KR100498349B1 - A method and a device of simultaneous broadcasting with message for mobile communication system - Google Patents

Abstract

The present invention is to quickly process the text message broadcast transmission using the voice traffic of the mobile communication system, the voice wireless communication through the voice traffic while moving, the message data wireless communication by the broadcast transmission by selecting the control traffic or voice traffic A mobile terminal for playing; A base station configured to wirelessly transmit and receive voice message data signals and to form a predetermined service area; A mobile switching station that establishes a communication path by switching and controls and monitors broadcast transmission of message data; It is characterized by the configuration including a message for transmitting the message data in the established communication path by inputting and storing the message for broadcast transmission and the receiver information in the established communication path and applying a control signal to the mobile switching station through analysis. Preparatory process of judging; In the case of broadcasting the message, an input process of inputting a plurality of message and recipient information in frame units; An occupancy process for requesting and occupying voice traffic allocation to transmit a multi-frame signal for broadcast transmission to a mobile switching center; Transmitting and confirming message and receiver information of a plurality of frames through occupied voice traffic to a message unit connected to the mobile switching center; A broadcast process of analyzing the receiver information by the message unit and broadcasting the corresponding message data by sequentially applying a control signal for call connection to the mobile switching center; And a release process of requesting and terminating the release of voice traffic from the broadcast transmission completion confirmation.

Description

A METHOD AND A DEVICE OF SIMULTANEOUS BROADCASTING WITH MESSAGE FOR MOBILE COMMUNICATION SYSTEM}

The present invention relates to a broadcast transmission for simultaneously transmitting a text message to a plurality of selected counterparts in a mobile communication system, and in particular, a message broadcast transmission mobile communication for rapidly broadcasting a message of a plurality of frames using a voice traffic and a message unit. System and method.

A mobile communication system is a device that communicates wirelessly with the other party while moving anywhere anytime, uses system equipment that is applied with highly complex technology, and relatively expensive communication costs, and thus requires a record for simple communication contents or accurate delivery. The communication content to be used is SHORT MESSAGE within 80 bytes or LONG MESSAGE MESSAGE SERVICE within 400 bytes.

The text message service is developed and provided by the mobile communication service provider as an additional service, and the communication system is basically for providing a voice level communication service, and other services are called additional services.

The text message supplementary service uses control traffic or data traffic for transmitting and receiving operation information and control information of a mobile communication system, and the traffic is also called a channel or a call.

As described above, the control or data traffic is used for text message transmission as a common line method. The maximum data size transmitted at one time is limited to 400 bytes (BYTE), and indicates overhead or characteristics of the data. ) Is added separately.

The text message service is classified into various types according to the type and size of data to be transmitted. For example, a short message service (SMS) for transmitting text data within 80 bytes (BYTE), 400 bytes ( It is a long message service (LMS: LONG MESSAGE SERVICE) that transmits only text data within BYTE), multimedia message service (MMS: MULTIMEDIA MESSAGE SERVICE) that transmits multimedia data, and SMS (EXTENDED). Or extended short message service (ESMS: EXTENDED SMS) for attaching a melody or the like, and a color short message service (COLOR SMS) for specifying a color of a text and a background to be transmitted.

In the case of transmitting a text message using the additional service as described above, if there is only one counterpart to receive the message, the corresponding message is inputted and transmitted by inputting a corresponding unique number that designates a message to be sent and the other party to receive the same text message. In case of transmitting a message of multiple or multiple frames, the process of opening and occupying the corresponding channel and terminating the occupancy by closing the channel is repeated every time the message data of each frame unit is transmitted. This is called overhead (OVERHEAD).

When sending a text message frame having the same content to multiple counterpart recipients as described above, broadcast a convenient message transmission service function to compose and enter a text message only once and input the corresponding phone number of the multiple recipients to simultaneously receive the plurality. It is called transmission.

In addition, when a message of multiple frames is transmitted to the same receiving party, a message of each frame is input and a unique telephone number of the receiving party is input only once, so that a specific recipient of a message of multiple frames is received by a specific recipient. This broadcast is included.

However, in the case of the above-mentioned text message broadcasting service, since the time of transmitting one text message is multiplied by the number of multiple parties to be received, that is, many times are required until the transmission is completed, The larger the number of designated counterparties or the more messages in the frame unit to be transmitted, the more time is required to complete the transmission. Therefore, it is necessary to solve a problem of inconvenience in that the other tasks must be stopped and waited until the transmission is completed.

Hereinafter, the conventional message will be described with reference to the accompanying drawings for short message broadcast transmission.

1 is a functional configuration of a text message transmission mobile communication system according to the prior art, FIG. 2 is a flow chart of a text message transmission control signal of a mobile communication system according to the prior art, and FIG. Is a flowchart of a text message transmission method of a mobile communication system.

Referring to FIG. 1, a mobile communication system for transmitting a text message in a frame unit according to the related art is a mobile terminal (UE) that performs data level communication of a text message while simultaneously communicating with the other party at any time and anywhere while moving. USER EQUIPMENT or MT: MOBILE TERMINAL (hereinafter UE) 10; A base station 20 wirelessly connected to the mobile terminal 10 to transmit and receive a voice communication signal and a data communication signal and to form a mobile communication service area; A mobile switching center (30) connected to the base station (20) and connected by a switching process to set a communication path and to monitor and control the entire mobile communication system; A public communication network 40 is connected to the mobile switching center 30 to connect to another communication network such as a data network, an internet, and the like.

Hereinafter, the text message transmission mobile communication system according to the prior art as described above in detail, when the portable terminal 10 wants to transmit a frame-based text message to the other party, the frame-based text message to be transmitted And input the receiver information, and input receiver information such as a phone number or an Internet address for designating a counterpart to receive the text message, and wirelessly transmit the information to the base station 20 through the occupied control traffic.

The base station 20 transmits the text message and the receiver information of the frame unit wirelessly received through the control traffic from the mobile terminal 10 to the mobile switching center 30, and when the transmission is completed to the mobile terminal 10 DELIVERY OK is notified, and the mobile terminal 10 confirming the completion of the transmission releases the occupying control traffic.

The mobile switching center 30 analyzes the receiver information applied from the base station 20 to establish a communication path through a switching process for call connection, and the other party to receive the communication path set as described above is moved. In the case of the mobile terminal 10 registered and subscribed to the switching center 30, the mobile switching center connects to the receiver mobile terminal 10 through the base station 20, and wirelessly transmits the text message of the frame unit to the mobile terminal (10). 10) to transmit.

In addition, when the mobile switching station is subscribed to another mobile communication system, a data network, or the Internet, etc. in the communication path set as described above, the mobile switching center connects to the communication network via the public communication network 40 and receives the text of the frame unit. Send a message.

When the mobile terminal 10 that transmits the message data in frame units through the control traffic as described above transmits the text message data having the same content to another recipient or the additional text message data having the different content to the same recipient, Enter text message data and receiver information, and repeat the occupation by control traffic occupancy request, transmission of text message and receiver information, reception of transmission completion confirmation signal, and release of control traffic.

In order to transmit data as described above, signals such as traffic occupancy request and seizure, transmission completion confirmation, and traffic release are called overhead. Overhead of the same function is repeated every time data is transmitted.

Since the control traffic uses one-way or one channel, the control or confirmation (DELIVERY OK) signal that the text message transmitted from the mobile terminal 10 to the base station 20 has been transmitted to the mobile switching center 30 is also controlled. The traffic is transmitted from the base station 20 to the mobile terminal 10.

The control traffic is easy to allocate and occupy because the connection is fast, and is safe for data transmission. Therefore, the control traffic is suitable for transmitting one (1) frame text message, and in the mobile terminal 10 that transmits the text message, it is a receiving side. After receiving and confirming a DELIVERY OK signal returned from the base station 20, a text message of a next order must be transmitted, and thus, a large amount of time is required to transmit a text message of a plurality of frames.

2, a control signal flow diagram of a mobile communication system for transmitting a text message according to the prior art will be described.

The mobile terminal 10 connects with the base station 20 to request the occupation of control traffic (ST10), and the base station 20 receiving the request grants the occupation of the control traffic to the corresponding mobile terminal 10 or Allowed (ST20).

As described above, the mobile terminal 10 granted the control traffic from the base station 20 transmits the text message and the receiver information to the base station 20 to transmit (ST30), and the base station 20 again transfers the mobile switching center 30. Since it is transmitted to ST40, it is transmitted to the counterpart to be received by the corresponding switching.

The base station 20 completes the transmission of the text message and the receiver information to the mobile switching center 30 and transmits a transmission completion confirmation signal to the mobile terminal 10 (ST50), and receives the transmission completion confirmation signal. The mobile terminal 10 makes a request to release the occupancy of the occupied control traffic to the base station 20, at the same time releases the occupancy and ends.

When the mobile terminal 10 intends to transmit the same message to another receiver and transmits a message having different contents to the same receiver, the above-described signal flow must be repeated from the beginning to the end.

Below. Referring to FIG. 3, a text message transmission method of a conventional mobile communication system will be described.

The mobile terminal 10 is a first step (S10) for determining whether to send a text message to the receiving party; If it is determined in step S10 that the text message is to be transmitted, a second step (S20) of inputting recipient information such as a text message to be sent and the other party's telephone number; The mobile terminal 10 requests the base station 20 to occupy control traffic for wireless transmission of a text message, the base station 20 receives the request, and the mobile terminal 10 controls the control traffic. A third step (S30) to occupy; A fourth step S40 of wirelessly transmitting the corresponding text message and the receiver information to the mobile switching center 30 through the base station 20 by the mobile terminal 10 occupying the control traffic; In this step, the base station 20 completes the transmission of the text message and the receiver information to the mobile switching center 30, transmits a transmission completion confirmation signal to the mobile terminal 10, and receives the transmission completion confirmation signal A fifth step (S50) of allowing the terminal to release the occupation while requesting the base station 20 to release the control traffic; The mobile terminal 10 according to the step determines whether there is another or additional text message transmitted, and if there is a text message to be additionally fed back to the second step S20 (FEEDBACK), and there is no next text message to be further transmitted. The case consists of a sixth step S60 that proceeds to termination.

Hereinafter, a method of transmitting a text message of a mobile communication system according to the prior art having the above configuration will be described in detail.

When there is a text message to be transmitted (S10), the mobile terminal 10 creates a text message in frame units of 80 bytes or 400 bytes or less and inputs a receiver such as a phone number or address of the other party to receive. The information is input and stored in the corresponding memory (S20).

As described above, the mobile terminal 10 inputting the recipient information such as the text message and the other party's telephone number requests and occupies the control traffic to the base station 20 (S30), and the text message through the control traffic occupied as described above. And receiver information including the other party's telephone number is transmitted to the base station 20 (S40).

That is, as described above, the text message and the telephone number information wirelessly transmitted to the base station 20 by the mobile terminal 10 are applied to the mobile switching center 30 for analysis, and the communication path is switched by the analysis. The text message is transmitted to the designated counterpart through the communication path set as described above (S40).

The base station 20 is received from the mobile terminal 10 through the control traffic, and completes the transmission of the text message including the recipient information to the mobile switching center 30, and transmits the DELIVERY OK signal to the mobile terminal ( 10), the mobile terminal 10 confirming the DELIVERY OK signal requests the base station 20 to release the control traffic and releases the occupation (S50).

As described above, the mobile terminal 10 having completed the transmission of the text message determines whether there are additional text messages to be transmitted in the following order, and if there are additional messages to be transmitted in the next order, the mobile terminal 10 returns to the second step (S20). The case proceeds to the end (S60).

In the conventional technology, the mobile terminal 10 transmits a message corresponding to one frame, and when transmitting a message of a plurality of frames, the above procedure must be repeated manually by hand, which takes a lot of time.

If there is a message of multiple frames to be transmitted as described above, there is a broadcast transmission to solve some of the inconveniences of the prior art, but in the case of the broadcast transmission according to the prior art, by manual input at a time, and by the corresponding program It is to be sequentially processed automatically, there is a problem that can not reduce the transmission time any more because it uses a one-way control traffic.

That is, in the case of the broadcast transmission, since an overhead message of occupying, transmitting completion confirmation and releasing control traffic is repeated every time a text message of each frame unit is transmitted to the counterpart, if there are many broadcast transmission targets, There is a problem in that multiple times are required as the number of transmission targets.

In one embodiment of the prior art, if one text message is sent to the other party's receiver, if it takes about 6 seconds, if the broadcast is sent to 20 other parties, it takes about 2 minutes. Therefore, the same message is sent to multiple parties. There is a problem that the proper method of transmission (KILLER APPLICATION) is not possible, and furthermore, there is a problem that other operations cannot be performed by using the mobile terminal 10 until the broadcast transmission is completed.

That is, the conventional technology uses unidirectional control traffic, and after the mobile terminal 10 receives the DELIVERY OK signal from the base station 20, it is possible to transmit a text message in the following order, thus, multiple frames. In order to transmit a text message, the procedure of repeating the transmission of one text message to one designated party at a time is repeated, and the overhead of opening and occupying the traffic each time and closing and releasing it after acknowledging the transmission (OVERHEAD) ) And the message data transmission is repeated, there is a problem that takes a lot of time due to the overhead.

According to the present invention, in the case of broadcast transmission which simultaneously transmits message data to a plurality of counterparts, the broadcast message data for multiple frames without overhead is transmitted by allocating and occupying bidirectional voice traffic, and the message portion is overwritten by analyzing the message section. It is an object of the present invention to provide a message broadcast transmission mobile communication system and method for sequential broadcast transmission without a head to shorten the message data transmission time of a mobile terminal.

In order to achieve the above object, the present invention is a mobile terminal for voice wireless communication through the voice traffic while moving, selecting a control traffic or voice traffic and wirelessly transmitting the message data by the broadcast transmission without overhead; A base station wirelessly connecting with the portable terminal to wirelessly transmit and receive voice or message data signals and to form a predetermined service area; A mobile switching station that connects to the base station, establishes a communication path by switching, and controls and monitors broadcast transmission of message data; It includes a message unit for accessing the mobile switching center, inputting and storing an overhead-free broadcast transmission message and receiver information through the established communication path, and applying a control signal to the mobile switching station through analysis to broadcast the message data through the established communication path. Characterized in that the configuration is made.

In addition, the present invention devised in order to achieve the above object, and when the message is sent to the mobile terminal, the preparation process for determining whether to broadcast transmission; An input process of inputting a large number of message and receiver information on a frame basis without overhead when judging and transmitting a message in the process; The mobile terminal of the process includes: an occupancy process of requesting and occupying voice traffic allocation to transmit a multi-frame signal for broadcast transmission to a mobile switching center; A transmission step of transmitting and confirming the message and the receiver information of the multiple frames for broadcast transmission without overhead through the voice traffic occupied in the above process and confirming the message unit connected to the mobile switching center; A broadcast process of analyzing the receiver information by the message portion of the process and broadcasting the corresponding message data by sequentially applying a control signal for call connection to the mobile switching center; In response to the completion of the broadcast transmission, the release process of requesting and terminating the release of voice traffic to the mobile switching station is included.

Hereinafter, a message broadcast transmission mobile communication system and method according to the present invention will be described with reference to the accompanying drawings.

4 is a functional block diagram of the message broadcast transmission mobile communication system according to the present invention, FIG. 5 is a flow chart of a text message broadcast transmission control signal of the mobile communication system according to the present invention, and FIG. Is a flowchart of a text message transmission method of a mobile communication system.

Referring to FIG. 4, according to the present invention, a mobile communication system that broadcasts message data to a plurality of receivers performs voice-level wireless communication through voice traffic while moving, and selectively uses control traffic and voice traffic. In case of message data communication, voice traffic is transmitted to the mobile switching center in case of broadcast transmission in which a request is made to occupy and occupy control traffic for one frame message transmission, and a message is transmitted in multiple frame units. A mobile terminal (UE) 100 for requesting and occupying an allocation of the mobile terminal and transmitting the broadcast message and the receiver information on a frame basis through the occupied voice traffic;

By wirelessly connecting with the mobile terminal 100 to transmit and receive a corresponding signal and to form a predetermined service area, the mobile terminal 100 transmits and receives a corresponding signal and reports the signal to the mobile switching center 120 to the mobile switching station. Under the control of 120, the mobile station allocates VOICE TRAFFIC when the mobile station transmits message data, and allocates CONTROL TRAFFIC when transmitting one message. and,

Connecting to the base station 110, establishing a communication path by switching, and controlling and monitoring the entire mobile communication system. Control 110 to allocate voice traffic; Setting a corresponding communication path according to a call connection control signal when a voice level signal is applied to the voice traffic; Transmitting a message data level signal for broadcast transmission to the voice traffic to the message unit 130; A mobile switching center (120) for transmitting message data in a communication path set by the call connection control signal of the message unit (130);

It is connected to the mobile switching center 120 and inputs and stores the message and receiver information in the set communication path, and by applying a control signal to the mobile switching station 120 through the analysis to transmit the message data in the set communication path, the mobile switching station Analyzing the receiver information of the message data frame for broadcast transmission applied through the 120 and sequentially applying a control signal to the mobile switching center 120 to make a call connection with the receiver, and simultaneously applying the message data to be transmitted to the receiver. The message unit 130,

It is composed of a public communication network 140 for establishing a communication path for call connection with other mobile communication networks, data networks, and the Internet by a control signal applied from the mobile switching center 120.

Hereinafter, the message data broadcast transmission mobile communication system according to the present invention having the above configuration will be described in detail.

The mobile terminal 100 communicates with the other party anytime and anywhere while moving by using a voice level signal and a text message data level signal. The voice level signal uses voice traffic, and in general, the message data signal is used to control traffic. However, the mobile terminal 100 of the present invention is assigned voice traffic in the case of broadcast transmission in which message data is simultaneously transmitted to multiple recipients.

If control traffic is always ready for use between the mobile terminal 100 and the base station 110 and the mobile terminal 100 or the base station 110 intends to occupy and transmit and receive a corresponding signal, the mobile terminal 100 and the base station 110 occupy immediately by the corresponding process. The voice traffic may be allocated to the mobile switching center 120, allocated by the base station 110 according to the control signal of the mobile switching station 120, and occupied by the mobile terminal 100.

When the mobile terminal 100 transmits a text message only to a specific counterpart, the text message content and receiver information designating the counterpart occupy control traffic, and transmit the text message having the same content to a plurality of receivers or other frames. In the case of a broadcast transmission for transmitting a text message to the same receiver, the mobile station 120 transmits a voice traffic to the mobile station 120 by requesting allocation and occupancy of the voice traffic. The broadcast message and the receiver information transmitted as described above provide a server function. Is transmitted to and stored in the message unit 130, and when the transmission is completed, a transmission confirmation signal is applied to the portable terminal 100, and the portable terminal 100 inputting the signal releases the occupied voice channel. do.

That is, the mobile terminal 100 of the present invention transmits the broadcast message text message and the receiver information to the message unit 130 of the server function without an overhead (OVERHEAD), and confirms the transmission from the message unit 130 (DELIVERY). OK) When the signal is returned, the voice traffic is immediately released, and thus the total time required for broadcast transmission is relatively short. In order to access the message unit 130 of the server function, a uniquely assigned unique number is used. For example, access by inputting the assigned unique number, such as 019-131.

The overhead (OVERHEAD) is a signal processing such as traffic occupancy request, transmission completion confirmation and release, which is necessary for each message in the prior art.

In one experimental example, the time required for transmitting 20 broadcast messages as described above and receiving a transmission confirmation is about 12 seconds, and is processed very quickly compared to the time of 1 minute 40 seconds to 2 minutes according to the prior art. It can be seen that, the message unit 130 analyzes a plurality of recipients information in order to apply the control signal for the call connection with the designated recipients to the mobile switching center 120 to send the text message to the communication path established send.

When the communication path established by the control signal is another mobile communication system, a data network, or the Internet, the mobile switching center 120 requests a call connection to the public communication network 140 to establish a communication path with the corresponding system or network. .

Hereinafter, the text message broadcast transmission control signal flow diagram of the mobile communication system according to FIG. 5 will be described. When the mobile terminal 100 intends to broadcast broadcast, it requests a mobile traffic station 120 to allocate voice traffic ( In step ST100, the mobile switching center 120 applies a corresponding control signal to allocate the voice traffic to the base station 110 in response to the voice traffic allocation request (ST110).

The base station 110 allocates voice traffic to the mobile terminal 100 according to a control signal applied from the mobile switching center 120, and the mobile terminal 100 occupies the assigned voice traffic (ST120).

The mobile terminal 100 transmits the message for broadcast transmission and the receiver information to the message unit 130 without an overhead (OVERHEAD) through the occupied voice traffic, and when the transmission to the message unit 130 is completed, transmission confirmation A (DELIVERY OK) signal is returned to the mobile terminal 100 (ST130).

The mobile terminal 100 receives a DELIVERY OK signal and releases the occupancy of the voice traffic (ST140). The message unit 130 analyzes the broadcast transmission message to sequentially process the plurality of recipient information. The mobile station 120 performs a switching process with the receiver information, establishes a communication path, and transmits the message through the communication path set as described above. .

Hereinafter, a message broadcast transmission method of a mobile communication system according to the present invention will be described with reference to FIG.

If it is determined that the portable terminal 100 transmits a message (S100), and a determination process (S110) to determine whether or not a broadcast transmission for transmitting a text message of the same content to multiple recipients;

In the case where the message data is broadcasted as determined in the step S110, an input process of inputting the broadcast message data and the receiver information to the mobile terminal 100 in units of frames (S120);

The mobile terminal 100 which inputs the broadcast signal of the broadcast signal of the input process S120 is requested by the mobile switching station 120 to allocate voice traffic, and the mobile terminal 100 connects the base station 110 to the mobile terminal 100. Access to the mobile switching center 120 through a request for allocation of voice traffic, the base station 110 allocates voice traffic under the control of the mobile switching center 120 receiving the request, and the mobile terminal 100 allocates the voice traffic. Occupancy process to occupy traffic (S130),

By applying the message data information and the receiver information to the message unit 130 connected to the mobile switching center 120 through the voice traffic assigned in the occupancy process (S130) and confirming the transmission, the mobile terminal 100 is occupied Applying a plurality of receiver information for message data and broadcast transmission through voice traffic to the message unit 130 through the base station 110 and the mobile switching center 120, the message data and broadcast transmission receiver information from the message unit 130 A transmission process (S140) of receiving a reply confirming that the input has been entered (DELIVERY OK),

The message unit 130 analyzes the receiver information by the message unit 130 of the transmission process S140, applies a call connection control signal to the mobile switching center 120, and transmits corresponding message data sequentially. Analyze received receiver information for broadcast transmission sequentially and sequentially apply control signals for call connection to the mobile switching center 120, and sequentially by switching of the mobile switching center 120 receiving the control signals. A broadcast process (S150) of continuously transmitting the received message data through a set communication path to complete a broadcast transmission;

The mobile terminal 100 requests the mobile switching center 120 to release the allocation of voice traffic according to the transmission completion confirmation signal, releases the occupancy, and terminates. The mobile terminal 100 confirms the transmission of the message unit 130. A release process (S160) of receiving a signal and requesting release of the occupied voice traffic from the base station 110 and releasing the occupancy of the voice traffic;

If the message is not broadcasted in the preparation process (S110), the message data and receiver information to be transmitted by the mobile terminal 100 is input, occupied by the control traffic and transmitted to the mobile switching center 120, confirming the completion of transmission. The control traffic is released according to the signal and the message data to be transmitted in the next order is determined. If there is the message data to be transmitted in the next order, the control unit returns to the preparation process. Input (S170); The mobile terminal 100 requests and occupies the control traffic from the base station (S180); Transmitting the input message data and receiver information through the occupied control traffic (S190); The mobile terminal 100 receives the transmission completion confirmation signal indicating that the message data is transmitted through the set communication path by analyzing the transmitted receiver information (S200); The mobile terminal 100 confirming the completion of the transmission releases the occupation of the control traffic (S210); If it is determined whether there is a message to be transmitted in the next order, it returns to the preparation process (S110), and if there is no message, the control traffic process proceeds to the end (S220).

Hereinafter, a message broadcast transmission method of a mobile communication system according to the present invention having the above configuration will be described in detail with reference to FIG.

In the case of using the text message transmission service using the mobile terminal 100 (S100), it is determined whether to broadcast the same text message to multiple recipients simultaneously or to send one text message to one recipient. (S110),

When the broadcast is transmitted in the determination S110, the broadcast message and the receiver information are input to the mobile terminal 100 (S120), and the received mobile terminal 100 receives the voice traffic to the mobile switching center 120. The mobile station 100 occupies the allocated voice traffic since the base station 110 allocates the voice traffic according to the control signal of the mobile switching center 120 which has received the request (S130).

The mobile terminal 100 occupying voice traffic as described above transmits the message data and the receiver information for broadcast transmission to the message unit 130 through the base station 110 and the mobile switching center 120, the message unit 130 Receiving a transmission confirmation (DELIVERY OK) of the signal (S140), the message unit 130 analyzes the input broadcast data and receiver information sequentially broadcast transmission processing (S150), the mobile terminal 100 ) Releases the occupied voice traffic allocated to the base station 110 and terminates (S160).

In addition, if it is determined that the broadcast transmission is not in the preparation process (S110), the message data and the receiver information to be transmitted by one frame is input to the mobile terminal 100, the mobile terminal 100 is the base station 110 Occupies and requests to occupy the control traffic allocated between the (S180).

Since the input message data and the receiver information are transmitted through the occupied control traffic, the message is transmitted to the mobile switching center 120, and the mobile switching center 120 transmits the message data through a communication path established by a call connection. In operation S190, the mobile switching center 120 that has completed the transmission of the message data through the communication path set as described above returns a DELIVERY OK signal to confirm that the mobile terminal 100 has completed the transmission of the message data. (S200).

After confirming the transmission completion signal, the mobile terminal 100 releases the control traffic occupied between the base station 110 (S210), and determines whether there is additional message data to be transmitted in the next order (S220). When it is finished, the process as described above is repeated by returning to the preparation process (S110).

Therefore, in the present invention as described above, when the mobile terminal 100 broadcasts the message data, the mobile terminal 100 occupies voice traffic and applies the message to the message unit 130 and quickly confirms the transmission. Since it is not necessary to make the transmission quickly, the mobile terminal 100 has an advantage that can immediately proceed with other communication.

The present invention having the above configuration has an industrial use effect of reducing the load of the system by using voice traffic of the mobile communication system and quickly transmitting a broadcast message without overhead.

In addition, since the portable terminal broadcasts a large amount of data quickly without any overhead, the reliability of the system is improved, and there is an effect that is convenient for use that is used quickly for communication in the following procedure.

1 is a functional block diagram of a conventional text message transmission mobile communication system;

2 is a flowchart of a text message transmission control signal of a conventional mobile communication system;

3 is a flow chart of a text message transmission method of the conventional mobile communication system;

4 is a functional diagram of a message broadcast transmission mobile communication system according to the present invention;

5 is a text message broadcast transmission control signal flow chart of the present invention mobile communication system;

6 is a flowchart illustrating a text message transmission method of the present invention.

** Explanation of symbols on the main parts of the drawing **

100: mobile terminal 110: base station

120: mobile switching center 130: message unit

140: public communication network

Claims (14)

A mobile terminal for voice wireless communication through voice traffic while moving and wirelessly transmitting message data by broadcast transmission without selecting control traffic or voice traffic; A base station wirelessly connecting with the portable terminal to wirelessly transmit and receive voice or message data signals and to form a predetermined service area; A mobile switching station that connects to the base station, establishes a communication path by switching, and controls and monitors broadcast transmission of message data; It includes a message unit for accessing the mobile switching center, inputting and storing an overhead-free broadcast transmission message and receiver information through the established communication path, and applying a control signal to the mobile switching station through analysis to broadcast the message data through the established communication path. Message broadcasting mobile communication system characterized in that the configuration is made. According to claim 1, And a public communication network configured to establish a call connection communication path with another mobile communication network, a data network, and a communication network including the Internet according to a control signal applied from the mobile switching center. The method of claim 1, wherein the mobile terminal, In the case of message data communication, a message broadcast transmission movement is characterized in that it takes up control traffic when transmitting a message in one frame, and voice traffic in case of broadcast transmission that transmits a message in multiple frame units. Communication system. The method of claim 1, wherein the mobile terminal, In the case of broadcast transmission for transmitting a message to a plurality of counterparts, a request is made to occupy a request for allocation of voice traffic to a mobile switching center and transmit a broadcast transmission message and recipient information for multiple frames through the occupied voice traffic. Message broadcasting mobile communication system. delete The mobile switching center of claim 1, If the mobile terminal requests voice traffic allocation to broadcast the message data signal or to transmit the voice signal, the mobile station controls the base station to allocate voice traffic, When a voice level signal is applied to the voice traffic, a direct communication path with the other party is established by a call connection control signal. Setting a communication path for transmitting a message data signal for broadcast transmission to the voice traffic, And a communication path configured to broadcast message data when the call connection control signal for broadcast transmission of the message unit is applied. The method of claim 1, wherein the message unit, Message, characterized in that for transmitting and transmitting the control signal connected to a plurality of designated parties by sequentially recording and analyzing the broadcast transmission message data applied in units of frames through the mobile switching center with the message data to be transmitted sequentially Broadcast transmission mobile communication system. When the message is sent to the mobile terminal, the preparation process to determine whether to send a broadcast, In the case of judging and transmitting the message, the input process of inputting a large number of message and receiver information on a frame basis without overhead; The mobile terminal of the above process occupies requesting and occupying voice traffic allocation to transmit a multi-frame signal for broadcast transmission to the mobile switching center; A transmission process of transmitting and confirming message and receiver information of multiple frames for broadcast transmission without overhead through voice traffic occupied in the above process, and confirming the message unit connected to the mobile switching center; A broadcast process of analyzing the receiver information by the message unit of the above process and broadcasting the corresponding message data by sequentially applying a control signal for call connection to the mobile switching center; And a release step of requesting and terminating the release of the voice traffic to the mobile switching center by acknowledging the completion of the broadcast transmission of the process. The method of claim 8, wherein when the message is not broadcasted in the preparation process, Input message data and receiver information to be transmitted by the mobile terminal on a frame-by-frame basis, and take control traffic and transmit it to the mobile switching station, release control traffic occupancy by transmission completion confirmation, and determine that there is message data to be transmitted in the following order. And a control traffic process for returning to the preparation process when the message broadcast transmission is performed. The method of claim 8, wherein the occupancy process, The mobile terminal connects to the mobile switching center through a base station and requests allocation of voice traffic for broadcast transmission, and the base station allocates voice traffic under the control of the mobile switching station receiving the request, and the mobile terminal occupies a series of processes. Message broadcast transmission method of a mobile communication system, characterized in that made. The method of claim 8, wherein the transmission process, The mobile communication system is characterized in that the broadcast message and receiver information is transmitted and recorded through the base station and the mobile switching station through the voice traffic occupied by the mobile terminal, and a normal input confirmation is received from the message unit. How to broadcast a message. The method of claim 8, wherein the broadcast process, Analyze broadcast information receiver information normally input by the message unit, and apply an overhead-free call connection control signal and message data to the mobile switching center, and receive the input through the communication path sequentially set by switching of the mobile switching station. The message broadcast transmission method of a mobile communication system, characterized in that the process of transmitting the message data to complete the broadcast transmission process. delete The method of claim 9, wherein the control traffic process, Inputting the receiver information of the other party and the message data to be transmitted to the mobile terminal; Requesting and occupying the allocation of the control traffic to the base station by the portable terminal of the process; Transmitting the input message data and receiver information to a mobile switching center through a control traffic occupied in the process; Establishing a communication path by analyzing the receiver information inputted from the mobile switching center of the above process and returning a signal indicating that the message data has been transmitted; Releasing the occupation of control traffic allocated by the base station by the mobile terminal of the above process; If it is determined that there is a message to be transmitted in the next order by the portable terminal of the process, the process returns to the preparation process, and if there is no message broadcast transmission method comprising the process of proceeding to the end.