KR100426252B1 - Peer-to-peer mode communication system and method between mobile terminals - Google Patents

Abstract

The present invention relates to a system and method for supporting any two mobile communication terminals to communicate directly in a peer-to-peer mode without going through a public mobile communication network if they are located together within a certain range.

The peer-to-peer communication system of a mobile communication terminal according to the present invention uses the indoor paging channel and the indoor access channel allocated to an indoor paging channel and an indoor access channel and synchronized with a forward link transmitted from a mobile communication base station. A plurality of mobile communication terminals capable of performing peer-to-peer communication with each other, and a plurality of picocells formed in a mobile communication communication cell controlled by the mobile communication base station to perform peer-to-peer communication during the mobile communication terminal period. A jurisdiction includes a plurality of wireless repeaters, each of which repeats voice and data transmitted and received between the picocells for peer-to-peer communication.

Description

Peer-to-peer communication system and method of mobile communication terminal {Peer-to-peer mode communication system and method between mobile terminals}

The present invention relates to a direct communication system and method for a mobile communication terminal, and more particularly, to a system and method for supporting direct communication in a peer-to-peer manner without a mobile communication network when two mobile communication terminals exist within a predetermined range. It is about.

Mobile communication terminals (PCS phones, cellular phones, handheld PCs, notebook PCs, PDAs, etc.), which have become a necessity of modern man, are used not only for voice telephone calls but also for internet access for data transmission and reception. Such a mobile communication terminal generally receives a voice telephone call service and a data transmission / reception service through a mobile communication network.

A schematic diagram of a general mobile communication network is shown in FIG. 1. The mobile communication network is connected to the mobile communication terminal 11 through the base station antenna 12, and is roughly divided into a mobile telephone exchange (MTX) subsystem and a base station subsystem (BSS). The mobile telephone exchange provides an interface with a public switch telephone network (PSTN) 16 or a public switch data network (PSDN) 18. The base station subsystem is a mobile communication terminal (mobile station). Provides an interface with

The base station subsystem (BSS) consists of a base station transceiver subsystem (BTS) 13 and a base station controller (BSC) 14, which includes several BTSs in one BSC 14. 13 can be connected. The BTS 13 provides a link between the mobile communication terminal 11 and the BSC 14, which communicates with the mobile communication terminal through a common air interface (CAI) and with the BSC 14 through a wired network interface. The BSC 14 is composed of control elements and resources for providing a channel between the BTS 13 and the MTX. The MTX subsystem includes a mobile switching center (MSC) 15 to provide an interface between the BSC 14 and the public switch telephone network (PSTN) 16. The BSC 14 and the packet switch data network (PSDN) 18 are connected through the packet mobile network 17.

Conventionally, when a mobile communication terminal requests a call, the call message is always delivered to the called terminal through the mobile communication network regardless of the distance between the calling terminal and the called terminal. In other words, regardless of the distance between the calling mobile terminal and the called mobile terminal, the communication cost increases and voice call quality deteriorates because the communication path is established through an external mobile communication network such as an external antenna, a base station, and a PSTN. have.

An object of the present invention for solving the problems of the prior art as described above is a system for allowing mobile communication terminals to communicate in a peer-to-peer manner without a mobile communication network within a certain range. And to provide a method.

1 is a block diagram showing a general mobile communication network,

2 is a block diagram illustrating a peer-to-peer communication system of a mobile communication terminal according to the present invention;

3 is an internal configuration diagram of a mobile communication terminal according to the present invention;

4 is an operation flowchart showing a peer-to-peer communication method in an originating mobile terminal according to the present invention;

5 is a flowchart illustrating a peer-to-peer communication method in a wireless repeater according to the present invention;

6 is a flowchart illustrating a peer-to-peer communication method in a called-party mobile communication terminal according to the present invention.

※ Explanation of code about main part of drawing ※

310: RF processing unit 320: IF processing unit

330: baseband processing unit 340: central processing unit

350: memory unit 360: key input unit

370: display unit 380: voice processing unit

In order to achieve the above object, a peer-to-peer communication system of a mobile communication terminal according to the present invention is assigned an indoor paging channel and an indoor access channel, and includes a pilot channel and a synchronization channel of a forward link transmitted from a mobile communication base station. A plurality of mobile communication terminals capable of performing peer-to-peer communication with each other by using the indoor paging channel and the indoor access channel after being synchronized, and formed in a mobile communication cell controlled by the mobile communication base station. And a plurality of wireless repeaters each having a plurality of picocells for peer-to-peer communication between terminals, wherein each of the wireless repeaters relays data transmitted and received between the picocells for peer-to-peer communication. .

In addition, a peer-to-peer communication method between mobile communication terminals allocated with separate indoor paging channels and indoor access channels according to the present invention includes a pilot channel and a synchronization channel of a forward link from a base station. Aligning to; Sending, by the calling mobile communication terminal, a calling message calling an indoor telephone number of the called mobile communication terminal through an indoor access channel using a frequency for indoor communication; Waiting for an incoming call response to the calling message from the called mobile communication terminal by the calling mobile terminal; When the calling mobile communication terminal returns an incoming call response through the indoor paging channel from the called mobile communication terminal, it connects the communication channel with the called mobile communication terminal to make a call channel code and a long code. Or transmitting or receiving voice or data with the called-party mobile communication terminal using a pilot reference code.

Hereinafter, with reference to the accompanying drawings will be described in more detail "peer to peer communication system and method of a mobile communication terminal" according to an embodiment of the present invention.

2 is a block diagram illustrating a peer-to-peer communication system of a mobile communication terminal according to the present invention.

In an outdoor mobile communication network, a plurality of picocells (C _pico ) are included in a cell (C _cellular ) that is controlled by one base station antenna 12. Call directly using an indoor FA, an unused FA (Frequency Assignment) or the least used FA. Within each picocell C _pico , a radio repeater 22 is provided, which defines an area governed by the radio repeater 22 as a category of picocells.

The wireless repeater 22 stores the indoor call number of the mobile communication terminal 21 capable of indoor peer-to-peer communication and picocell information to which the mobile communication terminal belongs, and the mobile communication terminal 21 provides indoor peer-to-peer communication service. It authenticates whether it has the right to receive and detects an incoming call and delivers the incoming call by searching for the corresponding mobile communication terminal. In addition, the wireless repeater 22 is located in a different picocell when the distance between the two mobile communication terminals is out of the range for performing peer-to-peer communication, that is, two mobile communication terminals wishing for peer-to-peer communication. When you do, relay the data in the middle.

In general, peer-to-peer communication is a communication for exchanging video, music, text files, etc. between personal computer users without a central center, and in this specification, peer-to-peer communication A mobile communication terminal communicates directly with another mobile communication terminal through a base station without using a mobile communication network to transmit and receive voice or data.

Wireless repeaters are wired or wirelessly connected and communicate using the bridge protocol. At this time, the wireless repeater stores the peer-to-peer address of the terminal using the mobile terminal registration information of the mobile communication terminal located in the picocell, so that the peer-to-peer address of the receiving mobile terminal included in the calling message is stored in the picocell. If not registered, the call message is relayed to the neighbor radio repeater. The wireless repeater authenticates the mobile communication terminal so that only the authorized mobile communication terminal can use the peer-to-peer communication service, or all mobile communication terminals capable of operating in peer-to-peer mode regardless of authentication are peer-to-peer communication service. You can also make it available.

3 is an internal configuration diagram of a mobile communication terminal of the present invention. The RF processor 310, the IF processor 320, the baseband processor (BBA) 330, the central processor 340, the memory 350, the key input 360, the display 370, An audio processing unit 380 is provided. The RF processor 310 may include a low level noise amplifier, an up and down frequency mixer, an IF amplifier, a driver amplifier, a power amplifier, and a frequency synthesizer. And a duplexer and a band pass filter.

The IF processor 320 includes an automatic gain controller and a frequency converter for controlling the magnitude of the signal.

The baseband processing unit 330 is composed of a modulator, a low pass filter (LPF) and an analog-to-digital converter. When the signal is transmitted, the baseband processor 330 converts the digital signal into an analog signal and then passes the low pass filter to pass the low pass signal. Is modulated to an IF signal, and when receiving a signal, the baseband signal is extracted by demodulating the signal received from the IF processor, and then the low-band analog signal is converted into a digital signal.

The central processing unit 340 is called a mobile station modem (MSM). The central processing unit (CPU) 341 and the CDMA core unit 342 for the CDMA processing of the channel transmitted through the RF processing unit 310 And a vocoder 343 for coding the voice. The central processing unit 340 is connected to the memory unit 350, the key input unit 360, the display unit 370, the audio processing unit 380, and the battery 390.

The memory unit 350 may include a ROM in which a program storing control data required by the central processing unit 340 is embedded, and a nonvolatile memory (NVM: Non-Volatile Memory) for storing various telephone numbers and names; Flash memory or EEPROM) and RAM for temporarily storing and processing data generated during program control. In addition, indoor addresses and phone numbers of mobile communication terminals capable of peer-to-peer communication are matched and stored in the nonvolatile memory.

The key input unit 360 has a key matrix structure (not shown), includes a numeric key for dialing and various function keys, generates a key input signal corresponding to a key input by a user, and outputs the key input signal to the central processing unit 340. do. The display unit 370 uses, for example, an LCD (liquid crystal display device), and displays the state and operation process of the mobile communication terminal under the control of the central processing unit 340. The voice processor 380 codes a voice input through the microphone 381, transmits the voice to the vocoder 343, decodes the data transmitted through the vocoder 343, and transmits the voice to the speaker 382.

The CDMA core unit 342 processes the CDMA channel transmitted and received between the base station and the mobile communication terminal period. In general, a connection from a base station to a mobile communication terminal is called a forward link, and a channel used for a forward link includes a pilot channel, a sync channel, a paging channel, and a traffic channel. There are four). In addition, a connection from a mobile communication terminal to a base station is called a reverse link. There are two channels used for the reverse link, an access channel and a traffic channel. Each channel is divided into a Walsh code on the forward link and a long code on the reverse link.

There is one pilot channel of the forward link for each base station and is always launched continuously. The pilot channel uses W0, the first of the 64 Walsh codes. When the initial power is turned on, the mobile terminal synchronizes to this pilot channel using a predetermined Walsh code. The sync channel of the forward link is continuously launched from the base station like the pilot channel. Since this synchronization channel is fixed to the Walsh code W32 in advance, the mobile communication terminal can easily synchronize with this synchronization channel. The mobile communication terminal receives the long code synchronization information in the base station, the current system time, the data rate of the call channel, and the like which are the most important information for communication with the base station from the synchronization channel. The mobile communication terminal searches for the paging channel after setting the system time in the message transmitted from the synchronization channel for accurate communication with the base station.

In the present invention, since all mobile communication terminals belonging to the same cellular cell are synchronized with the pilot channel and the synchronization channel transmitted from the base station, peer-to-peer communication between a single picocell and multiple picocells in the cellular cell is possible.

The paging channel (calling channel) of the forward link is used up to seven within one frequency and serves to deliver the final confirmation of the call. The communication channel of the forward link and the reverse link is a channel through which data to be transmitted and received is actually transmitted. The access channel (access channel) of the reverse link is a channel used when a mobile terminal attempts to make a call with a base station. Information about origination, response, command and registration for call attempt is transmitted and received through this access channel.

In general, a paging channel calling a mobile communication terminal exists only on the forward link. For this reason, a call from a base station to a mobile terminal is possible, but other mobile communication terminals cannot be called from a mobile communication terminal.

However, in the present invention, an indoor paging channel and an access channel for indoor peer-to-peer communication are added to a mobile communication terminal, and a communication channel is established between the mobile terminals using the indoor paging channel and an access channel. Using a long code or a pilot reference code to communicate in a peer-to-peer manner. That is, the calling mobile terminal calls the called mobile terminal through the indoor access channel, and the called mobile terminal outputs a call response message to the calling mobile terminal through the indoor paging channel. This indoor access channel and paging channel are set to an indoor FA, an unused FA or the least used FA channel.

Hereinafter, an operation of a peer-to-peer communication system of a mobile communication terminal according to the present invention configured as described above will be described in detail with reference to the accompanying drawings.

4 illustrates a peer-to-peer communication method in a central processing unit of a calling mobile communication terminal, FIG. 5 illustrates a peer-to-peer communication method in a wireless repeater, and FIG. 6 illustrates a center of a called-party mobile communication terminal. A peer-to-peer communication method at the processing unit is shown. The peer-to-peer communication service of the mobile communication terminal period is managed by each central processing unit.

First, as shown in FIG. 4, when the power of the mobile communication terminal intended to receive peer-to-peer communication service in a single picocell / multiple picocells is initially turned on (S401), the mobile communication terminal is initialized (S402). Thereafter, the mobile communication terminal acquires synchronization from the pilot channel and the synchronization channel of the base station (S403), and receives indoor communication authentication from the wireless repeater that manages the picocell in which it is located (S404).

As shown in FIG. 5, when the authentication request is input from the mobile communication terminal (S501), the wireless repeater checks whether or not indoor communication is registered in the mobile communication terminal (S502). (S503) Wait (S505), if the terminal is not already registered without waiting for authentication (S504) (S505). At this time, the wireless repeater has information about not only the mobile communication terminal registered in the picocell that it has jurisdiction, but also the mobile communication terminal registered in the other picocell, and authenticates the mobile communication terminal registered as a peer-to-peer service, Even if the communication terminal moves between picocells, the peer-to-peer communication service can be used.

After the indoor peer-to-peer communication authority is authenticated, as shown in FIG. 4, when the user inputs the indoor telephone number of the called-party mobile communication terminal that wants voice / data communication using the key input unit and presses a call button (S405). The calling mobile terminal detects whether the call is in peer-to-peer mode (S406). If it is in peer-to-peer communication mode, the process proceeds to step S407. If the caller is not in peer-to-peer mode, the process proceeds to step S419 to communicate in the outdoor communication mode. do. At this time, the peer-to-peer mode determination in the calling mobile communication terminal may be determined by comparing the number of digits entered by the user with a predetermined threshold.

In the peer-to-peer communication mode, it is checked whether an indoor communication frequency is set (S407). If there is no set indoor communication frequency, it is checked whether there is an FA that is not currently used in the base station or is used less and is available in the peer-to-peer communication mode. (S409). In addition, the calling mobile communication terminal uses a preset indoor communication frequency, an empty FA (Frequency Assignment), or the least frequently used FA to call the peer-to-peer including the indoor address of the called mobile communication terminal through the indoor access channel. The message is sent (S408, S410). This peer-to-peer call message is delivered to all mobile communication terminals and radio repeaters of the picocell where the calling mobile communication terminal is located.

On the other hand, the called-party mobile communication terminal should be ready to receive the peer-to-peer calling message by performing steps S601 to S604 of FIG. 6 before the calling mobile communication terminal sends the peer-to-peer calling message. That is, by initially turning on the power of the mobile communication terminal to receive the peer-to-peer communication service (S601) and initializing the mobile communication terminal (S602), and obtaining synchronization from the pilot channel and the synchronization channel of the forward link from the base station ( S603), the indoor communication is authenticated by the wireless repeater that manages the picocell in which it is located (S604). At this time, since the calling mobile terminal and the called mobile terminal belong to the same mobile communication cell controlled by one base station, if the synchronization is obtained from the pilot channel and the synchronization channel, the synchronization of the two mobile communication terminals can be accurately matched. have.

After the called-party mobile communication terminal acquires synchronization and authenticates the peer-to-peer communication authority, in the call waiting state (S605), if a peer-to-peer call message is input (S606, S607), the calling party detects its own state and moves to the calling party. It sends back a busy signal to the communication terminal or a call answering message.

First, when the called mobile communication terminal is located in the same picocell as the calling mobile communication terminal, the call message of the access channel transmitted from the calling mobile communication terminal is directly input to the access channel of the called mobile communication terminal. The called party's mobile communication terminal checks whether it is idle (S608), if it is busy, returns a 'busy' signal to the corresponding calling party's mobile terminal through the paging channel (S613), and is idle. If it is, the peer-to-peer call answering response is transmitted to the corresponding calling party's mobile communication terminal through the paging channel (S609). At this time, the call incoming response message includes the transmission path information passed through the call message.

On the other hand, when the called-party mobile communication terminal is located in the same picocell as the calling-party mobile communication terminal, as shown in FIG. 5, the peer-to-peer call message is input to the wireless repeater under the calling mobile communication terminal (S506). If the mobile communication terminal is a terminal registered and authenticated in its picocell (S507), since the peer-to-peer communication is possible directly between the calling mobile communication terminal and the called mobile communication terminal, the process proceeds to the standby state of step S505.

Thereafter, when the calling mobile communication terminal receives the peer-to-peer call incoming response from the called mobile communication terminal through the indoor paging channel (S411), it records the transmission path (S412). The calling mobile terminal and the called mobile terminal allocate a dedicated call channel for a voice call or a dedicated or shared call channel for data communication along the corresponding transmission path (S413 and S610). Voice / data communication is performed using the corresponding call channel code and long code or pilot reference code, and the connection is released after communication (S414 and S611).

Next, when the called-party mobile communication terminal is located in a different picocell from the calling-party mobile communication terminal, as shown in FIG. 5, the wireless repeater registers the indoor address of the called-party mobile communication terminal in its own picocell. If it is not an authorized address (S507), the calling mobile communication terminal and the called mobile communication terminal are relayed by the wireless repeater to perform peer-to-peer communication. Therefore, the wireless repeater that has received the calling message transmits the calling message to the wireless repeater of the adjacent picocell, and the calling message is transmitted to the called-party mobile communication terminal through the wireless repeater that has jurisdiction over the picocell where the called-party mobile communication terminal is located. To be delivered (S508). In this case, the calling mobile communication terminal and the called mobile communication terminal may not be adjacent picocells, and the calling message is transmitted through a plurality of wireless repeaters.

The called-party mobile communication terminal receiving the calling message through at least one or more wireless repeaters performs S606 to S613 of FIG. 6, and when the caller is busy, transmits a 'busy' signal through the indoor paging channel. In response to the side mobile communication terminal (S613), and if it is in the idle state, it sends a peer-to-peer call response through the indoor paging channel to the corresponding calling mobile terminal (S609). The wireless repeater transmits a call reception response message of the called mobile communication terminal to the calling mobile communication terminal (S509). At this time, the incoming call response message includes the transmission path information passed by the message.

When the calling mobile communication terminal receives a peer-to-peer call answering response from the called mobile communication terminal (S411), records the transmission path (S412), and transmits the corresponding call between the calling mobile terminal and the called mobile communication terminal. A dedicated call channel for a voice call or a dedicated or shared channel for data communication is allocated along the path (S413 and S610). Voice / data communication is performed through the corresponding call code and long code or pilot reference code, and the connection is released after communication (S414 and S611). At this time, the wireless repeater located between the called mobile communication terminal and the calling mobile communication terminal relays the data transmitted and received during the two mobile communication terminal periods and transmits the data to the opposite mobile communication terminal (S510).

On the other hand, the calling mobile terminal transmits a peer-to-peer call message and waits for a call response for the peer-to-peer call message. If there is no call response for a predetermined time (S415), the call message is repeatedly transmitted. S417). Then, if the number of retransmissions of the calling message is greater than a predetermined threshold (S416), the calling mobile terminal searches for a mobile telephone network number matching the called party's indoor telephone number in the memory, and uses the mobile telephone network number outdoors. The called party's mobile communication terminal is called through the mobile communication network (S418).

On the other hand, when the user initially enters a phone number for the outdoor communication mode, or if the number of the number of the input number is larger than the threshold value, the user attempts to connect the telephone through the outdoor mobile communication network using the corresponding phone number.

While the invention has been described above based on the preferred embodiments thereof, these embodiments are intended to illustrate rather than limit the invention. It will be apparent to those skilled in the art that various changes, modifications, or adjustments to the above embodiments can be made without departing from the spirit of the invention. Therefore, the protection scope of the present invention will be limited only by the appended claims, and should be construed as including all such changes, modifications or adjustments.

As described above, according to the present invention, even if no separate equipment is provided, since the distance between the mobile communication terminals can communicate directly in a peer-to-peer manner without a mobile communication network within a certain range. Call cost is reduced and call quality is improved.

Claims (16)

An indoor paging channel and an indoor access channel are allocated and peer-to-peer with each other using the indoor paging channel and the indoor access channel synchronized to the forward link transmitted from the mobile communication base station. A plurality of mobile communication terminals capable of performing peer-to-peer communication; And A plurality of wireless repeaters formed in a mobile communication cell controlled by the mobile communication base station, each of which manages a plurality of pico cells in which peer-to-peer communication is performed between the mobile communication terminals; Each of the wireless repeaters stores the indoor telephone number and location information of the mobile communication terminal located in the pico cell which is in control thereof, and authenticates the indoor peer-to-peer communication authority of the mobile communication terminal based on the information. The peer-to-peer communication system of a mobile communication terminal, characterized in that for relaying data transmitted and received between the pico cells for peer-to-peer communication based on this. delete The method of claim 1, The wireless repeater stores indoor telephone number and location information of a mobile communication terminal located in a picocell controlled by another wireless repeater, and uses this information to relay peer-to-peer communication between the picocells. Peer-to-peer communication system of a terminal. The method of claim 1, And said mobile communication terminal adapts synchronization of said indoor paging channel and indoor access channel to a pilot channel and a synchronization channel of said forward link. A peer-to-peer communication method between mobile communication terminals to which a separate indoor paging channel and an indoor access channel are allocated in the communication system according to claim 1. To Synchronizing, by the calling mobile terminal, to the forward link from the base station; Sending, by the calling mobile communication terminal, a calling message for calling an indoor telephone number of the called mobile terminal through an indoor access channel using a frequency for indoor communication; Waiting, by the calling mobile communication terminal, for an incoming call response to the calling message from the called mobile communication terminal; And When the calling mobile communication terminal returns an incoming call response from the called mobile communication terminal through the indoor paging channel, a call channel code, a long code, or a pilot reference code is established by connecting a communication path with the called mobile communication terminal. Transmitting and receiving voice and / or data with the called-party mobile communication terminal using; Peer-to-peer communication method of a mobile communication terminal comprising a. 6. The peer-to-peer communication method of claim 5, wherein the called-side mobile communication terminal synchronizes with a forward link from the base station. 7. The peer-to-peer communication method of claim 6, wherein the calling mobile terminal and the called mobile terminal synchronize the synchronization channel with the pilot channel of the forward link. The method of claim 5, wherein the frequency for indoor communication is a preset indoor communication frequency, a free FA not used by the base station, or a FA with the least amount of usage. 6. The method of claim 5, wherein the originating mobile communication terminal retransmits the calling message if the incoming call response to the calling message is not returned from the called mobile communication terminal so that a threshold time elapses after transmitting the calling message. Peer-to-peer communication method of a mobile communication terminal comprising the step of. 10. The mobile communication method of claim 9, wherein when the number of retransmissions of the calling message exceeds a predetermined threshold, the calling mobile communication terminal attempts to connect to the called mobile communication terminal through an outdoor mobile communication network. Peer-to-peer communication method of a terminal. The peer-to-peer communication method of claim 5, wherein the call message sent by the calling mobile terminal is relayed by a wireless repeater and transmitted to the called mobile terminal. 12. The method of claim 11, wherein the call message is relayed by a plurality of wireless repeaters. 12. The method of claim 11, wherein the mobile communication terminal requests the wireless repeater to authenticate the peer-to-peer communication authority when the power is turned on, and the wireless repeater authenticates the communication authority when the mobile communication terminal is a registered terminal. Peer to peer communication method of the mobile communication terminal further comprising the step of storing the location information of the mobile communication terminal. The method of claim 13, wherein the wireless repeater registers and authenticates the mobile communication terminal and stores location information of the mobile communication terminal. The method of claim 5, wherein the data transmitted and received by the calling mobile terminal and the calling mobile terminal is transmitted by at least one wireless repeater located in a communication path connecting the calling mobile terminal and the called mobile terminal. Peer-to-peer communication method of a mobile communication terminal, characterized in that relayed. The peer-to-peer communication method of claim 5, wherein the calling-party mobile communication terminal determines whether the peer-to-peer communication mode is based on the number of digits of the input telephone number.