KR0174661B1 - How to manage unsent data between main device and information receiving company in remote safety management system - Google Patents

Abstract

1. The technical field to which the invention described in the claims belongs:

It is a method of managing untransmitted data between main device of remote safety management system and information receiving company.

2. The technical problem to be solved by the invention:

When transmitting data from the main device to the information receiving company in the remote safety management system, the maximum number of retransmissions and unsent data are stored so that the operator can query the statistics of unsent messages.

3. Summary of the solution of the invention:

If there is alarm data to be transmitted from the TSS main unit to the information receiving company, check the line and device status of the information receiving company, and if the line and device status of the information receiving company is not normal, transmit the alarm data to the database. The alarm data is transmitted to the information receiving company when the line and the device of the information receiving company are in a normal state, and when the normal reception response signal is not received after transmitting the alarm data, the alarm is set a predetermined number of times. Data is retransmitted to the information receiving company, and after retransmitting the alarm data for the set number of times, when the abnormal reception response signal is received or there is no response, the retransmitted alarm data is stored in the database.

4. Important uses of the invention

Applied to the transmission data management in the remote safety management system.

Description

A method for managing untransmitted data between a host device and an information receiving company in a remote safety management system.

1 is a block diagram of a conventional remote safety management system.

2 is a structural diagram of a database for storing untransmitted data according to the present invention.

Figure 3 is a flow chart showing the information transmission protocol between the TSS host and the information receiving company according to the present invention.

4 is a transmission information and response message format diagram between a TSS main apparatus and an information receiving company.

5 is a statistical output form of untransmitted data between the TSS main unit and the information receiving company.

6 is an untransmitted data management control flow chart when transmitting information between a TSS main apparatus and an information receiving company according to the present invention.

The present invention relates to a method of managing untransmitted data of a remote safety management system, and in particular, data transmission and reception are normally performed due to noise of a line or a defect of a device so that accurate data can be transmitted and received between a main device and an information receiving company of a remote safety management system. The present invention relates to a method of managing unsent data when not lost.

In general, a remote safety management system connects a multiplexer to a main distribution frame (MDF) of an exchange, and uses a telephone line regardless of the exchange or subscriber's call to use remote meter reading, remote safety management, credit card and check inquiry, and vending machines. Refers to a system that provides a telecommunication service including a management service, etc. This system has a distributed processing structure, has high scalability of the system, and has a node structure to accommodate the system capacity variably. Since it is completely insulated from the circuit network, it is possible to transmit information without interrupting the subscriber's call. In the case of the line multiple access device, it is processed in parallel, so it can simultaneously service up to 128 subscribers.

The above-mentioned remote safety management system uses RS-232C communication method between main device (computer center) and information receiving company, and when the data generated from the information terminal is transmitted to the information receiving company, noise of transmission line or information receiving company By not managing unsent data due to device failure and disregarding unsent data, there is a possibility of dispute between main device and information receiving company.

Accordingly, an object of the present invention is to store the maximum number of retransmissions and untransmitted data when transmitting data from the remote safety management system to the main device and the information receiving company in order to solve the above problems, so that the operator can query the statistical data of the untransmitted message. The present invention provides a method for managing untransmitted data.

Another object of the present invention is to manage untransmitted data due to noise of transmission line or defective device of information receiving company when transmitting data between main device and information receiving company in remote safety system. To provide a data management method.

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

1 is a block diagram of a conventional remote safety management system. The safety terminal 10 transmits sensing data such as gas, crime prevention, disaster prevention, and credit inquiry through a telephone line. Telephone switching center TSS monitoring device 12 may be configured as a conventional voice communication network, the telephone network, and accesses the alarm and inquiry data received through the telephone line from the safety terminal 10 and transmits to the TSS host device (14). The TSS main unit 14 collects information generated from the switching center TSS monitoring unit 12. The information receiving company 16 sends the work command data to the TSS main unit 14, processes the data received from the TSS main unit 14, and services it.

2 is a structural diagram of a database for storing untransmitted data according to the present invention, which is stored as a system key of a remote safety management system.

3 is a flow chart showing the information transmission protocol between the TSS main apparatus and the information receiving company according to the present invention.If NACK or no response occurs even after retransmission up to 3 times from the main apparatus to the information receiving company, the cause of no transmission, time of occurrence, message type, etc. Stores the event in the database and processes the new event.

4 is a format diagram of transmission information and response message between the TSS main apparatus and the information receiving company, and FIG. 5 is a form of statistical data output of untransmitted data between the TSS main apparatus and the information receiving company. And so on.

6 is a flow chart of control of untransmitted data management when transmitting information between a TSS main apparatus and an information receiving company according to the present invention, receiving information transmitted from a safety terminal, and converting the received transmission information into a text message format. And transmitting the converted text message format to an information receiving company, and receiving a response and a command from the information receiving company after transmitting the text message format.

The operation of one preferred embodiment of the present invention will be described in detail with reference to FIGS.

In FIG. 3, the safety terminal 10 transmits the alarm data to the TSS main unit 14 through the telephone exchange TSS monitoring device 12 when alarm data such as gas, crime prevention, disaster prevention, and credit inquiry are generated. At this time, when the alarm data is normally received, the TSS main device 12 transmits a reception response signal ACK to the safety terminal 10. Thereafter, the TSS host device 14 transmits the alarm data received from the safety terminal 10 to the information receiving company 16. At this time, when the information receiving company 16 normally receives the information transmitted from the TSS main unit 14, it sends a response signal ACK to the TSS main unit 14 but fails to receive the information transmitted from the TSS main unit 14 normally. If so, the response signal NACK is sent. At this time, the TSS main unit 14 retransmits the alarm data when the response signal NACK is received.If the information transmission is not performed normally, the TSS main unit 14 retransmits the set number of times, for example, three times, and causes no transmission. It manages daily, weekly and monthly statistics by storing message type and time of occurrence in database.

Manage the unsent data when the transmission and reception is not performed normally due to the noise of the line or the equipment failure of the information receiving company 16 when transmitting alarm data between the TSS main unit 14 and the information receiving company 16 by the above protocol. Referring to FIG. 6, the TSS main unit 14 checks whether alarm data received from the safety terminal 10 exists in step 101 and proceeds to step 106 if alarm data exists. If it does not exist, proceed to step 102. In step 102, the TSS main unit 14 initializes the internal buffer in step 103 when the internal buffer is in full state after the full buffer is checked. However, in step 102, the TSS main unit 14 checks whether the shared memory is empty, and if the shared memory is empty, proceeds to step 105 to copy the data of the shared memory to the internal buffer and returns to step 101. . However, if the shared memory is not empty in step 104, the process proceeds to step 106 to search whether the line and the device of the information receiving company 16 are normal. At this time, if the track and the device of the information receiving company 16 is not normal, the alarm and fault data transmitted in step 107 is stored in the database as shown in FIG. However, if the line and the device of the information receiving company 16 is normal, the flow proceeds to step 108 and the TSS main unit 14 generates a text message converted to the alert transmission message format as shown in FIG. In operation 109, the generated text message is stored in a TEMP buffer. At this time, the TSS main unit 14 transmits the text message data stored in the temp buffer to the information receiving company 16 in step 110. The TSS main unit 14 receives the response signal according to the data reception from the information receiving company 16 after transmitting the text data to the information receiving company 16. The same normal response signal is received, and if it is not received normally, an abnormal reception response signal is received. Therefore, if the normal reception response signal is received in step 111 and the normal reception response signal is received, the flow proceeds to step 112 to process normal communication. However, if an abnormal reception response signal is received in step 111, the process proceeds to step 113. If the TSS main unit 14 checks whether the text message data has been transmitted three times, and if it does not transmit three times, the process proceeds to step 114, and the text message data is transmitted to the information receiving company. Resend to (16). If the text message data is retransmitted three times in step 113, the TSS main unit 14 stores the retransmitted text message data in a database as shown in FIG.

In this way, when the alarm data is not transmitted normally due to the noise of the line or the failure of the equipment of the information receiving company 16 when transmitting the alarm data from the TSS main unit 14 to the information receiving company 16, separately manages the alarm data that could not be transmitted. By outputting as shown in FIG. 5, it is possible to prevent a dispute between the TSS main unit 14 and the information receiving company 16, and there is an advantage of accurately recognizing the state of the transmission message transmission processing.

Claims (4)

A system for remotely processing information by connecting a safety terminal through a communication network and a subscriber line, comprising: checking a line and a device of an information receiving company when there is alarm data to be transmitted from the TSS main unit to the information receiving company; Storing the alarm data to be transmitted in a database when the line and the device of the information receiving company are not in a normal state; and displaying the alarm data when the line and device of the information receiving company are in a normal state. Retransmitting the alarm data to the information receiving company by a set number of times when a normal reception response signal is not received after transmitting the alarm data, and retransmitting the alarm data by the set number of times. When the abnormal reception response signal is received or there is no response, the retransmitted alarm data is used. US data transfer between the host device management method and company information is received from the remote security management system that features constituted by any other process of saving the database. A system for remotely processing information by connecting a safety terminal through a communication network and a subscriber line, the method comprising: receiving information transmitted from the safety terminal, converting the received information into a text message format, and converting the information. Transmitting a text message format to an information receiving company, and receiving a response and a command from the information receiving company after transmitting the text message format. How to manage unsent data between livers. The method of claim 2, wherein the information receiving process comprises: detecting the presence or absence of information and fault data received from the safety terminal, and searching whether the internal buffer is full when the alarm and fault data do not exist. And initializing the internal buffer when the internal buffer is in a full state, and checking whether the shared memory is empty when the internal buffer is not in full state, and storing data in the shared memory in the internal buffer when the shared memory is empty. A method for managing untransmitted data between a host device and an information receiving company in a remote safety management system characterized by a process. The method of claim 3, wherein the message format conversion process comprises: searching for an abnormality of the communication line and the device of the information receiving company when the reception alert and the fault data are present, and the communication line and the device of the information receiving company. Storing the received alarm and fault data in a database at abnormal times, and generating a format of the received alarm and fault data into text message data when the communication line and the device of the information receiving company are in a normal state. A method for managing untransmitted data between a host device and an information receiving company in a remote safety management system.