KR100546255B1 - One TO Multi Data Transmitting Method And System Using Circuit Network In Mobile Communication System - Google Patents

Abstract

The present invention relates to a one-to-many data transmission method and apparatus using a circuit network in a mobile communication system for transmitting data stored in a specific calling terminal to a plurality of called terminals using a radio link protocol.

In the mobile communication system according to the present invention, a one-to-many data transmission apparatus using a circuit network includes a calling terminal for transmitting at least one of multidata and voice data (conference call), and at least one incoming call receiving data transmitted from the calling terminal. And a mobile communication circuit for simultaneously controlling at least one called terminal so that data transmitted between the terminal and the calling terminal and the called terminal can be bidirectionally communicated by a wireless link protocol.

Description

One to Multi Data Transmitting Method And System Using Circuit Network In Mobile Communication System}             

1 is a view schematically showing a mobile communication system according to the present invention.

FIG. 2 is a flowchart sequentially illustrating an M2M connection used in the mobile communication network shown in FIG. 1.

FIG. 3 is a diagram illustrating a relationship of transmitting and receiving data in a one-to-many manner by using the M2M connection shown in FIG. 2.

4 is a diagram illustrating a relationship of transmitting and receiving data to and from another called terminal through a calling terminal in the called terminal shown in FIG. 3.

5 is a flowchart illustrating in detail a method for transmitting and receiving data from a calling terminal to a plurality of called terminals in a mobile communication system according to the present invention.

<Short description of the symbols in the drawings>

2,20 mobile terminal 4,18 base station

6,16: Base station 8,12: Switching station

10: visitor location register 22: home location register

24: Short Message Center 26: Voice Message Center

28: multi control unit

The present invention relates to a mobile communication system, and more particularly, to a method and apparatus for one-to-many data transmission using a circuit network in a mobile communication system for transmitting data stored in a specific calling terminal to a plurality of called terminals using a radio link protocol.

In general, a mobile communication system divides an entire service area into a plurality of wireless base station areas and configures cells, which are small service areas, and controls the wireless base stations with a switching system, thereby allowing subscribers to move between cells. Allow the call to continue. That is, the exchange system in which the exchanger is installed is wired to a wireless base station that provides a mobile communication service in a certain area, and a mobile communication terminal that can transmit and receive data wirelessly is wirelessly connected to the base station. Data communication is performed using a communication terminal. Therefore, transmission and reception of signals for call and control between the switching system, the wireless base station, and the mobile communication terminal are essential for providing a high quality mobile communication service.

As described above, the conventional mobile communication terminal is capable of transmitting and receiving multimedia data such as moving pictures, still pictures, and music files, instead of being a simple voice communication means. The majority of data communication currently in use is mainly client-to-server communication using a packet network. For this reason, subscribers and subscribers cannot directly transmit and receive data, so that one subscriber sends a desired data to another subscriber via a specific server of a mobile communication company or commands the server. This client-to-server communication can be reliably transmitted and received, but it takes a long time to transmit, and there is a problem in that data is also limited to the characteristics of the server.

Accordingly, an object of the present invention relates to a one-to-many data transmission apparatus and method using a circuit network in a mobile communication system for transmitting data stored in a specific calling terminal to a plurality of called terminals using a radio link protocol.

In order to achieve the above object, in the mobile communication system according to the present invention, a one-to-many data transmission apparatus using a circuit network includes a calling terminal for transmitting at least one of multi data and voice data (conference call), and data transmitted from the calling terminal. And at least one called terminal for receiving a mobile communication network for simultaneously controlling the at least one called terminal so that data transmitted between the calling terminal and the called terminal can be bidirectionally communicated by a wireless link protocol. It features.

The multidata may be at least one of video data, still image data, and music file data.

The data stored in any one of the called terminal is transmitted to the other called terminal through the calling terminal and the mobile communication circuit.

The at least one called terminal is characterized in that up to six.

The mobile communication line network may include a multi-control unit configured to control and set at least one of multi-data and voice data to the at least one called terminal.

The multi-control unit is located in the first switching center of the calling terminal.

The mobile communication line network includes a first base station communicating wirelessly with a calling terminal, a first base station relaying communication between the first base station and a first switching station, a second base station communicating wirelessly with a called terminal, and A home for informing the first and second switching stations, respectively, of the second base station connected to the first switching station, the second base station controlling the communication between the second base station and the second switching station, and the location of the calling terminal and the called terminal, respectively. Characterized in that it further comprises a location register.

In order to achieve the above object, the one-to-many data transmission method using a circuit network in the mobile communication system according to the present invention comprises the steps of transmitting at least one of the multi-data and voice data (conference call) stored in the calling terminal, And simultaneously receiving the data at the called terminal, and simultaneously controlling the at least one called terminal in a multi-control unit so that the data transmitted between the calling terminal and the called terminal can be bidirectionally communicated by a wireless link protocol. It is characterized by.

The receiving terminal receiving the data may further include transmitting a data reception confirmation signal to the calling terminal.

Any one of the called terminal receiving the multi data from the calling terminal further comprises the step of transmitting the other multi-data held by the other terminal to the other called terminal to the relay of the calling terminal.

The multidata may include at least one of moving image data, still image data, and music file data.

In order to achieve the above object, a one-to-many data transmission apparatus using a circuit network in the mobile communication system according to the present invention comprises the steps of setting the mode of the calling terminal to the M2E mode, and the calling terminal and at least one called terminal to the radio link protocol By the step of connecting sequentially, and when the connection to the last destination terminal is completed, the step of connecting to the M to M mode between the calling terminal and at least one called terminal, at least any of the multi-data and voice data (conference call) stored in the calling terminal And transmitting one to the at least one called terminal.

The receiving terminal receiving the data may further include transmitting a data reception confirmation signal to the calling terminal.

Any one of the called terminal receiving the multi data from the calling terminal further comprises the step of transmitting the other multi-data held by the other terminal to the other called terminal to the relay of the calling terminal.

The multidata may include at least one of moving image data, still image data, and music file data.

Other objects and advantages of the present invention in addition to the above object will be apparent from the detailed description of the embodiments with reference to the accompanying drawings.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to FIGS. 2 to 5.

Referring to FIG. 2, the mobile communication system according to the present invention includes a mobile communication circuit 30 positioned between the calling terminal 2, the called terminal 20, and the calling terminal 2 and the called terminal 20. Equipped.

The calling terminal 2 and the called terminal 20 basically perform voice communication, data communication, and the like, and various information is exchanged through paging and signaling channels. That is, the calling terminal 2 and the called terminal 20 may transmit and receive a voice signal through a voice communication channel in a voice call mode, and may transmit and receive text information through a data communication channel through a short message mode. In particular, at least one of the calling terminal 2 and the called terminal 20 may be mobile-to-mobile (Mobil) so that the multi-data between the calling terminal 2 and the called terminal 20 can be directly transmitted or received or a conference call can be made. to Mobil (hereinafter referred to as "M2M") is subscribed to the service. Here, the multi data includes at least one of moving picture data, still picture data, and music file data transmitted from a specific server by the calling terminal.

The mobile communication line network 30 is driven by an M2M service so that data can be directly communicated between the calling terminal 2 and the called terminal 20. The mobile communication line network 30 includes a source base station 4, a source base station 6, a mobile switching center (hereinafter referred to as "MSC") 8, and a short message center; 24), a voice message center (hereinafter referred to as "VMS") 26, a terminating MSC 12, a terminating base station 16 and a terminating base station 18; do.

The originating base station 4 and the terminating base station 18 will have a cell of the corresponding area, and will communicate wirelessly with the mobile terminal located within the area of the cell.

The originating base station 6 and the terminating base station 16 relay the communication between the base stations 4,18 and the MSCs 8,12.

The originating MSC (8) and the terminating MSC (12) are called Visitor Location Register (hereinafter referred to as "VLR") (10,14) or Home Location Register (hereinafter referred to as "HLR") (22). Transmits a message received from the call originating / calling station control station 6, 16 to the VLR 10, 14 or the HLR 22. Will be sent. In addition, the originating MSC 8 and the terminating MSC 12 are connected to a public switched telephone network (PSTN) (not shown) to relay communications between the CDMA subscriber and the wired subscriber. In particular, the multi control unit 28 located in the originating MSC 8 selects a plurality of called terminals 20 to control the call with the originating terminal 2. For example, the multi controller 28 selects two to six incoming terminals 20.

On the other hand, the M2M service for transmitting and receiving multi-data between the calling terminal 2 and the called terminal 20 is a call (Call) for requesting the M2M service from the calling base station 6 embedded in the calling MSC (8) Instead of allocating a VOCODER resource, which is a voice signal processing apparatus, a radio link protocol (hereinafter referred to as "RLP") resource capable of data service is allocated.

The RLP resource providing M2M service has a much shorter connection and data transmission time than existing data services such as circuit data service, packet data service, and SMS, and uses a lower layer protocol than the TCP / IP protocol. Accordingly, the RLP resource providing the M2M service can transmit general data within an average of about 5 seconds, and can perform bidirectional simultaneous call request and data transmission in real time.

The sequence of the M-to-M service is described in the case where the call connection and data transmission from the calling terminal 2, as shown in Figure 2, the signal connecting the air channel (Air Link) by the calling terminal 2 is a mobile communication Applied to the circuit network 30, the corresponding wireless channel is set (S21). Thereafter, the mobile communication line network 30 is configured with at least one destination terminal 20 and a corresponding wireless channel (Air Link) to which the calling terminal 2 intends to transmit data (S22). When the radio channel setting between the calling terminal 2 and at least one called terminal 20 is completed, an RLP resource is allocated and set between the calling terminal 2 and the mobile communication network 30 (S23). An RLP resource is allocated and set up between the circuit network 30 and the at least one called terminal 20 (S24). Accordingly, a synchronization for data transmission is established between the calling terminal 2 and at least one called terminal 20 (S25).

As such, when synchronization is performed between the calling terminal 2 and at least one called terminal 20 through the RLP resources allocated by the mobile communication network 30, the calling terminal 2 and at least one called terminal. 20 transmits and receives data (S26). When the data transmission is completed, the setting of the air channel (Air Link) set between the calling terminal 20 and the mobile communication line network 30 is released (S27). In addition, the wireless channel (Air Link) set between the mobile communication line 30 and at least one called terminal 20 is also released and the M2M service is terminated (S28).

FIG. 3 is a diagram illustrating a calling terminal and a plurality of called terminals using the M2M service shown in FIG. 2.

Referring to FIG. 3, the originating terminal 2 and the first to nth terminating terminals 201 to 20n transmit and receive data to and from each other through the MCU 28.

In detail, the calling terminal 2 attempts to connect wirelessly to the M2M service system (not shown) by the calling party. At this time, the mobile communication line network determines whether the M2 service subscription of the calling terminal (2). When the calling terminal 2 is subscribed to the M2M service, the calling terminal 2 is wirelessly connected to the M2M service system. The calling terminal 2 wirelessly connected to the MTM service system is sequentially connected to the first to nth called terminals 201 to 20n selected by the caller through the MCU 28 located in the calling MSC 8. . Here, the first to nth called terminals 201 to 20n selected by the caller are sequentially connected to the calling terminal 2 by means of a specific button (for example, a call key) of the calling terminal 2.

Here, the calling terminal 2 stores multi data such as a moving picture, a still picture and a music file received from a specific server. The MCU 28 is called from an Active Sever Page (ASP) of the originating MSC 8 to control the first to nth called terminals 201 to 20n. The selected first to nth called terminals 201 to 20n sequentially receive the multidata from the calling terminal 2. Each called terminal 201 to 20n receiving the multi data transmits a reception whether or not to the calling terminal 2.

On the other hand, the first receiving terminal 201 receives the multi-data from the calling terminal 2 to transmit the data it has to the calling terminal 2 and the second to n-th destination terminal (202 to 20n) Figure 4 As shown in FIG. 2, the transmitting terminal 2 is transmitted to the second to nth receiving terminals 202 to 20n as a relay. That is, when the first called terminal 201 transmits the multi data to the calling terminal 2, the calling terminal 2 receiving the multi data receives the second to nth called terminals 202 through the MCU 28. To 20n) to sequentially transmit multidata.

5 is a flowchart illustrating a multi-data transmission method using an M2M service according to the present invention.

Referring to FIG. 5, the calling terminal 2 is wirelessly connected to the M2M service system to transmit the multi data to the first to nth called terminals 201 to 20n, and is set to the M2M service mode. Thereafter, the calling terminal 2 attempts to connect to the first called terminal 201 through the MCU 28 as an RLP. (S52) When a connection is made with the calling terminal 2 and the first called terminal 201. The calling terminal 2 attempts to connect with the second called terminal 202 sequentially through the MCU 28 (S53, S54). At this time, the first called terminal 201 is connected to the calling terminal 2 in this case. ) Will maintain the standby state.

On the other hand, when the connection between the calling terminal 2 and the first called terminal 201 is not made, the calling terminal 2 retries the connection with the first called terminal 201. (S59) Retry result, If the connection is not established, after notifying the calling terminal 2 of the connection failure with the first called terminal 201, the calling terminal 2 attempts to connect with the second called terminal 202. (S510, S511, S54)

The calling terminal 2 attempts to connect to the second called terminal 201 through the MCU 28 as an RLP. When the calling terminal 2 is connected to the calling terminal 2 and the second called terminal 201, the calling terminal 2 is connected. Attempts to connect to the third terminating terminal 202 sequentially through the MCU 28 (S55, S56). At this time, the second terminating terminal 202, which is connected to the calling terminal 2, maintains a standby state. Done.

On the other hand, when the connection between the calling terminal 2 and the second called terminal 202 is not made, the calling terminal 2 retries the connection with the second called terminal 202. (S512) Retry result, If the connection is not established, after notifying the calling terminal 2 of the connection failure with the second called terminal 202, the calling terminal 2 attempts to connect with the third called terminal 203. (S513, S514, S56)

As such, when the calling terminal 2 and the first to n-th receiving terminals 201 to 20n are sequentially connected to the RLP, the calling terminal 2 is the first to n-th receiving terminal which maintained the standby mode. 201 to 20n are connected to the M2M service. (S57, S58) The M2 service transmits the multi-data to the first to nth called terminals 201 to 20n. Thereafter, the first to n-th called terminals 201 to 20n transmit the acknowledgment of the multi-data to the calling terminal 2.

As described above, in the mobile communication system according to the present invention, a one-to-many data transmission apparatus and method using a circuit network may be connected in communication with at least one or more called terminals by using a wireless link protocol to perform bi-directional communication as one-to-many. Can be. Accordingly, it is possible to send and receive data in both directions between the calling terminal and the called terminal or to make a conference call with a one-to-many voice call. In addition, the one-to-many data transmission apparatus and method in the mobile communication system according to the present invention can transmit data within an average of about 5 seconds at the same time as the connection rate is higher than the conventional one by using a wireless link protocol that provides an M2M service, and real time ), Bi-directional simultaneous call request and data transmission are possible.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the technical spirit of the present invention. Therefore, the technical scope of the present invention should not be limited to the contents described in the detailed description of the specification but should be defined by the claims.

Claims (15)

A calling terminal for transmitting at least one of multi data and voice data (conference call); At least one called terminal for receiving data transmitted from the calling terminal, And a mobile communication circuit for simultaneously controlling the at least one called terminal so that data transmitted between the calling terminal and the called terminal can be bidirectionally communicated by a wireless link protocol. One-to-many data transmission apparatus using a circuit network in the mobile communication system, characterized in that the data stored in any one of the receiving terminal is transmitted to the other terminal through the calling terminal and the mobile communication line network. The method of claim 1, The multi-data is one-to-many data transmission apparatus using a circuit network in the mobile communication system, characterized in that at least one of the video data, still image data and music file data. delete The method of claim 1, The at least one destination terminal is a maximum of six, one-to-many data transmission apparatus using a line network in a mobile communication system. The method of claim 1, The mobile communication network is And a multi-controller configured to control and set at least one of the multidata and voice data to the at least one called terminal. The method of claim 5, And said multi-control unit is located in a first switching center of said originating terminal. The method of claim 6, The mobile communication network is A first base station communicating wirelessly with the calling terminal, A first base station for relaying communications between the first base station and the first switching station; A second base station communicating wirelessly with the called terminal; A second exchange station connected to the first exchange station, A second base station for relaying communication between the second base station and a second switching station; And a home location register for notifying the first and second switching stations of the location of the calling terminal and the called terminal, respectively. Transmitting at least one of multi-data and voice data (conference call) stored in the calling terminal; Simultaneously receiving the data at at least one called terminal; One-to-many data using a circuit network in a mobile communication system characterized in that the multi-control unit simultaneously controls the at least one called terminal to communicate data transmitted between the calling terminal and the called terminal in both directions by a wireless link protocol. Transmission method. The method of claim 8, The receiving terminal receiving the data further includes the step of transmitting a data reception confirmation signal to the calling terminal. The method of claim 8, Any one of the called terminal receiving the multi-data from the calling terminal further comprises the step of transmitting the other multi-data held by the call to the other called terminal to the other terminal receiving relay; One-to-many data transmission method using circuit network. The method of claim 8, The multi-data is a one-to-many data transmission method using a circuit network in the mobile communication system, characterized in that at least one of the video data, still image data and music file data. Setting the mode of the calling terminal to MTU mode; Sequentially connecting the calling terminal and at least one called terminal by a radio link protocol; Connecting to the M2M mode between the calling terminal and at least one called terminal when the connection to the last called terminal is completed; And transmitting at least one of the multi-data and the voice data (conference call) stored in the calling terminal to the at least one called terminal. The method of claim 12, The receiving terminal receiving the data further includes the step of transmitting a data reception confirmation signal to the calling terminal. The method of claim 12, Any one of the called terminal receiving the multi-data from the calling terminal further comprises the step of transmitting the other multi-data held by the call to the other called terminal to the other terminal receiving relay; One-to-many data transmission method using circuit network. The method of claim 12, The multi-data is a one-to-many data transmission method using a circuit network in the mobile communication system, characterized in that at least one of the video data, still image data and music file data.

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