KR100777112B1 - A mobile station apparatus for supporting Peer-to-Peer communications and a communicating and billing method based on the same - Google Patents

Abstract

The present invention relates to a terminal capable of peer-to-peer (P2P) communication, a communication method using the same, and a charging method based on the same, and by implementing a transceiver of the terminal to enable P2P communication between short-range terminals in the same cell. For example, when short-range communication is possible, P2P communication is performed between terminals without passing through a base station, so that the mobile communication service provider can be used for short-range communication when the mobile communication service provider is different or there is no base station network.

According to the present invention, while performing communication with a neighbor terminal through a base station, when the reception channel state is good, it switches to a P2P communication mode and performs communication with the neighbor terminal. In contrast, the neighbor terminal receives a communication in a P2P communication mode. When the channel state deteriorates, the terminal switches to the base station communication mode and communicates with an adjacent terminal, thereby enabling the terminal to be used for short-range communication without separately attaching the short-range communication module to the terminal.

WCDMA, CDMA, Peer-to-Peer, P2P, Communication Modes, Terminals, Base Stations

Description

A mobile station apparatus for supporting Peer-to-Peer communications and a communicating and billing method based on the same}

1 is a view for explaining the concept of peer-to-peer communication between terminals according to the present invention.

2 is a block diagram of a WCDMA / CDMA terminal capable of peer-to-peer communication according to a first embodiment of the present invention.

3 is a view for explaining the operation of the WCDMA / CDMA terminal capable of peer-to-peer communication according to the first embodiment of the present invention.

4 is a block diagram of a WCDMA / CDMA terminal capable of peer-to-peer communication according to a second embodiment of the present invention.

5 is a flowchart illustrating a first communication method using a terminal capable of peer-to-peer communication according to the present invention.

6 is a flowchart illustrating a second communication method using a terminal capable of peer-to-peer communication according to the present invention.

Explanation of symbols on the main parts of the drawings

100: base station 200: terminal

200a: first terminal 200b: second terminal

210: antenna 220: transmission module

221: modulator 225: DAC

227: wireless transmission unit

230: receiving module 231: wireless receiving unit

232: downlink signal receiver 233: P2P signal receiver

235: ADC 237: demodulator

238: Downlink signal demodulator 239: P2P signal demodulator

240: receiving channel measuring unit 250: communication mode control unit

400: terminal

410: antenna 420: transmission and reception module

421: uplink signal transmitter 422: downlink signal receiver

430: DAC 440: ADC

450: modulator 460: demodulator

470: magnetic interference cancellation unit

The present invention relates to a terminal capable of peer-to-peer (P2P) communication, a communication method using the same, and a charging method based on the same. More specifically, a code division multiple access (WDMDMA) method and an asynchronous WCDMA wideband method are provided. In the CDMA mobile communication system, the transceiver of the terminal is implemented to enable peer-to-peer communication between the same short-range terminals in the same cell, thereby providing a base station in connection with the second generation CDMA and the third generation UMTS service. The present invention relates to a terminal capable of maximizing resources, a communication method using the same, and a charging method based on the same.

Since the cellular cellular mobile telecommunication system was developed in the United States in the late 1970s, AMPS (Advanced Mobile Phone Service), which can be called the analog 1st generation (1G) mobile communication system in Korea, Began to provide voice communication services. Later, the 2nd generation (2G) CDMA mobile communication system was started and commercialized in the mid-1990s, and the third generation (3G) mobile communication system, which was started in the late 1990s, aimed at wireless multimedia and high-speed data services. IMT-2000 (International Mobile Telecommunication-2000) has been commercialized and operated in part.

In particular, since the WCDMA mobile communication system recommended by the third generation IMT-2000 not only has excellent call quality but also uses a spread spectrum method, a terminal connected to a base station can receive a variable spreading factor (VSF) and a multi-code ( It is a mobile communication system that is very suitable for fast data transmission such as high-definition video service because it can request broadband service in real time.

However, the WCDMA system can use a service provided by another communication service provider even if the mobile communication service provider is subscribed to an expensive roaming service when the mobile communication service provider is different, and the communication between terminals when there is no base station in the cell radius. The problem is that service is impossible.

In order to compensate for the above problems, seamless handover function of interworking with a near field communication module such as WLAN in a dual mode, and a small WPAN communication function between a near field terminal using Bluetooth or WiFi (ad hoc mode) Although a method for enabling short-range communication can be performed even when communication with a base station is impossible, the method has to add a short-range communication module to the terminal separately, which leads to an increase in terminal cost. Have

The present invention has been made to solve the above problems, an object of the present invention is to implement a transceiver (transceiver) of the terminal to enable peer-to-peer communication between the short-range terminals in the same cell, the base station when the short-range communication is possible By providing peer-to-peer communication between terminals without using a mobile communication provider, a terminal and a communication method using the same and a charging method based on the same can be used when a mobile communication provider is different or a base station network does not exist. .

In order to achieve the above object, a terminal capable of peer-to-peer communication according to the present invention comprises: a transmission module for modulating and spreading transmission data and outputting a predetermined transmission signal; A receiving module for receiving a downlink signal from a base station or a peer-to-peer signal from an adjacent terminal, despreading and demodulating the received signal and outputting the received signal as predetermined received data; A reception channel measuring unit measuring the strength of the received signal using an averaging process; And a communication mode control unit for controlling handover between the base station communication mode and the P2P communication mode according to the strength of the received signal measured by the reception channel measuring unit.

Meanwhile, in order to achieve the above object, a communication method using a terminal capable of peer-to-peer communication according to the present invention includes (a) a base station communication in which a first terminal and a second terminal capable of P2P communication are adjacent in the same cell radius. Communicating in a communication mode of either a mode or a P2P communication mode; (b) periodically measuring the strength of a received signal at at least one of the first terminal and the second terminal; And (c) at least one of the first terminal and the second terminal performs mode switching to any one of a base station communication mode and a P2P communication mode according to the measured strength of the received signal. And performing a communication.

Meanwhile, in order to achieve the above object, a charging method based on a terminal capable of P2P communication according to the present invention includes a base station communication mode or a P2P communication mode in which a first terminal and a second terminal capable of P2P communication are adjacent in the same cell radius. Communicating in any one of the communication modes; When the first terminal and the second terminal communicate in a P2P communication mode, storing communication records at the first terminal and the second terminal, respectively; Transmitting the stored communication record to a base station at the first terminal and the second terminal when the communication mode of the first terminal and the second terminal is switched to a base station communication mode; And performing the charging process at the base station according to the transmitted communication record.

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

1 is a view for explaining the concept of peer-to-peer communication between terminals according to the present invention.

Referring to FIG. 1, when there is a first terminal 200a and a second terminal 200b capable of peer-to-peer communication (hereinafter, referred to as 'P2P') communication within the same cell radius, the first terminal ( 200a may communicate with the second terminal 200b through the base station 100 or directly perform the P2P communication with the second terminal 200b without passing through the base station 100.

That is, when it is determined that P2P communication is necessary while communicating with the other party through the base station 100, the first terminal 200a and the second terminal 200b may switch to the P2P communication mode to perform P2P communication. Hereinafter, the configuration and operation of a WCDMA / CDMA terminal capable of P2P communication according to the present invention will be described in detail.

2 is a block diagram of a WCDMA / CDMA terminal capable of P2P communication according to a first embodiment of the present invention.

2, the WCDMA / CDMA terminal 200 capable of P2P communication according to the first embodiment of the present invention includes an antenna 210, a transmission module 220, a reception module 230, and a reception channel measurement unit ( 240 and the communication mode control unit 250.

Here, the antenna 210 is preferably a broadband antenna.

The transmission module 220 performs a function of outputting the transmission data received from the outside as a predetermined transmission signal through a modulation and spreading process, etc. The transmission signal generated through this process is passed through the antenna 210 to the base station ( 100).

The transmission module 220 includes a modulator 221, a DAC 225, and a wireless transmitter 227.

The modulator 221 performs a function of modulating a transport block (TB) transmitted from a MAC layer (not shown) by, for example, a CDMA method and outputting it to the DAC 225.

In the present embodiment, the modulation process includes TrCH channel coding, physical channel mapping, spreading and scrambling.

The DAC 225 converts the digital transmission data input from the modulator 221 into analog transmission data and outputs it to the wireless transmission unit 227.

The radio transmitter 227 performs a function of outputting a transmission signal by performing a predetermined radio processing on the output signal of the DAC 225. In this embodiment, the radio transmitter 227 transmits an uplink signal to a base station. It may be understood as the same meaning as the uplink signal transmitter to transmit.

The transmission signal output from the wireless transmitter 227 is output to the antenna 210 via a predetermined transmission / reception signal separation unit (not shown).

On the other hand, the receiving module 230 performs a function of outputting the received signal received from the outside as predetermined received data through the process of despreading and demodulation.

The receiving module 230 is composed of a wireless receiving unit 231, an ADC 235 and a demodulator 237.

Here, the wireless receiver 231 performs a predetermined radio processing on the received signal received through the antenna 210 and the transmission and reception signal separation unit (not shown), the downlink signal from the base station 100 is a downlink signal receiver Received through the (232), P2P signal from the adjacent terminal is received through the P2P signal receiving unit 233.

That is, the wireless receiver 231 of the present invention further includes a P2P signal receiver 233 for P2P communication with an adjacent terminal in addition to the downlink signal receiver 232 for communication with the base station.

Here, the P2P signal receiver 233 may be implemented in a simpler structure than the downlink signal receiver 232. For example, one PLL capable of receiving a signal of the same frequency band from an adjacent terminal without an LNA. It can be implemented by combining a mixer (Mixer) and a low pass filter (low pass filter) using.

The ADC 235 converts an analog signal received through the wireless receiver 231 into a digital signal and transfers the analog signal to a demodulator 237.

The demodulator 237 performs demodulation on the digital signal transmitted from the ADC 235 and outputs demodulated received data to the reception channel measurement unit 240. The base station 100 The downlink signal from the device is demodulated through the downlink signal demodulator 238, and the P2P signal from the neighboring terminal is demodulated through the P2P signal demodulator 239.

That is, the demodulator 237 of the present invention further includes a P2P signal demodulator 239 for demodulating P2P signals received from an adjacent terminal in addition to the downlink signal demodulator 238 for demodulating the downlink signal received from the base station 100. Included.

In the present embodiment, the demodulation process includes TrCH channel decoding, physical channel demapping, despreading, and descrambling.

Here, the P2P signal demodulator 239 may be implemented with a simpler structure than the downlink signal demodulator 238. For example, the DPCH of the counterpart terminal without considering multipath diversity may be used. It can be implemented as a simple RAKE receiver structure of a single finger capable of performing only the demodulation process for the RPC.

Meanwhile, the received signal demodulated through the downlink signal demodulator 238 or the P2P signal demodulator 239 is input to the reception channel measuring unit 240. Accordingly, the reception channel measuring unit 240 receives the signal of the reception channel. The intensity is measured and the measured value is output to the communication mode controller 250.

In the present embodiment, the strength of the received signal can be measured by a method of measuring energy in units of symbols (bits) of the received signal and averaging it in units of slots. Since the method of identifying is widely used in the field, a detailed description thereof will be omitted.

The communication mode controller 250 controls the handover between the base station communication mode and the P2P communication mode according to the strength of the reception channel measured by the reception channel measuring unit 240.

In more detail, the communication mode controller 250 determines whether the measured intensity of the received channel is greater than or equal to a predetermined threshold value, and when the threshold value is greater than or equal to a predetermined threshold value, determines that the reception channel state is good and switches to a P2P communication mode. And control to perform P2P communication. If the measured reception channel strength is less than a predetermined threshold value, the reception channel state is deteriorated.

Here, the predetermined threshold value is preferably set to a signal strength value that can distinguish the base station communication mode and the P2P communication mode.

That is, when the terminal 200 according to the present invention determines that the P2P communication is necessary through the communication mode controller 250 while communicating with the counterpart in the base station communication mode, the terminal 200 switches to the P2P communication mode and performs P2P communication with the counterpart. On the contrary, if it is determined that the switch to the base station communication mode is necessary through the communication mode control unit 250 while communicating with the other party in the P2P communication mode, the base station 100 switches to the base station communication mode and performs communication with the other party through the base station 100. do.

The present invention implements the transceiver of the terminal to enable P2P communication between the short-range terminals in the same cell, and when the short-range communication is possible, the biggest feature of performing the P2P communication between terminals without going through the base station, as described in the following description. The P2P communication function according to the present invention will be described in more detail.

3 is a view for explaining the operation of the WCDMA / CDMA terminal capable of P2P communication according to the first embodiment of the present invention.

Referring to FIG. 3, in the base station communication mode, an uplink signal transmitter (wireless transmitter) 227a of the first terminal 200a transmits an uplink radio signal to the base station 100 and a downlink signal of the first terminal 200a. The receiver 232a receives the downlink radio signal from the base station 100.

Similarly, in the base station communication mode, the uplink signal transmitter (wireless transmitter) 227b of the second terminal 200b transmits an uplink radio signal to the base station 100 and the downlink signal of the second terminal 200b. The receiver 232b receives the downlink radio signal from the base station 100.

Meanwhile, when the first terminal 200a is switched from the base station communication mode to the P2P communication mode, the first terminal 200a and the second terminal 200b perform P2P communication without passing through the base station 100. When the uplink signal transmitter 227a of the first terminal 200a transmits an uplink radio signal, the signal is received by the P2P signal receiver 233b of the second terminal 200b and the uplink signal of the second terminal 200b. When the transmitter 227b transmits an uplink radio signal, the signal is received by the P2P signal receiver 233a of the first terminal 200a.

In this case, it is preferable that the first terminal 200a and the second terminal 200b perform a P2P communication using a scrambling code assigned to distinguish each terminal.

That is, the first terminal 200a performs scrambling and spreading processing by using a channelization code / scrambling code in the process of modulating the transmission data. When a radio signal that has undergone spreading is transmitted to the second terminal 200b, the second terminal 200b performs a channelization code / scrambling code applied by the first terminal 200a when demodulating received data. Descrambling and despreading are performed using a scrambling code to demodulate received data.

The channelization code is a code allocated by the base station 100 to distinguish a physical channel using an orthogonal characteristic, and the scrambling code is downlinked using a correlation characteristic. In the case of a signal, a base station is used to distinguish a terminal, and in the case of an uplink signal, a code is used to distinguish a base station.

In the above description, the operation of the terminal for performing P2P communication in a half-duplex of Time Division Duplex (TDD) using the same uplink frequency band during transmission and reception has been described as an example. It is also possible to perform full-duplex P2P communication, and a terminal capable of such bi-directional P2P communication will be described in more detail with reference to FIG. 4 as follows.

4 is a block diagram of a WCDMA / CDMA terminal capable of P2P communication according to a second embodiment of the present invention.

Referring to FIG. 4, the terminal 400 according to the second embodiment of the present invention includes an antenna 410, a transceiver module 420, a DAC 430, an ADC 440, a modulator 450, and a demodulator. 460 and the magnetic interference cancellation unit 470.

The terminal 400 has the same structure as the terminal 200 illustrated in FIG. 2 except that the transmitting module and the receiving module are integrated into one transmitting and receiving module and the magnetic interference canceling unit 470 is included. Since it is implemented as, detailed description of the configuration of each part performing the same function is omitted.

When a wireless signal is received by the transmission / reception module 420 through the antenna 410 of the terminal 400, the downlink signal receiver 422 of the transmission / reception module 420 performs a predetermined signal processing on the input wireless signal. The signal is transmitted to the ADC 440, and the signal input to the ADC 440 is converted into a digital signal and input to the demodulator 460.

On the other hand, the demodulator 460 inputs a transmission signal modulated by the modulator 450 or a transmission signal reflected back from the antenna 410 in addition to the received signal converted into a digital signal through the ADC 440. In this case, interference may occur in the received signal due to the influence of the transmission signal, and thus an error may occur when demodulating the received signal.

That is, in the P2P communication, the transmitting terminal and the receiving terminal use different scrambling codes to suppress the influence of interference as much as possible, but the transmitting terminal and the receiving terminal use the same uplink frequency band. Since signals are transmitted and received, this may cause mutual interference in the transmitted and received signals.

To this end, the magnetic interference canceling unit 470 filters the transmission signal modulated by the modulation unit 450 or the transmission signal reflected back from the antenna 410 to the received signal input to the demodulation unit 460. The interference effect of the transmission signal can be eliminated.

In the present embodiment, the magnetic interference cancellation unit 470 may be implemented in a structure similar to MUD (Multiple User Detection) generally used for interference suppression in the base station 100. It is desirable to implement a feed-through rejection filter with adjustable) value.

Therefore, by removing the mutual interference effect of the transmission and reception signal through the magnetic interference cancellation unit 470 as described above, the transmitting terminal and the receiving terminal can perform P2P communication smoothly in a full-duplex method. .

As described above, the terminal capable of P2P communication according to the present invention communicates with the neighbor terminal through the base station, and when the reception channel state is good, the terminal switches to the P2P communication mode and performs communication with the neighbor terminal. While communicating in the P2P communication mode and the reception channel condition deteriorates, the mobile station switches to the base station communication mode and communicates with an adjacent terminal.

Hereinafter, a communication method using a terminal capable of peer-to-peer communication of the present invention will be described in detail with reference to the accompanying drawings.

5 is a flowchart illustrating a first communication method using a terminal capable of peer-to-peer communication according to the present invention.

For convenience of explanation, it is assumed that the first terminal and the second terminal are adjacent to each other within the same cell radius.

Referring to FIG. 5, first, when the power of the first terminal is turned on (S501), the first terminal performs a cell search to which it belongs and then checks whether the P2P communication mode is set to on (S501). S502-S503).

Next, when the P2P communication mode is set to on, the first terminal registers the P2P communication mode in the base station 100 and enters a standby mode (S504 to S505).

Then, when the call is transmitted from the first terminal and the call signal is transmitted to the base station (S506), the base station transmits a call response signal to the first terminal accordingly.

In this case, the call response signal transmitted to the first terminal preferably includes channelization code / scrambling code information of the first terminal.

Next, when the call response signal is received from the base station (S507), the first terminal stores channelization code / scrambling code information included in the call response signal.

Then, the base station transmits a call connection signal to the first terminal when the call is successfully connected by connecting the call to the second terminal of the other party.

Here, the P2P communication mode of the second terminal is set to ON, and thus, of course, the P2P communication mode of the second terminal is registered in the base station 100.

Next, when the call connection signal is received from the base station (S508), the first terminal measures the strength of the received signal using the PILOT signal of the received signal (S509). Thus, the strength of the signal using the PILOT signal is measured. Since the method is widely used in the field, a detailed description thereof will be omitted.

Next, the first terminal determines whether to communicate in a base station communication mode or a P2P communication mode according to the measured strength of the received signal (S510).

In more detail, the first terminal determines whether the measured intensity of the received signal is greater than or equal to a predetermined threshold value, and when the threshold value is greater than or equal to a predetermined threshold value, determines that a reception channel state is good and communicates with the second terminal in a P2P communication mode. If the measured strength of the received signal is less than a predetermined threshold, it is determined that the reception channel state is deteriorated, and it is determined that the communication is performed in the base station communication mode with the second terminal.

Then, the first terminal communicates with the second terminal in the base station communication mode (S511) or the second terminal in the P2P communication mode according to the communication mode determined through the communication mode determination step (S510) (S512). ).

Meanwhile, when the first terminal determines that the P2P communication is necessary according to the measured strength of the received signal by measuring the strength of the received signal again at predetermined time intervals during the communication in the base station communication mode, the first terminal switches to the P2P communication mode to the second terminal. Perform P2P communication with.

Similarly, the first terminal re-measures the strength of the received signal at predetermined time intervals during communication in the P2P communication mode, and if it is determined that switching to the base station communication mode is necessary according to the measured strength of the received signal, By switching, the base station 100 communicates with the second terminal.

That is, the first terminal communicates with the second terminal by performing a handover between the base station communication mode and the P2P communication mode, and the second terminal also communicates with the first terminal by performing a handover between the base station communication mode and the P2P communication mode. Do this.

On the other hand, when the first terminal and the second terminal communicates in the P2P communication mode without passing through the base station, the communication record between the first terminal and the second terminal can not be grasped by the base station, so in the present invention to the P2P communication mode When performing the communication, the first terminal and the second terminal stores the communication records, respectively, and when the switch to the base station communication mode to transmit the stored communication records to the base station, so that it is possible to charge for P2P communication It is preferable.

On the other hand, in the standby mode (S505), when a call is sent from the second terminal and the outgoing signal signal is transmitted to the first terminal through the base station, that is, when the incoming call is received through the base station to the first terminal (S513) The first terminal transmits a response signal according to the reception of the incoming call to the base station (S514).

In this case, it is preferable that the response signal transmitted from the first terminal to the base station includes channelization code / scrambling code information of the first terminal.

Next, when a call connection signal is received from the base station to the first terminal (S515), the first terminal measures the strength of the received signal and performs communication in the base station communication mode according to the measured strength of the received signal. Determining whether to perform the communication in the P2P communication mode to perform communication with the second terminal according to the determined communication mode (S509 to S512), the strength measurement of the received signal and the method of determining the communication mode according to the above described Since the same procedure, detailed description thereof will be omitted.

In the above description, the case in which one of the base station communication mode and the P2P communication mode is determined according to the measured strength of the received signal by measuring the strength of the received signal in the first terminal has been described as an example. It can be done in the terminal, the second terminal or both.

In addition, in the present embodiment, it is preferable that either one of the first terminal or the second terminal can be switched to the base station mode if the P2P communication mode is not possible, and it is preferable to perform the communication mode switching attempt several times. .

As described above, when the first terminal and the second terminal communicate with the other terminal, the first terminal and the second terminal periodically check the reception channel state of the received signal and switch to the base station communication mode or the P2P communication mode according to the state of the reception channel. Accordingly, when short-range communication is possible, communication can be performed in a P2P communication mode between terminals without passing through a base station, thereby enabling the first terminal and the second terminal to be used for short-range communication.

On the other hand, in the above, when the base station is found in the cell search process has been described as an example of switching to the P2P communication mode during communication through the base station or vice versa, if the base station is not found in the cell search process, The terminal and the second terminal directly perform communication in a P2P communication mode, which will be described below in more detail with reference to FIG. 6.

6 is a flowchart illustrating a second communication method using a terminal capable of peer-to-peer communication according to the present invention.

For convenience of description, it is assumed that a base station does not exist within a cell radius, and a first terminal and a second terminal exist adjacent to each other within the cell radius, and the first terminal and the second terminal communicate in a unidirectional P2P communication mode.

Referring to FIG. 6, first, when the power of the first terminal is turned on (S601), the first terminal performs a cell search process to which the first terminal belongs, and if the base station is not present, the P2P communication mode is turned on. Check whether it is set (S602 to S603).

Next, when a call is sent from the first terminal in a state where the P2P communication mode of the first terminal is set to on (S604), an outgoing call signal corresponding thereto is received by the second terminal.

Then, when the second terminal responds to the call signal, the response signal is received by the first terminal (S605).

In the same manner as described above, the first terminal and the second terminal perform P2P communication. At this time, the communication record with the other party is stored in a memory (not shown) during the P2P communication (S606).

Next, the first terminal and the second terminal periodically determine the base station information through cell search to determine whether communication can be performed in the base station communication mode (S607). Thus, the base station information is identified through the periodic cell search. This is because switching to the base station communication mode is possible due to the mobility of the first terminal and the second terminal.

If it is determined that communication is possible in the base station communication mode, then the first terminal and the second terminal transmits the communication records stored in the memory to the base station so that charging for the P2P communication can be processed (S608). After that, the charging information may be collected through the base station according to the general charging process (S609).

That is, when the first terminal and the second terminal communicates in the P2P communication mode, since the communication record between the first terminal and the second terminal cannot be grasped by the base station, in the present invention, for this purpose, the first terminal and the second terminal communicate with each other in the P2P communication mode. When the terminal and the second terminal stores the communication records, respectively, and is switched to the base station communication mode to transmit the stored communication records to the base station, it is possible to perform the charge for P2P communication.

On the other hand, even when the communication in the P2P communication mode as described above, the first terminal and the second terminal is a closed loop power control scheme that properly controls the power in accordance with the distance to the other terminal, the current reception propagation state, or its own movement It is desirable to effectively reduce the transmission and reception power consumption through.

The above-described embodiments of the present invention can be written as a program that can be executed in a computer, and can be implemented in a general-purpose digital computer which operates the program using a computer-readable recording medium.

So far, the present invention has been described with reference to the preferred embodiments, and those skilled in the art to which the present invention belongs may be embodied in a modified form without departing from the essential characteristics of the present invention. You will understand. Therefore, the disclosed embodiments should be considered in descriptive sense only and not for purposes of limitation. The scope of the present invention is shown in the claims rather than the foregoing description, and all differences within the scope will be construed as being included in the present invention.

As described above, according to the present invention, by implementing the transceiver of the terminal to enable the P2P communication between the short-range terminals in the cell, when the short-range communication is possible, the P2P communication between the terminals are carried out without going through the base station, the mobile communication provider is different or the base station When the network does not exist, it can be used for short-range communication, which not only saves base station radio resources but also improves overall system performance.

In addition, according to the present invention, it is possible to manufacture a terminal capable of P2P communication without mounting a short-range communication module separately, there is an effect that can reduce the manufacturing cost of the terminal.

In addition, according to the present invention, it is possible to reduce the interference effect of the transmission and reception signal as compared to the conventional terminal, and even in the P2P communication mode by controlling the power in a closed loop power control method can prevent unnecessary power consumption It also works.

In addition, in the P2P communication mode, the transmitting terminal and the receiving terminal store the communication records, and when the communication mode is switched to the base station communication mode, the stored communication records are transmitted to the base station, so that the charge for the P2P communication can be processed. There is also an effect that can be reasonably charged.

Claims (11)

A transmission module for modulating and spreading transmission data and outputting the transmission data as a predetermined transmission signal; A receiving module for receiving a downlink signal from a base station or a peer-to-peer signal from an adjacent terminal, despreading and demodulating the received signal and outputting the received signal as predetermined received data; A reception channel measuring unit measuring the strength of the received signal using an averaging process; And And a communication mode control unit controlling a handover between the base station communication mode and the P2P communication mode according to the strength of the received signal measured by the reception channel measuring unit. The method of claim 1, wherein the receiving module, A wireless receiver for receiving a radio signal from the base station or the neighboring terminal, an ADC for receiving an analog signal from the radio receiver and converting the digital signal and output, and a demodulator for demodulating the digital signal output from the ADC, The wireless receiver, A downlink signal receiver for receiving a downlink signal from the base station; And It includes a P2P signal receiving unit for receiving a P2P signal from the adjacent terminal, The demodulation unit, A downlink signal demodulator for demodulating a downlink signal from the base station; And And a P2P signal demodulator for demodulating P2P signals from the adjacent terminal. The demodulation unit of claim 2, wherein And a magnetic interference canceling unit for removing interference effects of the transmission signal from the downlink signal demodulation unit and the received signal input to the P2P signal demodulation unit. The method of claim 1, wherein the communication mode control unit, If the strength of the received signal measured by the receiving channel measuring unit is more than a predetermined threshold value and controls to perform P2P communication with the adjacent terminal, If the strength of the received signal measured by the receiving channel measuring unit is less than a predetermined threshold value, the terminal capable of P2P communication characterized in that the control to communicate via the base station in the base station communication mode. (a) communicating between a first terminal and a second terminal capable of P2P communication in a communication mode of either a base station communication mode or a P2P communication mode adjacent to the same cell radius; (b) periodically measuring the strength of a received signal at at least one of the first terminal and the second terminal; And (c) at least one of the first terminal and the second terminal performs mode switching to either a base station communication mode or a P2P communication mode according to the measured strength of the received signal to communicate with the other party; Communication method using a terminal capable of P2P communication, comprising the step of performing. The method of claim 5, wherein the P2P communication, A communication method using a terminal capable of P2P communication, characterized in that it is either half-duplex P2P communication or full-duplex P2P communication. The method of claim 5, Registering the P2P communication mode of the first terminal with the base station when the first terminal capable of P2P communication is connected to the base station; And And registering the P2P communication mode of the second terminal to the base station when the second terminal capable of P2P communication is connected to the base station. The method of claim 5, The first terminal or the second terminal is a communication method using a terminal capable of P2P communication, characterized in that for performing P2P communication using a scrambling code (scrambling code). The method of claim 5, wherein step (c) comprises: Determining whether the measured intensity of the received signal is greater than or equal to a predetermined threshold value at least one of the first terminal and the second terminal; If the measured intensity of the received signal is greater than or equal to a predetermined threshold value, determining that the reception channel state is good and switching to a P2P communication mode to perform P2P communication with the other party; And If the measured strength of the received signal is less than a predetermined threshold value, and determines that the reception channel state is bad, and switching to the base station communication mode and performing communication via the base station and the other party comprising a terminal capable of P2P communication Communication method using. The method of claim 5, wherein in the P2P communication, And performing power control by the first terminal or the second terminal through a closed loop power control scheme. delete

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