclusive reporting
0b1: triggered-based reporting if (Reporting mode == 0b1) { SINR threshold 4 Indicates the SINR threshold for the ranging signal above which report should be made by receiving station. The 4 bit value from 0b0000 to 0b1111 represent values among {-9, -8.5, -8, -7.5, -7, -6.5, -6, -5.5, -5, -4.5, -4, -3.5, -3 , -2.5, -2, -1.5} dB } // end of Reporting mode If (Reversed action offset! = 0) { Dedicated ranging code index 5 Indicates the index of dedicated rang-ing code. Transmit power level 5 Unsigned integer from 0 to 31 in units of 1 dBm, where 0b00000 = 0dBm and 0b11111 = 31dBm } else { Dedicated ranging code index 5 Indicates the index of dedicated rang-ing code. Optional } // end of Reversed action offset }

Table 2 below shows a description of each field (AAI-HR-RNG-REP message field description) of the ranging response message described above.

Field Size  ( bits ) Value Of Description Condition For ( i = 0; i <Number of ranging codes to be reported; i ++) { Frame identifier 4 Frame which contains the ranging channel. The frame identifier is the 4 least significant bits of the frame number. Subframe index 3 Indicates the subframe index of the allocated ranging opportunity. Received ranging code index 5 Indicates the index of dedicated ranging code received in this ranging opportunity Received SINR 4 Indicates the received SINR of the ranging code. The 4 bit value from 0b0000 to 0b1111 represent values among {-9, -8.5, -8, -7.5, -7, -6.5, -6, -5.5, -5, -4.5, -4, -3.5, -3 , -2.5, -2, -1.5} dB Timing offset 15 Time offset, in units of F _s , of the received ranging signal, with respect to the frame timing of the HR-MS.

MSB 1 bit represents the sign of the value. That is, the value is negative (-) if the MSB = 0b1, and the value is positive (+) if the MSB = 0b0. LSB 14 bits represent timing offset correction value of [1 ... 16384] that corresponds to 0x0000 ~ 0x3FFF, respectively.
Optional Frequency offset 9 Frequency offset, in units of
2% of the subcarrier spacing (f), of the received ranging signal, with respect to the frequency of the HR-MS.

MSB 1 bit represents the sign of the value. That is, the value is negative (-) if the MSB = 0b1, and the value is positive (+) if the MSB = 0b0. LSB 8 bits represent frequency offset correction value of [1..256] that corresponds to 0x00 ~ 0xFF, respectively Optional }

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It belongs to the scope of right.

Claims (19)

A communication method of a base station for controlling a direct communication link between terminals,
Selecting a first terminal as a reference terminal to form the direct communication link,
Selecting a second terminal as a candidate terminal to form the direct communication link with the first terminal,
Scheduling the first terminal such that the first terminal transmits a first ranging code;
Scheduling the second terminal such that the second terminal receives the first ranging code;
Receiving, from the second terminal, first information measured by the second terminal using the first ranging code received from the first terminal, and
Using the first information, selecting a third terminal of the second terminal to form the direct communication link with the first terminal. The method of claim 1,
Scheduling the first terminal such that the first terminal periodically transmits a second ranging code; and
Scheduling the third terminal such that the third terminal periodically receives the second ranging code. 3. The method of claim 2,
Receiving second information measured by the third terminal using the second ranging code periodically received from the first terminal, from the third terminal, and
And determining whether or not the quality of the direct communication link is lost by using the second information. The method of claim 3,
Determining that the first terminal has lost coverage when the second ranging code is not received from the first terminal, and
If the second information is not received from the third terminal, determining that the third terminal has lost coverage. The method of claim 1,
The scheduling of the first terminal may include transmitting a ranging command message to the first terminal.
The ranging command message includes a field in which transmission information of the first ranging code is set. The method of claim 1,
The scheduling of the second terminal may include transmitting a ranging command message to the second terminal.
The ranging command message includes a field in which reception information of the first ranging code is set. 3. The method of claim 2,
The scheduling of the first terminal to periodically transmit the second ranging code includes transmitting a ranging command message to the first terminal.
The ranging command message includes a field indicating a transmission period of the second ranging code, and a field indicating a transmission duration of the second ranging code. 3. The method of claim 2,
The scheduling of the third terminal may include transmitting a ranging command message to the third terminal.
The ranging command message includes a field indicating a reception period of the second ranging code, and a field indicating a reception duration of the second ranging code. The method of claim 1,
Receiving the first information from the second terminal, receiving a ranging response message from the second terminal,
The ranging response message includes a field indicating the first information. A communication method of a terminal, which is a reference for forming a direct communication link between terminals,
Scheduled by the base station to transmit the first ranging code,
Transmitting the first ranging code to a target terminal which is a candidate to form the direct communication link with the terminal, and
And forming a direct communication link with a selection terminal selected from among the target terminals based on a measurement result of the first ranging code measured by the target terminal. The method of claim 10,
Scheduled by the base station to periodically transmit a second ranging code, and
And periodically transmitting the second ranging code to the selection terminal. 12. The method of claim 11,
And when the base station does not receive the second ranging code, determining that the terminal has lost coverage. The method of claim 10,
The step of scheduling by the base station includes receiving a ranging command message from the base station,
The ranging command message includes a field in which transmission information of the first ranging code is set. 12. The method of claim 11,
Scheduling by the base station to transmit the second ranging code includes receiving a ranging command message from the base station,
The ranging command message includes a field indicating a transmission period of the second ranging code, and a field indicating a transmission duration of the second ranging code. A communication method of a base station for controlling a direct communication link between terminals,
Selecting a first terminal as a reference for forming the direct communication;
Selecting a second terminal candidate for forming the direct communication link with the first terminal,
Transmitting a first ranging command message to the second terminal so that the second terminal transmits a first ranging code;
Transmitting a second ranging command message to the first terminal so that the first terminal receives the first ranging code;
Receiving, from the first terminal, first information measured by the first terminal using the first ranging code received from the second terminal, and
Using the first information, selecting a third terminal of the second terminal to form the direct communication link with the first terminal. 16. The method of claim 15,
Transmitting a third ranging command message to the first terminal so that the first terminal periodically receives a second ranging code; and
Transmitting a fourth ranging command message to the third terminal such that the third terminal periodically transmits the second ranging code. 17. The method of claim 16,
Receiving from the first terminal second information measured by the first terminal periodically using the second ranging code received from the third terminal, and
And determining whether or not the quality of the direct communication link is lost by using the second information. 17. The method of claim 16,
The first ranging command message includes a field in which transmission information of the first ranging code is set.
The second ranging command message includes a field in which reception information of the first ranging code is set.
The third ranging command message includes a field indicating a reception period of the second ranging code, and a field indicating a reception duration of the second ranging code.
The fourth ranging command message includes a field indicating a transmission period of the second ranging code, and a field indicating a transmission duration of the second ranging code. 18. The method of claim 17,
Determining that the first terminal has lost coverage when the second information is not received from the first terminal, and
If the second ranging code is not received from the third terminal, determining that the third terminal has lost coverage.

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