KR20150119740A - Communication apparatus for comprising message transmit processor, control method thereof, and recording medium for recording program for executing the control method - Google Patents

Abstract

The present invention relates to a communications terminal including a message transmission treating unit, a method for controlling the same, and a recording medium having a program recorded therein to perform the method. The method according to the present invention comprises the steps of: generating a message transmission control signal including a transmission message corresponding to the sensed event signal when a predetermined event signal is sensed; transferring the generated message transmission control signal to the message transmission treating unit; repeatedly transmitting the message transmission control signal to the message transmission treating unit at a predetermined time interval until a corresponding normal response signal is received, when a normal response signal is not received through the message transmission treating unit from the communications service system; and transferring a transmission message deletion control signal for controlling integral deletion of transmission messages, which cannot be transmitted to the communications service system but are accumulatively stored in the message transmission treating unit, to the message transmission treating unit, when the number of repeated transmission of the message transmission control signals reach the predetermined number.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a communication terminal including a message sending processor, a control method thereof, and a recording medium on which a program for executing the control method is recorded. BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] }

The present invention relates to a communication terminal including a message sending processor for sending a specific message to a network system according to a predetermined control signal and a control method thereof.

The communication terminal is configured to communicate with an opposite terminal or a predetermined server. In order to allow communication between the communication terminals or between the communication terminal and the predetermined server, a communication network system (i.e., communication service system) must be established.

That is, the communication network system is provided by a communication service provider, and each communication terminal can communicate with an opposite terminal or a predetermined server via a communication network system.

In other words, when the communication terminal transmits a predetermined message for communication to the communication network system, the communication network system transmits the received message to the counterpart terminal or the target server so that mutual communication is established between communication terminals or communication terminals and servers on the network .

As described above, the communication terminal transmits a predetermined message to the communication network system in order to communicate with the counterpart (counterpart terminal or a predetermined server). To this end, each communication terminal forms a communication channel with the communication network system and transmits a predetermined message (Hereinafter referred to as a 'message sending processing unit').

For example, the message transmission processing unit may be an integrated circuit (IC) chip and may be mounted to each communication terminal as a communication chip. In this case, the message sending processor receives a predetermined message from an OS (Operating System) of the communication terminal or an application installed in the communication terminal, and sends the received message to the communication network system.

However, the function of the message sending processing unit is such that the connection with the communication network system is disconnected, or due to a malfunction of the specific communication server provided in the communication network system, If a response is not received, the message is accumulated and stored for later resending.

For example, when the INVITE message according to the SIP (Session Initiation Protocol) is received from the communication terminal, the message sending processor sends the INVITE message to the communication network system. At this time, a temporary failure occurs in connection with the communication network system, The INVITE message is temporarily stored, and when the connection with the communication network system is established, the INVITE message, which is temporarily stored, is retransmitted.

For example, if a total of three INVITE messages are unsuccessfully transmitted, the message transmission processing unit stores three INVITE messages, and when the communication network system operates normally, the stored INVITE messages are collectively sent to the communication network system, This causes excessive traffic to the communication network system.

Actually, the three INVITE messages may be duplicated data. The message sending processor does not determine whether the data is duplicated, but merely performs the function of sending the message according to the request of the OS or application of the communication terminal. It is the cause.

Therefore, it is desired to provide a technique for preventing excessive traffic from being transmitted to the communication network system by the message transmission processing unit when the communication network system is normally restored in the communication terminal having the message transmission processing unit having the above-described functions.

Published patent application No. 10-2011-0057504

Disclosure of Invention Technical Problem [8] The present invention has been made in view of the above-described conventional needs, and its object is to provide a communication terminal and a control method thereof, which prevent batch- .

According to an aspect of the present invention, there is provided a communication terminal including a message transmission processing unit, the communication terminal including: an event sensing unit for sensing an event signal; When a predetermined event signal is detected by the event detection unit, generates a message transmission control signal including a transmission message corresponding to the sensed event signal, and controls to collectively delete transmission messages accumulated in the message transmission processing unit A control signal generator for generating a transmission message deletion control signal; When a normal response signal is not received from the communication service system via the message transmission processing unit, when the normal response signal is received The message transmission control unit repeatedly transmits a message transmission control signal to the message transmission processing unit at predetermined time intervals until a predetermined number of times of repeated transmission of the message transmission control signal reaches the predetermined number of times, And a control signal transmitting unit for transmitting the control signal to the control unit.

According to another aspect of the present invention, there is provided a method of controlling a communication terminal including a message sending processor according to the present invention, the method comprising: when a predetermined event signal is sensed, Generating a signal; Transmitting the generated message transmission control signal to the message transmission processing unit; When a normal response signal is not received from the communication service system via the message transmission processing unit, the message transmission control unit repeatedly transmits a message transmission control signal to the message transmission processing unit at a predetermined time interval until the normal response signal is received ; A transmission message deletion control signal for controlling batch deletion of transmission messages accumulated in the message transmission processing unit without being sent to the communication service system when the number of repeated transmission of the message transmission control signal reaches a predetermined number, And transmitting the message to the message sending processing unit.

As described above, according to the present invention, since the normal communication with the communication service system is not performed due to the failure of the communication service system or the communication signal is weak, when the normal response is not reached from the communication service system, In this case, a large amount of messages cumulatively stored for each periodic transmission failure count is erased, so that when a normal communication is established with the communication service system in the future, a large amount of messages are transmitted from the communication terminal to the corresponding communication service system .

1 is a schematic configuration diagram of an entire communication system including a communication terminal according to an embodiment of the present invention,
2 is a functional block diagram of the communication terminal of FIG. 1,
3 to 4 are flowcharts of a control of a communication terminal according to an embodiment of the present invention,
FIG. 5 and FIG. 6 are views comparing features of a communication terminal according to an embodiment of the present invention with those of the related art.

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

Hereinafter, embodiments of the present invention will be described in order to facilitate understanding of the present invention, and the present invention is not limited to these embodiments. In particular, the present invention can be configured by combining at least any one of individual components, individual functions, or individual steps included in each embodiment.

A schematic configuration of an entire communication system including a communication terminal according to an embodiment of the present invention is as shown in FIG.

As shown in the figure, the entire communication system includes a communication terminal, a communication network system, a counterpart terminal, and an Internet server.

In this embodiment, the communication network system refers to a communication service system that provides communication services, and is an IMS (IP MULTIMEDIA SUBSYSTEM) to which LTE (Long Term Evolution) terminals are connected.

The Internet server is a predetermined server connected to the Internet network associated with the IMS, and performs a function of providing a web page or providing a necessary service according to a request of the communication terminal.

The counterpart terminal is a terminal that communicates with the communication terminal of FIG. 1, for example, a terminal operated by the counter party.

The communication terminal is a terminal that communicates with the Internet server or the counterpart terminal through the IMS described above and is a mobile communication terminal in the present embodiment. However, the communication terminal is not limited to this, and may be a wired or wireless communication Terminal.

A concrete functional block of the communication terminal is as shown in FIG.

As shown in the figure, the communication terminal includes a message sending processor, an event detector, a control signal generator, and a control signal transmitter.

Here, the message transmission processing unit performs a function of sending a predetermined message to the communication network system under the control of other components.

For example, when a message transmission control signal is transmitted from another component, the message transmission processing unit sends a message included in the message transmission control signal to the communication network system.

At this time, the message sending processor cumulatively stores messages sent from the communication network system in the absence of a normal response, and if there is a normal response from the communication network system, sends the accumulated messages to the communication network system collectively. For example, if there are 10 messages accumulated but not normally received from the communication network system, the message transmission processing unit collectively transmits all the accumulated messages to the communication network system when the communication network system operates normally To send.

The message forwarding processing unit is generally provided in a communication terminal that implements the communication function, and the function of the message forwarding processing unit itself is well-known, and a detailed description thereof will be omitted.

The event detection unit performs a function of detecting an event signal, wherein the event signal may be a signal related to message transmission. For example, the event signal may be an event signal according to an action of a user making a call to an opposite terminal, or an event signal corresponding to a state of a communication network system for determining whether a new connection should be made to the communication network system.

The control signal generator generates a message transmission control signal including a transmission message corresponding to the sensed event signal when a preset event signal is sensed by the event sensing unit.

For example, when a user presses a call button to make a call with a counterpart terminal user, the control signal generator generates a message transmission control signal including an INVITE message (a message according to SIP (Session Initiation Protocol)) corresponding to a call button press do.

As another example, when the power of the communication terminal is newly turned on, the control signal generator may generate a message transmission control signal including a REGISTRATION message (a message according to SIP (Session Initiation Protocol)) for registering with the communication network system.

In this embodiment, the transmission message is a registration message (REGISTRATION message) or a call connection request message (INVITE message) directed to IMS (IP MULTIMEDIA SUBSYSTEM), but the transmission message is not limited to such a specific message. That is, any message to be transmitted to the communication network system can be included in the transmission message of this embodiment.

In addition, the control signal generator may generate a transmission message deletion control signal for controlling batch deletion of transmission messages stored in the message transmission processing unit.

The control signal transmission unit transmits the transmission control signal generated by the control signal generation unit to the message transmission processing unit. At this time, when the normal response signal is not received from the communication network system via the message transmission processing unit, the control signal transmission unit repeatedly transmits the message transmission control signal to the message transmission processing unit at a predetermined time interval until the corresponding normal response signal is received .

If the number of repetitive transmissions of the message transmission control signal reaches a predetermined number, the control signal delivery unit also delivers a transmission message deletion control signal to the message transmission processing unit.

In this embodiment, when the predetermined condition is satisfied, that is, when the number of repetitive transmissions of the message transmission control signal reaches a predetermined number of times, the transmission message deletion control signal is transmitted to the message transmission processing unit The generation of the transmission message deletion control signal by the control signal generation unit itself may be performed when the above-mentioned condition is satisfied. That is, when the number of repetitive transmissions of the message transmission control signal reaches a predetermined number, a transmission message deletion control signal can be generated.

When the transmission message is an INVITE message directed to IMS (IP Multimedia Subsystem), the control signal delivery unit transmits a transmission message deletion control signal for the INVITE message to the message transmission processing unit, and then transmits a REGISTRATION message to the IMS generated by the control signal generation unit And transmits the second message transmission control signal to the message transmission processing unit.

In this case, when the normal response signal corresponding to the REGISTRATION message is not received from the communication network system via the message transmission processing unit, the control signal transmission unit transmits the second message transmission control Signal to the message transmission processing unit, and when the number of repeated transmission of the second message transmission control signal reaches a predetermined number, the message deletion processing unit can not delete the REGISTRATION message cumulatively stored in the message transmission processing unit And transmits the second transmission message deletion control signal to the message transmission processing unit.

Hereinafter, a control flow of a communication terminal having a message sending processor according to an embodiment of the present invention will be described with reference to FIG. 3 to FIG.

First, a case where a communication terminal transmits a REGISTRATION message to an IMS will be described with reference to FIG.

The communication terminal controls the transmission of the REGISTRATION message when it is necessary to newly register the communication terminal, such as when the communication terminal is newly powered on or when the communication network system is disconnected and then reconnected.

For example, the OS or the communication processing related application provided in the communication terminal generates and transmits a REGISTRATION message to the established message transmission processing unit and controls the transmission.

Then, the communication terminal increases the count value CNT_1 by 1, and when the incremented count value CNT_1 is smaller than or equal to a preset value (20 in this embodiment) A predetermined communication processing server included). For example, if the communication system is located in an area where the radio wave transmitted by the communication system is not available, or if the communication system fails, the normal response is not received from the communication system.

As a result of the determination, when a normal response corresponding to the REGISTRATION message is received from the communication network system, a necessary communication process is performed after the count value (CNT_1) is initialized. As a result of determination, the normal response corresponding to the REGISTRATION message If not, the transmission control of the REGISTRATION message is repeatedly performed until a normal response is received from the communication network system. In this case, when the normal response is not continuously received from the communication network system, a REGISTRATION message is cumulatively stored in the message transmission processing unit.

If the count value (CNT_1) exceeds 20 while the transmission control of the REGISTRATION message is repeatedly performed, the communication terminal controls to delete the messages accumulated in the message sending processor, for example, REGISTRATION messages.

This is to prevent a large number of REGISTRATION messages cumulatively stored in the message transmission processing unit from being transmitted to the communication network system collectively when the communication system is normally connected to the communication network system in the future.

Thereafter, the communication terminal clears the connection of the IMS PDN (Packet Data Network), reconnects it, initializes the count value (CNT_1), and performs transmission control of the REGISTRATION message again.

Next, referring to FIG. 4, a case where a communication terminal transmits a call connection request signal, that is, an INVITE message to an IMS will be described.

When a communication terminal user calls a counterpart terminal, the communication terminal controls transmission of the INVITE message.

For example, an OS or a communication processing related application provided in the communication terminal generates an INVITE message and transmits the generated INVITE message to the built-in message transmission processing unit so as to be controlled to be transmitted.

Then, the communication terminal increases the count value CNT_2 by 1, and when the incremented count value CNT_2 is smaller than or equal to a predetermined value ('5' in this embodiment) A predetermined communication processing server is included). For example, if the communication system is located in an area where the radio wave transmitted by the communication system is not available, or if the communication system fails, the normal response is not received from the communication system.

As a result of the determination, when a normal response corresponding to the INVITE message is received from the communication network system, a necessary communication process is performed after the initialization of the count value (CNT_2). If the normal response corresponding to the INVITE message is received If not, the transmission control of the INVITE message is repeatedly performed until a normal response is received from the communication network system. In this case, if the normal response is not continuously received from the communication network system, the INVITE message is cumulatively stored in the message transmission processing unit.

If the count value (CNT_2) exceeds 5 during repetitive transmission control of the INVITE message, the communication terminal controls to delete messages accumulated in the message sending processor, for example, INVITE messages.

This is to prevent a large number of INVITE messages cumulatively stored in the message transmission processing unit from being transmitted to the communication network system collectively when the communication system is normally connected to the communication network system in the future.

After that, the communication terminal initializes the count value (CNT_2), performs the initial REGISTRATION operation control, and then performs transmission control of the REGISTRATION message described in FIG.

5 shows a case where the communication terminal transmits a SIP REGISTRATION message in comparison with the conventional case.

5A shows a process of repeatedly transmitting a SIP REGISTRATION message at a predetermined time interval when a normal response is not received from the communication network system, and a process of disconnecting an IMS PDN after repeated transmission.

Herein, the 'REGISTRATION retransmission operation' may include transmitting a plurality of SIP REGISTRATION messages at intervals of several seconds.

Compared with the conventional method of FIG. 5 (a), FIG. 5 (b) shows a process of issuing a buffer removal command after a plurality of SIP REGISTRATION messages are transmitted according to the present invention, Is included.

When the normal response is received from the communication network system (that is, when the communication network is out of the communication shadow area, or when the communication network system has solved the malfunctioning state), the message sending processing unit deletes the accumulated messages, It is possible to limit the number of messages to be transmitted in a batch.

6 shows a case where a communication terminal transmits a SIP INVITE message and a SIP REGISTRATION message in comparison with the conventional method.

6 (a) illustrates a process in which a SIP INVITE message is repeatedly transmitted at a predetermined time interval when a normal response is not received from the communication network system, a process in which an IMS REGISTRATION message is repeatedly transmitted after the repeated transmission, The process of disconnecting the IMS PDN is shown when there is no response from the network system.

Herein, the 'INVITE retransmission operation' and the 'REGISTRATION retransmission operation' may include transmitting a plurality of SIP INVITE messages or SIP REGISTRATION messages at intervals of several seconds.

Compared with the conventional method shown in FIG. 6A, FIG. 6B shows a buffer clear command, that is, an instruction to delete INVITE messages accumulated in the message sender after a plurality of SIP INVITE messages are transmitted according to the present invention And a process of issuing a command to delete a buffer removal command, that is, REGISTRATION messages cumulatively stored in the message transmission processing unit, after a plurality of SIP REGISTRATION messages are transmitted.

When the normal response is received from the communication network system (that is, when the communication network is out of the communication shadow area, or when the communication network system has solved the malfunctioning state), the message sending processing unit deletes the accumulated messages, It is possible to limit the number of messages to be transmitted in a batch.

In the above-described embodiment, the communication terminal is a mobile communication terminal, but the communication terminal may be any terminal having a communication function without being connected to a wired or wireless network.

Needless to say, the process of performing each of the above-described embodiments can be performed by a program stored in a predetermined recording medium (for example, a computer readable medium).

The present invention is not limited to the above-described specific embodiments, and various modifications and changes may be made without departing from the gist of the present invention. It is to be understood that such variations and modifications are intended to be included in the scope of the appended claims.

100: communication terminal 200: communication network system
300: Relative terminal 400: Internet server
110: message sending processing unit 120:
130: control signal generator 140: control signal transmitter

Claims (9)

A message included in the message transmission control signal is transmitted to the communication service system as the message transmission control signal is received, and the message is cumulatively stored if there is no normal response from the communication service system, And a message transmission processing unit for collectively transmitting the accumulated messages to the communication service system, the method comprising the steps of:
(a) generating a message transmission control signal including a transmission message corresponding to the detected event signal when detecting a preset event signal;
(b) transmitting the message transmission control signal generated in the step (a) to the message transmission processing unit;
(c) if a normal response signal is not received from the communication service system via the message transmission processing unit, a message transmission control signal is repeatedly transmitted to the message transmission processing unit at a predetermined time interval until the normal response signal is received ;
(d) a transmission message deletion control unit that controls batch deletion of transmission messages accumulated in the message transmission processing unit when the number of repeated transmission of the message transmission control signal reaches a predetermined number, And transmitting a signal to the message sending processing unit. The method according to claim 1,
Wherein the transmission message is at least one of a registration message directed to an IMS (IP Multimedia Subsystem) and a call connection request message. The method according to claim 1,
The transmission message is an INVITE message directed to IMS (IP MULTIMEDIA SUBSYSTEM)
Generating a second message transmission control signal including a REGISTRATION message directed to the IMS after the step (d), and transmitting the generated second message transmission control signal to the message transmission processing unit;
When the normal response signal corresponding to the REGISTRATION message is not received from the communication service system via the message transmission processing unit, the second message transmission control signal is transmitted at a predetermined time interval until the normal response signal is received Repeatedly transmitting the message to the message sending processing unit;
When the number of repeated transmissions of the second message transmission control signal reaches a predetermined number of times, a second transmission message that controls batch deletion of the REGISTRATION messages cumulatively stored in the message transmission processing unit, And transmitting the control signal to the message sending processing unit. The method according to claim 1,
Wherein the transmission message is a message according to a SIP (Session Initiation Protocol). A computer-readable recording medium storing a program for executing the method according to any one of claims 1 to 4. A message included in the message transmission control signal is transmitted to the communication service system as the message transmission control signal is received, and the message is cumulatively stored if there is no normal response from the communication service system, And a message transmission processing unit for collectively transmitting the cumulative stored message to the communication service system,
An event detection unit for detecting an event signal;
When a predetermined event signal is detected by the event detection unit, generates a message transmission control signal including a transmission message corresponding to the sensed event signal, and controls to collectively delete transmission messages accumulated in the message transmission processing unit A control signal generator for generating a transmission message deletion control signal;
When a normal response signal is not received from the communication service system via the message transmission processing unit, when the normal response signal is received The message transmission control unit repeatedly transmits a message transmission control signal to the message transmission processing unit at predetermined time intervals until a predetermined number of times of repeated transmission of the message transmission control signal reaches the predetermined number of times, And a control signal transmission unit for transmitting the control signal to the communication terminal. The method according to claim 6,
Wherein the transmission message is at least one of a registration message directed to an IMS (IP Multimedia Subsystem) and a call connection request message. The method according to claim 6,
The transmission message is an INVITE message directed to IMS (IP MULTIMEDIA SUBSYSTEM)
The control signal delivery unit transmits a second message transmission control signal including a REGISTRATION message directed to the IMS generated by the control signal generation unit to the message transmission control unit, And if the normal response signal corresponding to the REGISTRATION message is not received from the communication service system via the message transmission processing unit, When the number of times of repeated transmission of the second message transmission control signal reaches a predetermined number of times, the message transmission control signal is not transmitted to the communication service system, and the message transmission control signal is cumulatively stored Be The communication terminal which comprises passing the second transmission control signal to the message deletion message sending processing unit for controlling the batch deletion of the REGISTRATION message. The method according to claim 6,
Wherein the transmission message is a message according to a Session Initiation Protocol (SIP).

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