KR100281591B1 - Method and system of data communication between terminals in mobile communication / personal communication system - Google Patents

Abstract

The present invention relates to a method for enabling data communication between terminals without using data communication equipment of a mobile telephone network or a personal portable communication network for calls generated between terminals within the same operator. Using the method of the present invention, unlike the conventional method, since it is possible to implement only by changing the software of the terminal, the cost of implementing data communication between terminals is low and the implementation time is shortened.

In addition, there is an advantage that the voice call and data communication can be performed simultaneously, which was not possible in the conventional method.

Description

Method and system for data communication between terminals in mobile communication / personal communication system

The present invention relates to a data communication method between terminals of a mobile phone network / personal portable communication network, and in particular, in implementing data communication between terminals within the same operator, a data communication function is performed by only changing software in the terminal without changing the mobile phone network already installed. It is about how to implement.

1 is a diagram showing the configuration of a system for voice call processing in a conventional mobile phone / personal mobile communication system. When the terminal 101 requests the general voice call setup from the base station 102, the base station 102 sends a message from the terminal 101 to the signal processing unit 105 in the base station controller 104 via the signal path 103. To pass. The signal processing unit 105 requests the exchange 110 to translate the telephone number requested by the terminal 101 through the signal path 108. At the same time, it requests the base station 102 to allocate a channel through the signal path 103. When the voice call requested by the terminal 101 is a call between terminals in the same operator, the exchange 110 transmits a signal path (eg, a signal path) to the base station controller 113 including the base station 118 of the counterpart terminal 119 through the number translation result. 111) indicates that there is an incoming call. The target base station controller 113 transmits the incoming call message to the base station 118 where the target terminal 119 exists through the signal path 117. When the target terminal 119 responds to the incoming call message, the base station controller 113 requests the base station 118 to allocate a channel through the signal path 117. When a call channel between two terminals 101 and 119 and each base station 102 and 118 is allocated, the base station controller 104 secures a path 120 for a voice call between the two terminals. After all of the above procedures are normally completed, the voice call from the terminal 101 is transferred to the base station 102 and the signal path 103, the base station controller 104, the signal path 120, the base station controller 113, and the signal path. 117, and is transmitted to the target terminal 119 via the base station 118. For example, such as a call from a SK Telecom subscriber to a new century mobile communication subscriber, if the call from the terminal 101 is transferred to a terminal of another operator rather than a terminal within the same operator, the terminal 101 is sent from the terminal 101. Voice data is decoded through the voice encoder 107 in the base station controller 104, then transferred to the exchange 110 via the voice signal path 109, and then to the exchange of a third party.

2 is a diagram showing the configuration of a system for data communication call processing in a conventional mobile phone / personal mobile communication system.

The data communication request from the terminal 201 is transmitted to the signal processing unit 205 of the base station controller 204 via the base station 202 and the signal path 203. The signal processing unit 205 of the base station controller 204 checks the availability of the communication channel of the base station 202 and the availability of the data communication processing unit 209 and then permits the data communication call of the terminal. When the data communication call of the terminal 201 is established, the data communication message from the terminal is transmitted to the data communication processing unit 209 through the base station 202, the signal path 203, the base station controller 204, and the signal path 208. . The data communication processor 209 connects to another data communication network through the switch 212 or transfers data communication information to other terminals in the same network.

Comparing the connection process between the above-mentioned voice call and data communication call, it can be seen that the path for the voice call and the signal path for the data communication are different. Therefore, data communication and voice call cannot be performed at the same time. In addition, when the network operator does not install the equipment for data communication, data communication of the terminal is impossible. In addition, when the capacity of the data communication equipment is not sufficient has a disadvantage that a smooth connection is impossible.

The present invention provides a method for enabling data communication for a call between terminals within the same operator regardless of the telephone network of the operator. According to the method of the present invention, unlike the conventional data communication method, since it is possible to implement only by changing the software of the terminal, the implementation cost is low, and it is possible to implement within a short period of time. In addition, it has the advantage of being able to simultaneously perform a voice call and a data call, which was not possible in the conventional method, and can perform data communication independently from a communication network operator.

1 is a diagram showing the configuration of a system for voice call in a prior art mobile phone / personal communication system.

2 is a diagram showing the configuration of a system for data communication in a conventional mobile telephone / personal communication system.

3 is a diagram illustrating a call procedure for providing data communication between terminals of the same operator according to a preferred embodiment of the present invention.

4 is a functional block diagram of a terminal for performing the function.

<Description of the code | symbol about the principal part of drawing>

101, 119,201, 301, 302: terminal

102, 118, 202: base station

103, 117, 203: signal path between base station and base station controller

104, 113, 204: base station controller

105, 114, 205: signal processing unit of base station controller

106, 115, 206: Signal path inside the base station controller

107, 116, 207: speech encoder

108, 111: signal path between the base station controller and the switching period

109, 112, 211: voice signal path between the base station controller and the switching period

110, 212: exchanger

120: signal path between base station controllers

209: data communication processing unit

208: a signal path between the data communication processor and the base station controller

210: signal path between the data communication processor and the exchange period

303: call setup message between terminals

304: data communication start request message

305, 306: data communication response message

307, 309: Reduction of coding rate of speech coder

308 and 310: multiplexing / demultiplexing of voice information and data information

311: simultaneous data communication and voice communication

312 call termination message

401: terminal control unit

402: control signal path

403: data communication processing unit

404: speech encoder

405: short message processing unit

406: data information signal path

407: voice information signal path

408: short message signal path

409: Frame Multiplexer / Demultiplexer / Selector Part

410: frame signal path

411: channel encoder

412: signal path

413: modulation / demodulation processing unit

414: signal path

415: RF (radio frequency) processing unit

417, 418, 419, 420, 421, 422, 423: control signal path

In the mobile communication / personal communication service according to the present invention, a method for data communication between terminals is performed by using a call between terminals, in which voice information transmitted between terminals is transmitted to a target terminal directly without being decoded by a voice encoder of a base station controller. Performing a voice call, and reducing the voice coding rate of the terminal to multiplex the data information using an extra data space.

According to another aspect of the present invention, a short message service is used to enable communication between two terminals before reducing a coding rate of a speech encoder in performing a setting operation of a terminal for performing a function conversion of the terminal. All.

3 is a diagram illustrating a call procedure for providing data communication between terminals of the same operator according to a preferred embodiment of the present invention. In order for the terminal to execute the data communication mode, the terminal A 301 requests call establishment 303 between terminals. Terminal B 302 receives the incoming call message and, in response, establishes a general call between the two terminals. After the general call is established, terminal A 301 sends a data communication start request 304 to terminal B 302 using a short service. Upon receiving the data communication start request 304, the terminal B 302 transmits a response message 305 to the data communication start request 304 of the terminal A 301 using the short message service. Terminal A 301 sends a response message 306 again in response to terminal B 302. After the above procedure is successfully performed, the terminal A 301 and the terminal B 302 reduce the coding rates of the voice encoder in the terminal for data communication (307, 309). In addition, one frame includes information data for data communication in a free space among the frames for transmission, and the receiving side receives one frame and separates the data region and the voice part (308,309) and inputs it to the voice encoder. Voice demodulation (307, 309). In the case of a call between terminals within the same operator, as shown in FIG. 1, since there is a voice signal path 120 between the base station controllers, the call is directly transmitted to the terminal of the other party without passing through the voice encoder of the base station controller. Therefore, a frame in which voice and data are simultaneously transmitted is transmitted to the counterpart terminal without being damaged.

4 is a functional block diagram of a terminal for performing the above function. After call setup is performed, the terminal control unit 401 transmits the data communication start request 304 through the short message processing unit 405, or performs a response 305, 306 in response to the transmission request. After the data communication response is successfully performed, the terminal controller reduces the coding rate of the speech encoder 404 (307 and 309 of FIG. 3). The data communication processing unit 403 prepares to transmit the data to be transmitted together with the voice data. The output of the speech coder and the result of the data communication processor are multiplexed in the frame multiplexer 409 and passed through the channel encoder 411 and the channel modulation / demodulation processor 413 to the RF processor 415. When a frame including data communication information and voice information is received, the frame is passed through the RF processor 415, the data demodulator 413, and the channel encoder 411, and then received by the frame demultiplexer 409. The demultiplexer 409 separates the voice information unit and the data information unit from among the received frames and transmits them to the voice encoder 404 and the data communication processor 405.

The present invention relates to a method for enabling data communication for a call between terminals within the same operator regardless of the telephone network of the operator. According to the method of the present invention, unlike the conventional data communication method, since it can be implemented only by changing the software of the terminal, the implementation cost is low, and it has the advantage that it can be implemented within a short period. In addition, it has the advantage of being able to simultaneously perform a voice call and a data call, which was not possible in the conventional method.

Claims (3)

In the data communication method between terminals in a mobile communication / personal mobile communication service, Voice information transmitted between terminals is not decoded by the voice coder of the base station controller, but performs a voice call using a call between terminals directly transmitted to the target terminal. A method of data communication in which data information is multiplexed and transmitted using an extra data space by reducing a speech coding rate of a terminal. The data communication method of claim 1, wherein the setting operation of the terminal for performing the function conversion of the terminal is performed in the method of claim 1 so that communication between the two terminals is possible before the coding rate of the speech coder is reduced. . a) the terminal controller 401, b) a short message processing unit 405, c) speech encoder 404, d) a data communication processing unit 403, e) frame multiplexer / demultiplexer 409, f) a channel encoder 411, g) a channel modulation / demodulation processor 413, h) RF processor 415 Mobile communication / personal data communication system comprising a.