KR102183641B1 - System for Relaying Wireless Communication for Distance Extension of Duplex Audio Communication and Method for Relaying Wireless Communication Using the Same - Google Patents

Abstract

The present invention relates to a wireless communication relay system for expanding a bidirectional voice communication distance. According to an embodiment of the present invention, a wireless communication relay system for expanding a bidirectional voice communication distance performs communication in accordance with a synchronization signal of a relay terminal replacing a role of a master terminal when the master terminal deviates from a communication range, manages a current communication network state in real time in the master terminal and one or more relay terminals, and dynamically converts relay methods of the relay terminals into an efficient and optimal relay mode, thereby improving the performance of a communication network.

Description

[System for Relaying Wireless Communication for Distance Extension of Duplex Audio Communication and Method for Relaying Wireless Communication Using the Same}

The present invention relates to a wireless communication relay system, and more particularly, when a master terminal deviates from a communication range, communication is performed according to a synchronization signal of a relay terminal that takes the role of a master terminal, and one or more relays with the master terminal A wireless communication relay system for extending a two-way voice communication distance in which a terminal manages a current communication network state in real time and dynamically switches to an efficient and optimal relay mode.

For example, in a wireless communication system using a time division method, a master terminal that manages the time of a communication network and a slave terminal that operates according to a synchronization signal of the master terminal are configured.

The master terminal must exist unconditionally, and as shown in FIG. 1, even if the master terminal 10 exists, when the slave terminal deviates from the reception range of the synchronization signal of the master terminal 10, it is out of the communication network.

The wireless communication system needs a relay terminal capable of extending a communication distance by relaying a synchronization signal of the master terminal 10 and capable of performing the role of the master terminal 10.

However, when the slave terminal 20 fails to receive the synchronization signal from the master terminal 10 and leaves the communication network, there is a problem in that communication failure occurs because there is no terminal to request the synchronization signal.

Korean Patent Registration No. 10-1364712

An object of the present invention is to perform communication according to the synchronization signal of a relay terminal that takes the role of a master terminal when the master terminal is out of the communication range, and manages the current communication network state in real time between the master terminal and one or more relay terminals. And, it is to provide a wireless communication relay system for extending the distance of a two-way voice communication that can dynamically switch to an efficient and optimal relay mode.

Another object of the present invention is to perform communication according to a synchronization signal of a relay terminal that takes over the role of a master terminal when the master terminal is out of the communication range, and monitors the current state of the communication network in real time between the master terminal and one or more relay terminals. It is to provide a wireless communication relay method using a wireless communication relay system for extending a two-way voice communication distance that can be managed and dynamically switched to an efficient and optimal relay mode.

In order to solve the above problem,

A wireless communication relay system for extending a two-way voice communication distance according to an embodiment of the present invention includes a master terminal that periodically transmits a synchronization signal to a terminal within a certain communication range, and is located within the communication range to receive the synchronization signal. In a wireless communication relay system comprising at least one slave terminal performing communication with the master terminal, and at least one relay terminal receiving and relaying a synchronization signal and a voice signal of the master terminal,

When the master terminal is out of the communication range, it is determined using the communication network status (packet reception success rate and reception sensitivity) that the synchronization signal of the master terminal is not normally received, and a synchronization signal is transmitted in place of the role of the master terminal. It may include a second relay terminal and a first relay terminal for transmitting to the plurality of slave terminals.

In addition, a wireless communication relay system for extending a two-way voice communication distance according to an embodiment of the present invention includes a master terminal that periodically transmits a synchronization signal to a terminal within a certain communication range, and is located within the communication range to transmit the synchronization signal. A wireless communication relay system comprising at least one slave terminal receiving and performing communication with the master terminal, and at least one relay terminal receiving and relaying a synchronization signal and a voice signal of the master terminal,

The master terminal, the first relay terminal, and the second relay terminal manage the state of the communication network by measuring the packet reception success rate and reception sensitivity of terminals other than themselves, and the master terminal transmits a synchronization signal to the TX mode through control packet 1. Operation, the first relay terminal and the second relay terminal operate a synchronization signal in the RX mode through the control packet 1,

When a relay mode is required due to departure from the communication range, the first relay terminal operates the synchronization signal in the TX mode through the control packet 2, and the second relay terminal operates the synchronization signal in the TX mode through the control packet 3. I can.

On the other hand, a wireless communication relay method using a wireless communication relay system for extending a two-way voice communication distance includes a master terminal transmitting a synchronization signal, at least one slave terminal receiving the synchronization signal and performing communication with the master terminal, and the master. It includes at least one relay terminal for receiving and relaying the synchronization signal and the voice signal of the terminal,

Requesting, by the first relay terminal or the second relay terminal, to relay the synchronization signal of the master terminal to another relay terminal when the master terminal deviates from the communication range; And

Operating the first relay terminal or the second relay terminal in a relay mode by receiving a relay acceptance signal from the other relay terminal;

It may include.

In addition, a wireless communication relay method using a wireless communication relay system for extending a two-way voice communication distance includes a master terminal transmitting a synchronization signal, at least one slave terminal receiving the synchronization signal and performing communication with the master terminal, and the master terminal. It includes at least one relay terminal for receiving and relaying the synchronization signal and the voice signal of the terminal,

Requesting, by the first relay terminal or the second relay terminal, to relay the synchronization signal of the master terminal to another relay terminal when the master terminal deviates from the communication range; And

Operating the first relay terminal or the second relay terminal in a relay mode by receiving a relay acceptance signal from the other relay terminal;

It may include.

This solution will become more apparent from the detailed contents for carrying out the following invention based on the accompanying drawings.

Prior to this, terms or words used in the present specification and claims should not be interpreted in a conventional and dictionary meaning, and the inventor should appropriately define the concept of terms in order to explain his own invention in the best way. It should be interpreted as a meaning and concept consistent with the technical idea of the present invention based on the principle that it can be.

According to an embodiment of the present invention, when the master terminal deviates from the communication range, communication is performed in accordance with the synchronization signal of the relay terminal that takes the role of the master terminal, thereby facilitating the extension of the two-way voice communication distance. have.

In addition, according to an embodiment of the present invention, the master terminal and one or more relay terminals can manage the current state of the communication network in real time, and can dynamically switch to an efficient and optimal relay mode, thereby improving communication network performance. have.

1 is a diagram showing the configuration of a wireless communication system according to the prior art.
2 is a diagram showing a configuration of a wireless communication relay system in a normal mode without using a relay mode according to the first embodiment of the present invention.
3 is a diagram illustrating an operation in accordance with a synchronization signal of a first relay terminal in a wireless communication relay system for extending a two-way voice communication distance according to a second embodiment of the present invention.
4 is a diagram showing the configuration of a wireless communication relay system for extending a two-way voice communication distance according to a third embodiment of the present invention.
5 is a diagram showing a configuration of a wireless communication relay system for extending a two-way voice communication distance according to a fourth embodiment of the present invention.
6 is a diagram showing the configuration of a wireless communication relay system for extending a two-way voice communication distance according to a fifth embodiment of the present invention.
7 is a diagram showing the configuration of a wireless communication relay system for extending a two-way voice communication distance according to a sixth embodiment of the present invention.
8 is a diagram illustrating a structure of a voice packet operating in a normal mode according to an embodiment of the present invention.
9 is a diagram illustrating a structure of a voice packet operating in a voice relay mode according to an embodiment of the present invention.

Specific aspects and specific technical features of the present invention will become more apparent from the following specific content and one embodiment associated with the accompanying drawings. In the present specification, in adding reference numerals to elements of each drawing, it should be noted that the same elements are assigned the same numerals as possible even if they are indicated on different drawings. In addition, in describing an embodiment of the present invention, when it is determined that a detailed description of a related known configuration or function may obscure the subject matter of the present invention, a detailed description thereof will be omitted.

In addition, in describing the constituent elements of the present invention, terms such as first, second, A, B, (a), (b) may be used. These terms are only for distinguishing the component from other components, and the nature, order, or order of the component is not limited by the term. When a component is described as being "connected", "coupled" or "connected" to another component, the component may be directly connected or connected to that other component, but another component between each component It should be understood that elements may be “connected”, “coupled” or “connected”.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

2 is a diagram showing a configuration of a wireless communication relay system in a normal mode without using a relay mode according to the first embodiment of the present invention, and FIG. 3 is a diagram illustrating an extension of a two-way voice communication distance according to a second embodiment of the present invention. A diagram showing a state in which the wireless communication relay system operates according to the synchronization signal of the first relay terminal.

The wireless communication relay system 100 for extending a two-way voice communication distance according to the first embodiment of the present invention includes a master terminal 110, a first relay terminal (R1) 120, and a second relay terminal within a certain communication range. It is composed of R2) (130) and a plurality of slave terminals (140).

The master terminal 110 transmits a control packet including a synchronization signal to each slave terminal 140 through a channel allocated to it, and transmits a payload packet including a voice signal and a synchronization signal to each slave through the allocated channel. It transmits to the terminals 140.

Each of the slave terminals 140 transmits a payload packet including its own voice signal and a synchronization signal through a channel allocated to it.

2 is a case in which all terminals are within a range of reception of a synchronization signal of the master terminal 110.

The first relay terminal 120 and the second relay terminal 130 may extend a communication distance by relaying a synchronization signal from the master terminal 110.

When the first relay terminal 120, the second relay terminal 130, and the plurality of slave terminals 140 are within the reception range of the synchronization signal of the master terminal 110, they operate in a general time division manner, and the master terminal 110 Establish a communication network by performing communication according to the synchronization signal of ).

When the master terminal 110 deviates from the communication groups within the existing communication range, the first relay terminal (R1) 120 indicates that the synchronization signal of the master terminal 110 is not normally received. And reception sensitivity), and transmits a synchronization signal to the second relay terminal (R2) 130 and the plurality of slave terminals 140 in place of the role of the master terminal 110.

When the plurality of slave terminals 140 deviate from the range in which the synchronization signal of the master terminal 110 can be received, the plurality of slave terminals 140 switch back to a scan state in which the synchronization signal of the master terminal 110 is searched. Thereafter, the slave terminal 140 is in a communication-disabled state until it enters the range in which the synchronization signal of the master terminal 110 can be received.

The plurality of slave terminals 140 synchronize with the synchronization signal to the master terminal 110, but the synchronization signal of the master terminal 110 is not received, and the synchronization signal of the first relay terminal (R1) 120 is received. Therefore, communication is performed in accordance with the synchronization signal of the first relay terminal (R1) 120 to establish a communication network.

The communication available range of the communication network using the first relay terminal (R1) 120 is increased to the reception range of the synchronization signal of the master terminal 110 + the reception range of the synchronization signal relayed by the first relay terminal (R1) 120 do.

4 is a diagram showing the configuration of a wireless communication relay system for extending a two-way voice communication distance according to a third embodiment of the present invention.

The second relay terminal (R2) 130 transmits a relay request signal when the master terminal 110 and the first relay terminal (R1) 120 operate normally and do not receive the synchronization signal of the master terminal 110. It is generated and transmitted to the first relay terminal (R1) 120, and operates in a relay mode by receiving a relay acceptance signal from the first relay terminal (R1) 120. In this way, the communication available range of the communication network using the second relay terminal (R2) 130 is the reception range of the synchronization signal of the master terminal 110 + the reception of the synchronization signal relayed to the first relay terminal (R1) 120 It extends to the range + the reception range of the synchronization signal relayed to the second relay terminal (R2) 130.

The master terminal 110, the first relay terminal (R1) 120, and the second relay terminal (R2) 130 measure the packet reception success rate and reception sensitivity of the other terminals (master terminal, relay terminal) except for themselves. You can manage the network status by updating every second.

The reception success rate is (received data packet/total packet) x 100 (%), and the reception sensitivity is managed as the average value of reception sensitivity (RSSI) in a wireless communication environment.

5 is a diagram showing the configuration of a wireless communication relay system for extending a two-way voice communication distance according to a fourth embodiment of the present invention.

The first relay terminal (R1) 120 and the second relay terminal (R2) 130 transmit the synchronization signal of the master terminal 110 to another relay terminal when the reception state of the synchronization signal of the master terminal 110 deteriorates. Request a relay.

As shown in (a) of FIG. 5, when the reception state of the synchronization signal of the master terminal 110 deteriorates, the second relay terminal (R2) 130 generates a relay request signal to generate a first relay terminal (R1) ( 120), and operates in a relay mode by receiving a relay acceptance signal from the first relay terminal (R1) 120 (M-> R1 -> R2).

As shown in (b) of FIG. 5, when the reception state of the synchronization signal of the master terminal 110 deteriorates, the first relay terminal (R1) 120 generates a relay request signal to generate a second relay terminal (R2) ( 130), and operates in a relay mode by receiving a relay acceptance signal from the second relay terminal (R2) 130 (M-> R2 -> R1).

6 is a diagram showing the configuration of a wireless communication relay system for extending a two-way voice communication distance according to a fifth embodiment of the present invention.

When the first relay terminal (R1) 120 and the second relay terminal (R2) 130 deviate from the range in which the synchronization signal of the master terminal 110 can be received (communication network status (packet reception success rate and reception sensitivity) Is determined by using), the first relay terminal (R1) 120 transmits itself instead of the synchronization signal due to a bad reception state of the synchronization signal of the master terminal 110.

The second relay terminal (R2) 130 generates a relay request signal and transmits it to the first relay terminal (R1) 120, and receives a relay rejection signal from the first relay terminal (R1) 120 to receive a relay mode. Does not work.

Since the second relay terminal (R2) 130 receives the synchronization signal of the first relay terminal (R1) 120, it performs communication in accordance with the synchronization signal of the first relay terminal (R1) 120 to establish a communication network. (It operates as a group of M and R1-R2).

7 is a diagram showing the configuration of a wireless communication relay system for extending a two-way voice communication distance according to a sixth embodiment of the present invention.

When the first relay terminal (R1) 120 or the second relay terminal (R2) 130 normally receives the synchronization signal of the master terminal 110 and the reception sensitivity of the other relay terminal deteriorates, time synchronization is performed. According to the synchronization signal of the master terminal 110, a voice relay request signal is generated and transmitted to the master terminal 110, and the voice relay is received from the master terminal 110.

The master terminal 110, the first relay terminal (R1) 120 and the second relay terminal (R2) 130 manage the communication network status (packet reception success rate and reception sensitivity) in real time to see if other relaying methods are more efficient. It judges and dynamically switches to the optimal relay mode.

For example, a master terminal (M) 110 -> a first relay terminal (R1) 120 -> a second relay terminal (R2) 130, and then another relay method (M -> R2 -> R1, R2) -> M -> R1, etc.) can switch to another relay method if they judge more efficiently.

The master terminal 100, the first relay terminal (R1) 120, and the second relay terminal (R2) 130 measure the packet reception success rate and reception sensitivity of the other terminals except for themselves, and manage the communication network state. The terminal 100, the first relay terminal (R1) 120, and the second relay terminal (R2) 130 operate in the relay mode in that order, and then determine the optimal relay mode based on the state of the communication network. Switch the relay method.

When the master terminal 110, the first relay terminal (R1) 120, and the second relay terminal (R2) 130 are operating in the relay mode, and the communication network state determines that the relay mode is not required, it is switched to the normal mode. To perform communication. In the normal mode, the master terminal 110 receives a synchronization signal and a voice signal from the first relay terminal (R1) 120 and the second relay terminal (R2) 130 to perform communication.

Table 2 below shows the structure of a control packet for transmission of a synchronization signal.

For example, when operating in a time division manner, the master terminal 110 operates the synchronization signal in the TX mode through control packet 1, and the first relay terminal (R1) 120 and the second relay terminal (R2) 130 Operates the synchronization signal in RX mode through control packet 1.

When a relay mode is required due to departure from the communication range, the first relay terminal (R1) 120 sets the synchronization signal to the TX mode through the control packet 2, and the second relay terminal (R2) 130 sets the control packet 3 The synchronization signal is set to TX mode.

8 is a diagram illustrating a structure of a voice packet operating in a normal mode according to an embodiment of the present invention.

The structure of a voice packet for transmission of a voice signal is shown in FIG. 8.

When not operating in the voice relay mode, the master terminal 110, the first relay terminal (R1) 120, and the second relay terminal (R2) 130 operate in the TX mode according to their TX timing, and RX Operates in RX mode according to the timing.

The master terminal 110, the first relay terminal (R1) 120, and the second relay terminal (R2) 130 operate in a voice relay mode, and request a voice relay to the master terminal 110 to accept the relay request. As a result, when the relay mode is normally performed, the voice packet structure of FIG. 8 is obtained.

In more detail, when the master terminal 110, the first relay terminal 120, and the second relay terminal 130 do not operate in the voice relay mode, the master terminal 110 transmits a voice signal through voice packet 1. Is operated in the TX mode, and the first relay terminal 120 and the second relay terminal 130 operate the voice signal through the voice packet 1 in the RX mode.

The first relay terminal 120 operates the voice signal in the TX mode through the voice packet 2, and the master terminal 110 and the second relay terminal 130 operate the voice signal in the RX mode through the voice packet 2.

The second relay terminal 130 operates the voice signal in the TX mode through the voice packet 3, and the master terminal 110 and the first relay terminal 120 operate the voice signal in the RX mode through the voice packet 3.

9 is a diagram illustrating a structure of a voice packet operating in a voice relay mode according to an embodiment of the present invention.

The first relay terminal (R1) 120 mixes the master terminal 110 and its own voice signal in a relay structure and transmits it to the second relay terminal (R2) 130, and the second relay terminal (R2) 130 ) Transmits its own voice signal to the first relay terminal (R1) 120.

Subsequently, the first relay terminal (R1) 120 mixes its own voice signal with the voice signal of the second relay terminal (R2) 130 and transmits it to the master terminal 110.

In more detail, when the master terminal 110, the first relay terminal 120, and the second relay terminal 130 operate in the voice relay mode, the master terminal 110 transmits a voice signal through voice packet 2. The first relay terminal 120 operates in the TX mode, the first relay terminal 120 operates in the RX mode for the voice signal through the voice packet 1, and the second relay terminal 130 operates in the idle state.

The master terminal 110 operates the voice signals of the first relay terminal 120 and the second relay terminal 130 in the RX mode through voice packet 2, and the first relay terminal 120 transmits itself through voice packet 2. The voice signal of and the voice signal of the second relay terminal 130 operate in the TX mode, and the second relay terminal 130 operates in the idle state.

The master terminal 110 operates in an idle state through voice packet 3, the first relay terminal 120 operates the voice signal of the second relay terminal 130 in the RX mode, and the second relay terminal 130 It operates its own voice signal in TX mode through voice packet 3.

The master terminal 110 operates in an idle state through voice packet 4, the first relay terminal 120 operates the voice signal of the master terminal 110 and its own voice signal in the TX mode, and the second relay terminal ( 130) operates the voice signals of the master terminal 110 and the first relay terminal 120 in the RX mode through voice packet 4.

Although the present invention has been described in detail through an embodiment, this is for describing the present invention in detail, and a wireless communication relay system for extending a two-way voice communication distance and a wireless communication relay method using the same according to the present invention are not limited thereto. Does not. And the terms such as "comprise", "comprise", or "have" described above mean that the corresponding component may be included unless otherwise stated, so excluding other components It should be construed as that it may further include other components, and all terms including technical or scientific terms are generally understood by those of ordinary skill in the technical field to which the present invention belongs, unless otherwise defined. It has the same meaning as being.

In addition, the above description is merely illustrative of the technical idea of the present invention, and those of ordinary skill in the art to which the present invention pertains can various modifications and variations without departing from the essential characteristics of the present invention. Accordingly, the exemplary embodiments disclosed in the present disclosure are not intended to limit the technical idea of the present invention, but to explain the technical idea, and the scope of the technical idea of the present disclosure is not limited by this exemplary embodiment. The scope of protection of the present invention should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be interpreted as being included in the scope of the present invention.

100: wireless communication relay system
110: master terminal (M)
120: first relay terminal (R1)
130: second relay terminal (R2)
140: slave terminal

Claims (11)

A master terminal that periodically transmits a synchronization signal to a terminal within a certain communication range, at least one slave terminal located within the communication range and receiving the synchronization signal to communicate with the master terminal, and a synchronization signal of the master terminal And In the wireless communication relay system consisting of one or more relay terminals for receiving and relaying a voice signal,
When the master terminal is out of the communication range, it is determined using the communication network status (packet reception success rate and reception sensitivity) that the synchronization signal of the master terminal is not normally received, and a synchronization signal is transmitted in place of the role of the master terminal. It includes a second relay terminal and a first relay terminal transmitting to the plurality of slave terminals,
When the first relay terminal and the second relay terminal deviate from the range in which the synchronization signal of the master terminal can be received, the second relay terminal generates a relay request signal and transmits it to the first relay terminal. 1 Receiving a relay rejection signal from a relay terminal and not operating in a relay mode, and the second relay terminal establishes a communication network by performing communication in accordance with the synchronization signal of the first relay terminal. Wireless communication relay system for
The method according to claim 1,
The second relay terminal generates a relay request signal and transmits it to the first relay terminal when the master terminal and the first relay terminal operate normally and the synchronization signal of the master terminal is not received. A wireless communication relay system for extending a two-way voice communication distance, characterized in that operating in a relay mode by receiving a relay acceptance signal from a relay terminal.
delete The method according to claim 1,
The master terminal, the first relay terminal, and the second relay terminal manage the state of the communication network by measuring a packet reception success rate and reception sensitivity of terminals other than themselves, and the master terminal, the first relay terminal, and the A wireless communication relay system for extending a two-way voice communication distance, characterized in that the second relay terminal operates in a relay mode in the order of the second relay terminal, and then determines an optimal relay mode based on the state of the communication network, and switches the relay method of the terminal.
A master terminal that periodically transmits a synchronization signal to a terminal within a certain communication range, at least one slave terminal located within the communication range and receiving the synchronization signal to communicate with the master terminal, and a synchronization signal of the master terminal And In the wireless communication relay system consisting of one or more relay terminals for receiving and relaying a voice signal,
The master terminal, the first relay terminal, and the second relay terminal manage the state of the communication network by measuring the packet reception success rate and reception sensitivity of terminals other than themselves, and the master terminal transmits a synchronization signal to the TX mode through control packet 1. Operation, the first relay terminal and the second relay terminal operate a synchronization signal in the RX mode through the control packet 1,
When a relay mode is required due to departure from the communication range, the first relay terminal operates the synchronization signal in the TX mode through the control packet 2, and the second relay terminal operates the synchronization signal in the TX mode through the control packet 3. A wireless communication relay system for extending a two-way voice communication distance, characterized in that.
The method of claim 5,
When the master terminal, the first relay terminal, and the second relay terminal do not operate in the voice relay mode, the master terminal operates the voice signal in the TX mode through voice packet 1, and the first relay terminal and the second relay terminal The relay terminal operates the voice signal in the RX mode through the voice packet 1,
The first relay terminal operates the voice signal in the TX mode through the voice packet 2, the master terminal and the second relay terminal operate the voice signal in the RX mode through the voice packet 2,
The second relay terminal operates the voice signal in the TX mode through the voice packet 3, and the master terminal and the first relay terminal operate the voice signal through the voice packet 3 in the RX mode. Wireless communication relay system for extending communication distance.
The method of claim 5,
When the master terminal, the first relay terminal, and the second relay terminal operate in the voice relay mode, the master terminal operates the voice signal in the TX mode through voice packet 2, and the first relay terminal operates the voice packet 1 The voice signal is operated in the RX mode, and the second relay terminal operates in the idle state,
The master terminal operates the voice signals of the first relay terminal and the second relay terminal in the RX mode through voice packet 2, and the first relay terminal transmits its own voice signal and the second relay terminal through the voice packet 2. The voice signal of the relay terminal is operated in the TX mode, the second relay terminal is operated in the idle state,
The master terminal operates in an idle state through voice packet 3, the first relay terminal operates the voice signal of the second relay terminal in RX mode, and the second relay terminal operates in its own state through the voice packet 3 The voice signal is operated in TX mode,
The master terminal operates in an idle state through voice packet 4, the first relay terminal operates the voice signal of the master terminal and its own voice signal in a TX mode, and the second relay terminal transmits the voice packet 4 A wireless communication relay system for extending a two-way voice communication distance, characterized in that the voice signals of the master terminal and the first relay terminal are operated in an RX mode.
delete delete A master terminal transmitting a synchronization signal, at least one slave terminal receiving the synchronization signal and performing communication with the master terminal, and at least one relay terminal receiving and relaying the synchronization signal and the voice signal of the master terminal,
Requesting, by the first relay terminal or the second relay terminal, to relay the synchronization signal of the master terminal to another relay terminal when the master terminal deviates from the communication range; And
The first relay terminal or the second relay terminal receiving a relay acceptance signal from the other relay terminal and operating in a relay mode; Including,
Transmitting, by the first relay terminal, a synchronization signal by itself due to a poor reception state of the synchronization signal of the master terminal;
When the second relay terminal deviates from the range in which the synchronization signal of the master terminal can be received, it generates a relay request signal and transmits it to the first relay terminal, and receives a relay rejection signal from the first relay terminal in a relay mode. Not working with; And
Establishing, by the second relay terminal, a communication network by performing communication according to a synchronization signal of the first relay terminal;
Wireless communication relay method using a wireless communication relay system for extending a two-way voice communication distance comprising a. delete

Images