KR20070079984A - Forwarding system of mass message in wireless communication and method thereof - Google Patents

Abstract

A system and a method for transmitting a large capacity message in a wireless communication environment are provided to lessen the load of a network by shortening communication time in a wireless communication environment, to reduce service processing time by reducing the number of communication attempts, and to enhance QoS(Quality of Service) by increasing service success rates in inferior communication areas. A system for transmitting a large capacity message in a wireless communication environment is comprised of a terminal(30), a message server(40), and a communication server(50). The terminal(30) comprises a message client(32) which executes communication by using the HTTP and downloads or uploads messages. The message server(40) provides a large capacity messaging service to the terminal(30). In case the message client(32) makes a message transmission service request, the message server(40) carries out connection creation processing and request message processing in sequence. The communication server(50) executes protocol conversion between the message server(40) and a server application, and establishes a service path.

Description

Mass message transmission system and method in wireless communication environment

1 is a view showing the concept of a large message transmission method in a wired communication environment

2 is a diagram illustrating a large message transmission method applying the JMS protocol to a conventional wireless communication environment.

3 is a block diagram of a mass message transmission system according to an embodiment of the present invention;

4 is a flowchart of a method for transmitting a large message according to an embodiment of the present invention;

5 is a flowchart illustrating a case where the mass message transmission method of the present invention is applied to a road guide service.

※ Explanation of code for main part of drawing

30: terminal 32: message client

40: Message Server 42: HTTP Front (Servlet)

44: message server core 46: communication server adapter

50: communication server 60: message queue

70: server application

The present invention relates to a large-capacity message transmission system and method in a wireless communication environment, and more particularly, to enable large-capacity messaging in a wireless communication environment by reducing the number of communication by allowing a message server to transmit a message in a single HTTP request and response. One system and method are described.

JMS protocol for transmitting large amount of messages provides API (Application Programming Interface) to send / receive messages in wired communication environment.

As defined in JMS (Java Message Service) for transmitting large messages, as shown in FIG. 1, messages 16a and 16b are transmitted in a message queue method between the client 10 and the server 12 in a wired communication environment. Receive

That is, when the client 10 and the server 12 communicate, they indirectly communicate with each other via a medium called queues 14a and 14b.

The queues 14a and 14b, which are targets for the transmission / reception of the messages (data 16a and 16b), temporarily store data securely.

In the queues 14a and 14b, the received data 16a and 16b are basically processed in a FIFO (First In First Out) method, but a priority may be applied according to a purpose using a specific data ID.

If only the names of the queues 14a and 14b serving as the targets are known, they operate regardless of the actual position of the queues 14a and 14b, the network situation, and the situation of the receiving system.

2 is a redefinition of the JMS protocol for a wireless communication environment.

A servlet 22a located between the message client 20 and the message server 22 is a small servlet running on the message server 22 when processing the request of the message client 20 at the message server 22 over the web. Program.

In case of applying a large-capacity message transmission method optimized for a wired communication environment to a wireless environment, in order to transmit a large-capacity message between the message client 20 and the message server 22, several HTTP request / response communications are performed. You must go through the preparation process.

The message client 20 is a preparation step for transmitting a large amount of messages. The message client 20 connects to the servlet 22a of the message server 22 to create a connection (1), create a session (2), prepare a message for transmission (3), and prepare for receiving a message ( 4) and so on, the servlet 22a forwards the request to the message server 22 (1.1, 2.1, 3.1, 4.1), and the message server 22 processes connection creation (1.1.1) according to the request. ), Session creation processing (2.1.1), message transmission preparation processing (3.1.1), and message reception preparation processing (4.1.1).

When the preparation process is completed, the message client 20 sends a message to the servlet 22a (5), the servlet 22a delivers the message to the message server 22 (5.1), and the message server 22 ) Processes the received message (5.1.1).

As such, as a preparation step for transmitting a message, it is necessary to go through several HTTP request / response communication processes such as connection creation, session creation, message transmission preparation, message reception preparation, and the like between the message client 20 and the message server 22. There are the following problems at the service and system level.

First, the communication cost increases by performing a plurality of communication on the system.

Second, since the service has to communicate several times in order to transmit a large amount of messages, the service request response time is delayed by increasing the service processing time.

Third, the service failure rate for message transmission increases further when passing through the shadow area where message reception is impossible.

The present invention has been made to solve the above-mentioned problems, and the JMS protocol optimized for the wired communication environment is optimized in the wireless communication environment, so that a large amount of message transmission / reception is achieved by communication between one terminal and the server without going through several communication processes. The main object of the present invention is to provide a large message transmission system and method in a wireless communication environment.

Another object of the present invention is to reduce the burden of the network by reducing the communication time in the wireless communication environment, the service processing time can be reduced by reducing the number of communication, the service success rate even when passing through poor communication status This is to provide a large message transmission system and method in a wireless communication environment that can improve the quality of service (QoS).

Still another object of the present invention is to provide a large-capacity message transmission system and method in a wireless communication environment in which not only communication cost reduction but also service and system operation can be reduced and economical effects can be obtained.

In a wireless communication environment according to an embodiment of the present invention for achieving the above object, a large-capacity message transmission system includes a terminal having a message client for downloading or uploading a message by performing communication using HTTP, and a large capacity in the terminal. A server that provides a messaging service, wherein the message server performs connection creation and request message processing in order when a message client requests a service for message transmission, and converts a protocol between the message server and a server application and sets a service path. It includes a communication server.

In addition, in the wireless communication environment according to an embodiment of the present invention, the large-capacity message transmission method includes the steps of: requesting a service by sending a message to an HTTP front of a message server at a message client; And performing connection creation processing and request message processing in order in the message server.

Hereinafter, the configuration and operation of the present invention will be described with reference to the accompanying drawings.

3 is a block diagram of a mass message transmission system according to an embodiment of the present invention.

As shown, the terminal 30 includes a message client 32, a message server 40, and a communication server 50.

The message client 32 is a client used to download a message from the message server 40 or upload a message to the message server 40 in the terminal 30. The message client 32 performs communication using HTTP, 30) has functions of sending / receiving messages (including split sending / receiving), canceling during transmission, canceling during reception, and checking status during reception.

The HTTP is a protocol for exchanging files on the web and is an application program related to TCP / IP.

The message server 40 is a server for providing a mass messaging service requested by the terminal 30. The message server 40 performs message transmission, reception, cancellation, and cancellation service requested by the terminal 30, and performs each terminal 30. A message queue 60 is assigned to store and deliver messages in the message queue 60.

In this case, the message server 40 may separately allocate the message queue 60 allocated to each terminal 30 into a request message queue and a received message queue.

The message server 40 comprises an HTTP front (servlet) 42, a message server core 44 and a communication server adapter 46.

The HTTP front 42 is responsible for parsing and generating HTTP protocol parsing and generating of a messaging service request and response made of the HTTP protocol, and is made of a Java Servlet.

The message server core 44 plays a key role for actual messaging services, such as storing messages in the message queue 60 and exporting messages stored in the message queue 60.

In addition, to perform the service for the service request passed through the HTTP front 42, and transmits the result back to the HTTP front 42 to be transmitted to the terminal 30.

The message server core 44 is a resident program of an independent Java process.

The communication server adapter 46 corresponds to a different protocol between the message server 40 and the communication server 50 when it is necessary to deliver data to the communication server 50 as a result of the messaging service of the message server 50. In charge of.

That is, the bidirectional communication function is performed by converting the communication of the message server 40 using the JMS protocol and the communication of the communication server 50 including the protocol between the message server 40 and the communication server 50 in both directions. .

The communication server 50 converts a protocol and sets a service path.

4 is a flowchart of a method for transmitting a large message according to an embodiment of the present invention.

When the message client 32 requests a service by "submitting a message" to the servlet 42 of the message server 40 (S402), the servlet 42 performs a message delivery to the message server 40 (S404). .

When the message is delivered, the message server 40 proceeds with "connection creation" processing (S406) and "request message" processing (S408) in order.

In this way, a message can be transmitted after a process of preparing a message transmission such as connection creation and session creation through multiple communication between a message client and a servlet, so that a message can be transmitted in one HTTP request and HTTP response. By reducing the frequency of communication, large-capacity messaging (for example, a road guidance service) is possible in a wireless communication environment.

5 is a flowchart illustrating a case where the mass message transmission method of the present invention is applied to a road guide service.

First, the terminal 30 transmits a directions request to the message server core 44 using the message client 32 (S502).

The message server core 44 stores a message in the message queue 60 for delivery to the server application 70 (S504).

The communication server adapter 46 monitors the message queue 60 through periodic polling (S506). When the message enters the message queue 60, the communication server adapter 46 receives the message (the directions request message). (S508).

Subsequently, the communication server adapter 46 analyzes the received message, converts it into a communication protocol (hereinafter referred to as A) with the communication server 50, and transmits the message to the communication server 50 (S510).

In response to the request transmitted to the server application 70 via the communication server 50 (S512), the route guidance response of the server application 70 is transmitted to the communication server 50 (S514), and the communication server 50 is This is transmitted to the communication server adapter 46 in the form of A (S516).

The communication server adapter 46 analyzes the received A, and transmits the route guidance response of the server application 70 to the message server core 44 (S518), and the message core server 44 is a message queue (the This message is stored in the message queue (60) assigned to the terminal that sent the directions request (S520).

The message client 32 of the terminal 30 monitors the message queue 60 assigned to itself through periodic polling (S522), and when the message enters the message queue 60, the message (the directions response). Message) (S524).

As described above, according to the present invention, a JMS protocol optimized for a wired communication environment is optimized in a wireless communication environment, and thus a large amount of message transmission / reception is possible through communication between one terminal and a server without going through several communication processes.

In addition, in the wireless communication environment, it is possible to reduce the burden of the network by shortening the communication time, reduce the processing time of the service by reducing the number of communication, and improve the service success rate even when passing through poor communication conditions. Quality can be improved.

In addition, not only the communication cost can be reduced, but also the service and system operation can be reduced, resulting in economic effects.

Claims (7)

A terminal 30 having a message client 32 for downloading or uploading a message by performing communication using HTTP; A server for providing a large capacity messaging service to the terminal 30, the message server 40 performing a connection creation process and a request message process in order when a message client 32 requests a message transmission service; And Large-capacity message transmission system in a wireless communication environment including a communication server for converting the protocol between the message server (40) and the server application (70) and setting a service path. The method of claim 1, The message server 40 has a message queue 60 assigned to each terminal 30 to store and deliver the messages in the message queue 60, thereby delivering a large message in a wireless communication environment. system. The method of claim 2, The message server includes an HTTP front 42 for parsing and generating a messaging service request and response in the HTTP protocol; A message server core 44 which stores the message in the message queue 60 and performs a messaging service such as exporting a message stored in the message queue 60; Large-capacity message transmission system in a wireless communication environment, characterized in that the communication server adapter 46 for converting the protocol to enable bidirectional communication between different protocols of the message server (40) and the communication server (50). The method of claim 3, wherein The message server core 44 is a large-scale message transmission system in a wireless communication environment, characterized in that the resident program (Daemon) of an independent Java process (Java Process). The method of claim 3, wherein The message client 32 or the communication server adapter 46 monitors the message queue 60 through periodic polling and receives the message when the message is entered into the message queue 60. Large message transmission system in a wireless communication environment, characterized in that. Requesting a service by sending a message from the message client 32 to the HTTP front 42 of the message server 40 (S402); Performing message delivery from the HTTP front (42) to the message server (40); And Mass message transmission method in a wireless communication environment comprising the step (S406, S408) of sequentially performing the connection generation process and the request message processing in the message server (40). The method of claim 6, The message requested by the message client 32 is a mass message transmission method in a wireless communication environment, characterized in that the route request message.

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