KR20090008509A - Apparatus and method for paging in wireless communication system - Google Patents

Abstract

An apparatus and a method for performing a paging in a wireless communications system are provided to perform a paging task about a terminal composing P2P network through a representative terminal in the wireless communication system. A base station(200) performs a communication with terminals(210,220,230,240) included in a service area through a cellular network. The terminals perform communication with the base station the cellular network. The terminals perform the communications through the P2P network. Paring with the base station is performed through the representative terminal by designating the representative terminal.

Description

Apparatus and method for performing paging in a wireless communication system {APPARATUS AND METHOD FOR PAGING IN WIRELESS COMMUNICATION SYSTEM}

The present invention relates to a wireless communication system using a peer-to-peer (hereinafter referred to as P2P) communication method, and more particularly, to a paging device and method for terminals using a P2P communication method in the wireless communication system. It is about.

A terminal of a general wireless communication system performs communication using radio resources managed by a base station. For example, when performing communication between terminals in the wireless communication system, the terminals perform communication through a base station regardless of a distance between them. That is, the terminals performing communication in the wireless communication system are included in the service area of one base station and the terminals perform communication through the base station even when the distance between the terminals is close. However, in a wireless communication system, it may be more rational to directly communicate with terminals that are close to each other while included in the same cell. Therefore, in the next generation wireless communication system, research is being conducted to support a P2P communication method capable of performing direct communication between terminals in a wireless cellular network.

The next generation wireless communication system enables direct communication between terminals by using a part of radio resources for P2P communication between terminals. Accordingly, the terminals of the next generation wireless communication system can be configured as an independent network capable of mutual communication as shown in FIG.

1 shows a configuration of a wireless communication system using a P2P communication method according to the prior art.

As shown in FIG. 1, the wireless communication system includes a base station 100 and terminals 110, 120, and 130 included in a service area of the base station 100.

The base station 100 communicates with terminals 110, 120, and 130 included in a service area through a cellular network.

The terminals 110, 120, and 130 communicate with the base station 100 through a cellular network. In addition, the terminals (110, 120, 130) performs communication between the terminals (110, 120, 130) via a P2P network.

If the terminals 110, 120, and 130 constituting the P2P network maintain an idle state, the terminals 110, 120, and 130 may be individually connected to the base station through a cellular network. 100) and paging. That is, even when the terminals 110, 120, and 130 constitute a P2P network, the terminals 110, 120, and 130 receive a paging signal from the base station 100 individually through cellular resources. Here, paging refers to a process in which the base station 100 starts a connection to perform communication with terminals 110, 120, and 130 that maintain a standby state.

As described above, terminals using the P2P communication scheme in the wireless communication system perform paging with the network individually through the cellular network in the same manner as terminals not using the P2P communication scheme. That is, in a wireless communication system using a P2P communication scheme, unnecessary radio resources and power of terminals may be wasted due to individual paging of terminals constituting the P2P network.

Accordingly, an object of the present invention is to provide a paging apparatus and method for terminals using a P2P communication scheme in a wireless communication system.

Another object of the present invention is to provide an apparatus and method for performing paging for terminals constituting a P2P network through a representative terminal constituting a P2P network in a wireless communication system.

According to a first aspect of the present invention for achieving the objects of the present invention, a method for performing paging in a terminal of a wireless communication system, a peer-to-peer (hereinafter referred to as P2P) network configuration Identifying a terminal maintaining an idle state among the terminals, requesting paging for the terminals maintaining the idle state to the base station through a cellular network, and receiving the terminal from the base station through the cellular network When the paging signal is received, the step of transmitting the paging signal to the terminals maintaining the standby state through the P2P network.

According to a second aspect of the present invention, a method for performing paging in a terminal of a wireless communication system includes a process of checking a paging period with a base station and a point-to-point (hereinafter referred to as P2P). Identifying the terminals maintaining the idle state among the terminals constituting the network, requesting paging for the terminals maintaining the idle state to the base station through a cellular network, and performing the cellular network When the paging signal is received from the base station through the step of checking the target terminal of the paging signal, and if the paging signal for the terminals maintaining the standby state, transmitting the paging signal to the terminals through the P2P network It characterized in that it comprises a process.

According to a third aspect of the present invention, a terminal device for performing peer-to-peer (P2P) communication in a wireless communication system includes a representative terminal to perform paging among terminals constituting the P2P network. And a P2P control unit for controlling paging for terminals constituting the P2P network through the P2P network, and a terminal for configuring the base station and the P2P network through a cellular network. And a control unit for controlling paging, a receiving unit receiving a signal through the P2P network or a cellular network, and a transmitting unit transmitting a signal through the P2P network or a cellular network.

As described above, a representative terminal is selected from terminals constituting a point-to-point (P2P) network in a wireless communication system, and paging of the P2P network through the representative terminal is performed through the representative terminal. By doing so, it is possible to save radio resources as compared to the manner in which each terminal individually performs paging, and there is an advantage that the representative terminal can reduce power waste of other terminals.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In describing the present invention, when it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

Hereinafter, the present invention describes a paging technique for terminals using a point-to-point (P2P) communication scheme in a wireless communication system.

In the following description, the wireless communication system configures a P2P network with one hop between terminals, and the terminals constituting the P2P network can perform communication between terminals through a P2P network and a base station through a cellular network in a city. It is assumed that there is. In this case, even when the terminals constituting the P2P network do not perform data communication between the terminals, the terminals may periodically transmit and receive P2P control information.

The wireless communication system performs paging for terminals constituting the P2P network through a representative terminal of the P2P network as shown in FIG. 2. Here, the representative terminal refers to a terminal that receives a paging signal from a base station through a cellular network among the terminals constituting the P2P network.

2 illustrates a configuration of a wireless communication system using a P2P communication method according to the present invention.

As shown in FIG. 2, the wireless communication system includes a base station 200 and terminals 210, 220, 230, and 240 included in a service area of the base station 200.

The base station 200 communicates with terminals 210, 220, 230, and 240 included in a service area through a cellular network.

The terminals 210, 220, 230, and 240 communicate with the base station 200 through a cellular network. In addition, the terminals 210, 220, 230, and 240 perform communication between the terminals 210, 220, 230, and 240 through a P2P network.

In this case, the terminals 210, 220, 230, and 240 designate a representative terminal to perform pairing with the base station 200 through the representative terminal. For example, when terminal 1 210 and terminal 4 240 are communicating with the base station 200, and terminal 2 220 and terminal 3 230 are in an idle state, the terminal 1 210 ) As the representative terminal, the base station 200 performs pairing with the terminal 2 220 and the terminal 3 230 through the terminal 1 210.

As described above, when the terminals included in the same cell in the wireless communication system configure a P2P network, the wireless communication system allocates radio resources separate from the cellular network for the P2P network. For example, the wireless communication system allocates radio resources separate from the cellular network to the P2P network through a frame configuration as shown in FIG. 3, but may allocate radio resources through another frame configuration.

3 shows a frame configuration of a wireless communication system using a P2P communication method according to an embodiment of the present invention. Hereinafter, the downlink subframe will be described as an example.

As shown in FIG. 3, the downlink subframe of the frame is configured by allocating radio resources 320 and 330 for the P2P network separately from the radio resources 300 and 310 for the cellular network.

The downlink subframe is divided into a first region 300 for a cellular control signal and a second region 310 for the cellular data signal and a P2P network.

During the first area 300, the base station transmits a control signal to terminals included in the service area through the cellular network. That is, the base station transmits a paging signal to the representative terminal through the first region (300).

The second region 310 is divided into a cellular data region 311 for transmitting a data signal through the cellular network and regions 313 and 315 for a P2P network. In this case, during the cellular data area 311, the base station transmits a data signal to terminals included in the service area through the cellular network.

In addition, the regions 313 and 315 for the P2P network are divided into a P2P control region 313 for a control signal of the P2P network and a P2P data region 315 for a data signal of the P2P network. Here, the representative terminal transmits the paging signal received from the base station through the first region 300 to the terminals in the standby state through the P2P control region 313 or the P2P data region 315. That is, when a terminal in standby state performs P2P data communication with the representative node, the representative terminal transmits the paging signal through the P2P data region 315. If the terminal in the standby state does not perform P2P data communication with the representative node, the representative terminal transmits the paging signal through the P2P control region 313.

Hereinafter, a description will be given of a procedure for selecting a representative terminal among terminals constituting the P2P network to perform paging for terminals constituting the P2P network in the wireless communication system.

4 illustrates a procedure for selecting a representative terminal in a wireless communication system using a P2P communication method according to an embodiment of the present invention.

Referring to FIG. 4, first, a terminal configuring a P2P network in the wireless communication system checks information on other terminals configuring the P2P network in step 401. For example, since the terminals constituting the P2P network transmit their information to other terminals constituting the P2P network, the terminals constituting the P2P network can check information on other terminals. Here, the terminal transmits information on whether the terminal is communicating with the base station through the cellular network and the remaining power amount of the terminal to other terminals.

After checking the information of the other terminals constituting the P2P network, the terminal proceeds to step 403 to check whether there is a terminal communicating with the base station through a cellular network among the terminals constituting the P2P network.

If there is no terminal communicating with the base station, the terminal proceeds to step 409 and compares the remaining power of the terminals constituting the P2P network and selects the terminal having the largest residual power as the representative terminal. Here, the terminal may periodically check the remaining power of the terminals communicating with the base station to change the representative terminal according to the remaining power of the terminals.

On the other hand, if there is a terminal communicating with the base station, the terminal proceeds to step 405 to check the number of terminals communicating with the base station.

When there are a plurality of terminals communicating with the base station identified in step 405, the terminal proceeds to step 407 to compare the remaining power amounts of the terminals communicating with the base station and selects the terminal having the largest residual power as the representative terminal. Here, when the selected representative terminal stops communication with the base station, the terminal selects a new representative terminal. In addition, the terminal may periodically check the remaining power of the terminal communicating with the base station to change the representative terminal according to the remaining power of the terminal.

If there is one terminal communicating with the base station identified in step 405, the terminal proceeds to step 411 and the terminal communicating with the base station is selected as the representative terminal. Here, when the selected representative terminal stops communication with the base station, the terminal selects a new representative terminal.

After the representative terminal selects, the terminal ends the present algorithm.

Hereinafter, a description will be given of an operation procedure of the representative terminal for performing paging with terminals in the standby state through the selected representative terminal as described above in the wireless communication system.

5 illustrates a paging procedure of a terminal using a P2P communication scheme in a wireless communication system according to an embodiment of the present invention. Here, it will be described on the assumption that the representative terminal is performing communication with the base station.

Referring to FIG. 5, first, the representative terminal checks information on other terminals constituting the P2P network in step 501. For example, since the terminals constituting the P2P network transmit their information to other terminals constituting the P2P network, the terminals constituting the P2P network can check information on other terminals. Here, the terminal transmits information on whether the terminal is communicating with the base station through the cellular network and the remaining power amount of the terminal to other terminals.

After checking the information of the other terminals constituting the P2P network, the representative terminal proceeds to step 503 to request a paging signal for the terminals maintaining the standby state while configuring the P2P network to the base station. That is, the representative terminal requests the base station to transmit a paging signal for the terminals maintaining the standby state to itself.

In operation 505, the representative terminal determines whether a paging signal for terminals maintaining a standby state is received from the base station through a cellular network.

When the paging signal for the terminals maintaining the standby state is received, the representative terminal proceeds to step 507 to check the communication state of the P2P network for the terminals maintaining the standby state. That is, the representative terminal checks whether terminals maintaining the standby state perform P2P data communication with the representative terminal.

If the terminal maintaining the standby state performs the P2P data communication, the representative terminal proceeds to step 509 and transmits a paging signal to the terminal maintaining the standby state using a P2P data resource. For example, the representative terminal transmits a paging signal to the terminal maintaining the standby state by using the P2P data region 315 of FIG. 3.

If the terminal maintaining the standby state does not perform P2P data communication, the representative terminal proceeds to step 511 and transmits a paging signal to the terminal maintaining the standby state using a P2P control resource. For example, the representative terminal transmits a paging signal to the terminal maintaining the standby state by using the P2P control region 313 of FIG. 3.

Thereafter, the representative terminal ends the present algorithm.

6 illustrates a paging procedure of a terminal using a P2P communication scheme in a wireless communication system according to another embodiment of the present invention. Here, it will be described on the assumption that the representative terminal maintains the standby state.

Referring to FIG. 6, first, the representative terminal checks a paging period with the base station in step 601. That is, the representative terminal negotiates its paging cycle with the base station.

In step 603, the representative terminal checks information on other terminals configuring the P2P network. For example, since the terminals constituting the P2P network transmit their information to other terminals constituting the P2P network, the terminals constituting the P2P network can check information on other terminals. Here, the terminal transmits information on whether the terminal is communicating with the base station through the cellular network and the remaining power amount of the terminal to other terminals.

After checking the information of the other terminals constituting the P2P network, the representative terminal proceeds to step 605 to request a paging signal for the terminals maintaining the standby state while configuring the P2P network to the base station. That is, the representative terminal requests the base station to transmit to the base station a paging signal for the terminals maintaining the standby state using a random access channel (RACH). At this time, the representative terminal requests the base station to transmit a paging signal of another terminal maintaining the standby state according to its paging cycle.

In operation 607, the representative terminal determines whether a paging signal is received from the base station through a cellular network.

When the paging signal is received, the representative terminal checks the target terminal of the paging signal in step 609.

If the paging signal is a paging signal for the representative terminal, the representative terminal proceeds to step 615 to check the paging signal.

On the other hand, if the paging signal is a paging signal of the other terminals to maintain the standby state, the representative terminal proceeds to step 611 to check the communication state of the P2P network to the other terminals to maintain the standby state. That is, the representative terminal checks whether other terminals maintaining the standby state perform P2P data communication with the representative terminal.

If the other terminal maintaining the standby state performs the P2P data communication, the representative terminal proceeds to step 613 and transmits a paging signal to another terminal maintaining the standby state using a P2P data resource. For example, the representative terminal transmits a paging signal to another terminal maintaining the standby state by using the P2P data region 315 of FIG. 3.

On the other hand, when another terminal maintaining the standby state does not perform P2P data communication, the representative terminal proceeds to step 617 and transmits a paging signal to another terminal maintaining the standby state using the P2P control resources. For example, the representative terminal transmits a paging signal to another terminal maintaining the standby state by using the P2P control region 313 of FIG. 3.

Thereafter, the representative terminal ends the present algorithm.

Hereinafter, a block configuration of a terminal for performing paging for terminals constituting a P2P network will be described.

7 is a block diagram of a terminal using a P2P communication method in a wireless communication system according to the present invention. In the following description, it is assumed that the terminal uses a time division duplex scheme, but terminals using other communication schemes may be configured in the same manner.

As illustrated in FIG. 7, the terminal includes a duplexer 701, a reception modem 703, a message processing unit 705, a control unit 707, a P2P control unit 709, a power confirmation unit 711, and a message generation unit ( 713 and a transmission modem 715.

First, the duplexer 701 transmits a reception signal (downlink signal) from an antenna to the reception modem 703 according to a time division duplex scheme, and transmits a transmission signal (uplink signal) from the transmission modem 715. Transfer to the antenna.

The reception modem 703 includes an RF reception block, a demodulation block, a channel decoding block, etc., and restores data from a signal provided from the duplexer 701 and transmits the data to the message processing unit 705. Here, the RF reception block includes a filter and an RF preprocessor, and the demodulation block includes an FFT operator for extracting data contained in each subcarrier, and the channel decoding block includes a demodulator and a deinterleaver. ) And a channel decoder.

The message processing unit 705 decomposes the signal provided from the reception modem 703 and provides the result to the control unit 707 or the P2P control unit 709. For example, the message processor 705 provides a signal received from the base station to the controller 707 via a cellular network. In addition, the message processing unit 705 provides a signal received from another terminal through a P2P network to the P2P control unit 709.

The controller 707 controls the terminal so that the terminal can communicate with the base station through a cellular network. For example, when the terminal is a representative terminal, the controller 707 checks the information of the terminals maintaining the standby state in the P2P network from the P2P controller 709. Thereafter, the controller 707 controls the message generator 713 to request the base station to transmit a paging signal for the terminals maintaining the standby state to the base station.

In addition, when the terminal receives a paging signal for terminals maintaining the standby state through a cellular network, the controller 707 receives the paging signal provided from the message processor 705 in the P2P controller 709. To send).

The P2P control unit 709 controls the terminal so that the terminal can communicate with other terminals through a P2P network. For example, the P2P controller 709 controls the message generator 713 to transmit status information of the terminal to other terminals constituting the P2P network. In this case, when state information of other terminals configuring the P2P network is received, the P2P controller 713 selects a representative terminal for performing paging. Here, the state information of the terminal includes information on whether the terminal is in communication with the base station and the amount of power remaining.

In addition, when the terminal is a representative terminal, the P2P control unit 709 transmits information on terminals maintaining a standby state to the control unit 707.

In addition, the P2P controller 709 controls the message generator 713 to transmit a paging signal to the terminals when a paging signal for the terminals maintaining the standby state is received from the controller 707.

The power checking unit 711 checks the amount of remaining power of the terminal and provides it to the P2P control unit 709.

The message generator 713 generates a message for transmission to the base station or other terminals configuring the P2P network under the control of the controller 707 or the P2P controller 709. For example, the message generator 713 generates a message for requesting the base station to transmit a paging signal to the base station for the terminals maintaining the standby state under the control of the controller 707.

In addition, the message generator 713 generates a message including its own state information for transmission to other terminals constituting the P2P network under the control of the P2P controller 709. In addition, the message generator 713 generates a paging signal to be transmitted to other terminals constituting the P2P network under the control of the P2P controller 709.

The transmission modem 715 includes a channel code block, a modulation block, an RF transmission block, and the like. The transmission modem 715 converts a signal provided from the message generator 713 into a form for wireless section transmission to a duplexer 701. To pass.

In the above-described configuration, the control unit 707 controls the message processing unit 705, the P2P control unit 709, the power checking unit 711, and the message generating unit 713 as a protocol control unit. That is, the controller 707 may perform the functions of the message processor 705, the P2P controller 709, the power checker 711, and the message generator 713. In the present invention, it is separately configured to describe each function separately. Therefore, in actual implementation, all of them may be configured to be processed by the controller 707, and only some of them may be configured to be processed by the controller 707.

Meanwhile, in the detailed description of the present invention, specific embodiments have been described, but various modifications may be made without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined not only by the scope of the following claims, but also by the equivalents of the claims.

1 is a diagram showing the configuration of a wireless communication system using a P2P communication method according to the prior art;

2 is a diagram showing the configuration of a wireless communication system using a P2P communication method according to the present invention;

3 is a diagram illustrating a frame configuration of a wireless communication system using a P2P communication method according to an embodiment of the present invention;

4 is a diagram illustrating a procedure for selecting a representative terminal in a wireless communication system using a P2P communication method according to an embodiment of the present invention;

5 is a diagram illustrating a paging procedure of a terminal using a P2P communication method in a wireless communication system according to an embodiment of the present invention;

6 is a diagram illustrating a paging procedure of a terminal using a P2P communication scheme in a wireless communication system according to another embodiment of the present invention;

7 is a block diagram of a terminal using a P2P communication method in a wireless communication system according to the present invention.

Claims (28)

In the method for performing paging in the terminal of the wireless communication system, A process of identifying terminals maintaining an idle state among terminals constituting a point-to-point network (hereinafter, referred to as P2P); Requesting paging for terminals maintaining the standby state to a base station through a cellular network; And when the paging signal is received from the base station through the cellular network, transmitting the paging signal to the terminals maintaining the standby state through the P2P network. The method of claim 1, The method may further include selecting a representative terminal for paging among the terminals configuring the P2P network. If the terminal is selected as the representative terminal, characterized in that proceeding to the process of identifying the terminal to maintain the standby state. The method of claim 2, The process of selecting the representative terminal, Checking information on other terminals constituting the P2P network through the P2P network; Checking whether there are terminals communicating with a base station through a cellular network among other terminals configuring the P2P network; And when there are at least two terminals communicating with the base station, selecting the terminal having the largest residual power among the terminals communicating with the base station as the representative terminal. The method of claim 3, wherein Selecting, by the representative terminal, a predetermined period of time, and checking remaining power amounts of the terminals communicating with the base station through the cellular network; The method further comprising the step of changing the terminal with the most residual power of the terminal to the representative terminal. The method of claim 3, wherein If there is no terminal communicating with the base station via the cellular network, the method comprising the step of selecting the terminal with the largest amount of residual power of the terminals constituting the P2P network as a representative terminal. The method of claim 5, Selecting the representative terminal and checking a remaining power amount of the terminals constituting the P2P network after a predetermined period; The method further comprising the step of changing the terminal with the most residual power of the terminal to the representative terminal. The method of claim 3, wherein If there is only one terminal communicating with the base station, the method further comprising the step of selecting the terminal communicating with the base station as a representative terminal. The method according to claim 3 and 7, If the representative terminal stops communication with the base station, the representative terminal further comprising the step of selecting again. The method of claim 3, wherein The information on the other terminals, whether or not in communication with the base station via a cellular network, characterized in that at least one of the remaining power amount. The method of claim 1, The step of transmitting the paging signal to the terminals maintaining the standby state, When a paging signal is received from a base station through the cellular network, checking a communication state of P2P networks of terminals maintaining the standby state; When the terminals perform data communication through a P2P network, transmitting the paging signal to terminals maintaining the standby state through a data transmission resource of the P2P network. The method of claim 10, If the terminals do not perform data communication through the P2P network, the method further comprising the step of transmitting the paging signal to the terminals to maintain the standby state through the control signal transmission resources of the P2P network . In the method for performing paging in the terminal of the wireless communication system, Checking the paging cycle with the base station; A process of identifying terminals maintaining an idle state among terminals constituting a point-to-point network (hereinafter, referred to as P2P); Requesting paging for terminals maintaining the standby state to a base station through a cellular network; When the paging signal is received from the base station through the cellular network, identifying a target terminal of the paging signal; And transmitting the paging signal to the terminals through the P2P network when it is a paging signal for the terminals maintaining the standby state. The method of claim 12, The method may further include selecting a representative terminal for paging among the terminals configuring the P2P network. If the terminal is selected as the representative terminal, characterized in that proceeding to the process of checking the paging period with the base station. The method of claim 13, The process of selecting the representative terminal, Checking information on other terminals constituting the P2P network through the P2P network; Checking whether there are terminals communicating with a base station through a cellular network among other terminals configuring the P2P network; And when there are at least two terminals communicating with the base station, selecting the terminal having the largest residual power among the terminals communicating with the base station as the representative terminal. The method of claim 14, Selecting, by the representative terminal, a predetermined period of time, and checking remaining power amounts of the terminals communicating with the base station through the cellular network; The method further comprising the step of changing the terminal with the most residual power of the terminal to the representative terminal. The method of claim 14, If there is no terminal communicating with the base station through the cellular network, the method comprising the step of selecting the terminal with the most residual power of the terminals constituting the P2P network as the representative terminal. The method of claim 16, Selecting the representative terminal and checking a remaining power amount of the terminals constituting the P2P network after a predetermined period; The method further comprising the step of changing the terminal with the most residual power of the terminal to the representative terminal. The method of claim 14, If there is only one terminal communicating with the base station, the method further comprising the step of selecting the terminal communicating with the base station as a representative terminal. The method of claim 14 and 18, If the representative terminal stops communication with the base station, the representative terminal further comprising the step of selecting again. The method of claim 14, The information on the other terminals, whether or not in communication with the base station via a cellular network, characterized in that at least one of the remaining power amount. The method of claim 12, The requesting of the paging to the base station may include requesting a paging signal for the terminals maintaining the standby state to the base station through the cellular network according to a paging period with the base station. The method of claim 12, The step of transmitting the paging signal to the terminals maintaining the standby state, When a paging signal is received from a base station through the cellular network, checking a communication state of P2P networks of terminals maintaining the standby state; When the terminals perform data communication through a P2P network, transmitting the paging signal to terminals maintaining the standby state through a data transmission resource of the P2P network. The method of claim 22, If the terminals do not perform data communication through the P2P network, the method further comprising the step of transmitting the paging signal to the terminals to maintain the standby state through the control signal transmission resources of the P2P network . In a terminal device for performing point-to-point communication (hereinafter referred to as P2P) in a wireless communication system, A P2P control unit for selecting a representative terminal to perform paging among the terminals constituting the P2P network and controlling paging for the terminals constituting the P2P network through the P2P network; A controller for controlling paging for the base stations and terminals constituting the P2P network through a cellular network; A receiver which receives a signal through the P2P network or a cellular network, And a transmitter for transmitting a signal through the P2P network or a cellular network. The method of claim 24, The P2P controller selects a representative terminal to perform paging by checking communication state information and remaining power information with a base station through cellular networks of terminals constituting the P2P network. The method of claim 24, When the terminal is selected as the representative terminal, the P2P control unit provides information to the control unit of information of terminals in an idle state among terminals constituting the P2P network, And receiving the paging signal from the controller to transmit the paging signal to the terminals in the standby state through the P2P network. The method of claim 26, The P2P controller transmits a paging signal using a P2P data transmission resource when the terminals in standby state perform P2P data communication with the representative terminal. And if the terminals in the standby state do not perform P2P data communication with the representative terminal, transmit a paging signal using a P2P control signal transmission resource. The method of claim 24, When the terminal is selected as the representative terminal, the controller requests the base station for paging for terminals in an idle state provided from the P2P controller through the cellular network, And when the paging signal is received from the base station through the cellular network, transmitting the paging signal to the P2P controller.

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