KR100208947B1 - Administration method of obstacle data for unmanned anti-crime terminal in remote safe adminstration system - Google Patents

Abstract

end. TECHNICAL FIELD The present invention belongs to the claims. The present invention effectively manages fault data of an unmanned security terminal in a Telemetering Security System (TSS) main device of a Unix system (OS) environment, and also It relates to a method for quickly identifying the malicious subscribers.

I. The technical problem to be solved by the present invention: The conventional main unit and the relevant jurisdiction do not specify the management method and statistical function of the failure and alarm data of the terminal, it is impossible to prompt service in case of failure of the terminal, There was a problem that accurate statistics were not possible.

All. Summary of the Invention The present invention for solving the above problems is to send a message from the main unit of the remote safety management system to the relevant jurisdiction, and then store alarm and fault data in the main unit, and manage the user's fault history. It is characterized by providing a method for determining the malicious subscribers due to the failure to enable the query.

la. Significant use of the invention: A method for managing fault data of an unmanned security terminal in a remote safety management system.

Description

How to manage fault data of unmanned security terminal in remote safety management system

The present invention effectively manages the failure data of the unmanned security terminal in the Telemetering Security System (TSS) main device of the Unix system (OS) environment, and also in a method for quickly identifying malicious subscribers due to operator failures. It is about.

In general, the remote safety management system connects the multiplexer to the main distribution frame (MDF) of the exchange and manages remote meter reading, remote safety management, credit card and vending machine using the telephone line regardless of the exchange or subscriber's call. Refers to a system that provides telecommunication services, including services. Therefore, the present system has a distributed processing structure so that the system is scalable, and the node structure can accommodate the system capacity variably. In addition, the system is completely insulated from the telephone line network so that information can be transmitted without interrupting the subscriber's call. In the case of the line multiple access device, the system is processed in parallel to simultaneously service up to 128 subscribers.

Such an unmanned crime prevention terminal of the remote safety management system is installed in the premises, and detects various alarms occurring in each premises to transmit alarm data to the corresponding jurisdiction through the asserted value of the system.

However, the above-described conventional main device and the corresponding jurisdiction do not define the management method and statistical function of the failure and alarm data of the terminal, so that the service is not possible quickly in case of the failure of the terminal, and the accurate statistics of the alarm and the failure of each unattended subscriber are impossible. There was a problem.

Accordingly, an object of the present invention is to transmit a message from the main unit of the remote safety management system to the relevant jurisdiction, store alarm and fault data in the main unit, and allow the operator to inquire the subscriber's fault details so that the malicious subscriber may be It is to provide a method for determining.

The present invention for achieving the above object is in the failure data management method of the unmanned security terminal in the remote safety management system; The first process of transmitting the failure and alarm data received to the relevant jurisdiction, and storing it in the internal database when the failure and alarm data generated from the unmanned crime prevention terminal is transmitted, and the unmanned crime transmitted from the relevant jurisdiction. When there is a request for the inquiry of the fault and alarm data of the terminal, it reads the contents stored in the internal database, counts the faults of the same kind among the stored contents, and transmits the statistical data to the relevant jurisdiction. It is done.

1 is a block diagram of a remote safety management system applied to the present invention.

2 is a table of a database storing alarm and failure data of an unmanned crime prevention terminal according to an embodiment of the present invention.

3 is a table illustrating a message format of an unmanned crime prevention terminal transmitted from a mobile device to a corresponding jurisdiction according to an embodiment of the present invention.

4 is a view showing a statistical data output form for the failure of the unmanned crime prevention terminal according to an embodiment of the present invention.

Figure 5 is a flow chart for transmitting the message from the main device of the remote safety management system according to an embodiment of the present invention to store the alarm and failure data, and to allow the operator to query the failure history for each subscriber.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In describing the present invention, if it is determined that detailed descriptions of related known functions or configurations may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

1 is a block diagram of a remote safety management system applied to the present invention. Referring to FIG. 1, the remote safety management monitoring device 10 of the exchanger connects a plurality of security terminals 1 to n to transmit alarm and fault data generated from each security terminal between the main devices 20 of the remote safety management system. Switch to transmit over the dedicated leased line. The main device 20 of the remote safety management system receives the transmitted alarm and fault data, stores the data in an internal database, and transmits a message according to a protocol defined between the corresponding jurisdictions. When there is a request for inquiry of the fault history, data on the malicious terminal such as the statistics of the safety terminal and the occurrence frequency of the fault history are output.

As a result, when an alarm or a fault message is generated from any one of the plurality of security terminals 1 to n, the remote safety management monitoring device 10 of the exchanger → the main device 20 of the remote safety management system goes to the relevant jurisdiction. Generates the alarm and stores the alarm and fault message in the internal database of the main device 20 of the system, and generates statistics and faults of the safety terminal when a request for the inquiry of the operator's security terminal status from the relevant jurisdiction subsequently. Outputs data on malicious terminals such as the number of times.

At this time, the main device 20 of the remote safety management system receives the alarm and fault data, and stores each variable and the memory capacity occupied by the variable in an internal database in a format as shown in FIG. 2. In this case, the meanings of the variables written in the format of FIG. 2 are as follows. LCSNR (LCS number) is the system number accommodated by the main unit 20 of the remote safety management system, WID (Working Identifer) is the work identification code of the remote safety management system 20, CID (Company Identifer) identification jurisdiction Number, LCUN (LCU number) LCU board number, COUPN (Coupler Number) security terminal number, FID (Fail Identifier) is the failure identification number of the remote safety management system 20, STIME (Start Time) is Failure search start time, LTIME (Last Time) is failure search end time, NODENR (Node Number) is the node number of the remote safety management system 20, GID (Group Identifier) of the remote safety management system 20 The service identification number, LCCN (LCC Number) is the sequence number of the LCC board of the remote safety management system 20, USERID (User Identifier) is the unique identification number of the method terminal, SNAR (Start Day) is the search start date, LNAR (Last Day) indicates the end of search.

The main device 20 of the remote safety management system transmits an alarm message of an unmanned crime prevention terminal to a corresponding jurisdiction in the format shown in FIG. 3, and receives an alarm response message from the corresponding jurisdiction. At this time, the main device 20 of the remote safety management system stores the transmission message and uses the statistical data and data to determine the malicious subscriber of the security terminal. Therefore, the meaning of the table of FIG. 3 is as shown in Tables 1a and b below.

Table 1a

Table 1b

For example, only one matter described in Tables 1a and b will be described. In the first line, if FID 0 and DAT is 2 days, the security terminals are in an emergency state.

Finally, when there is a request for inquiring of the security terminal status error from the relevant jurisdiction, the main device 20 of the remote safety management system has the subscriber's telephone number, the number of failures, the failure history, the message type, the start date in the format of FIG. Hour, end date and time.

Hereinafter, the control flow of the present invention as shown in FIG. 5 will be described in detail with reference to the block diagram of FIG. 1 and the data format of FIGS. 2 to 4 attached to the present invention. This control flowchart is a control flow chart performed by the control unit in the main device 20 of the remote safety management system, and the description will be given centering on the control unit.

First, in step 502, the control unit in the main device 20 of the remote safety management system checks the state of the internal buffer and the shared memory to be in an initial state. Then, in step 504, the control unit in the main device 20 of the remote safety management system detects whether any one of the plurality of security terminals 1 to n transmits fault and alarm data generated from the security terminal. At this time, when there is a transmission of the failure and alarm data generated from the security terminal in step 506, the control unit in the main device 20 of the remote safety management system receives the failure and alarm data of the received security terminal to the corresponding jurisdiction of the rear end. send. Then, in step 508, the control unit in the main device 20 of the remote safety management system stores the fault and alarm data of the security terminal transmitted to the relevant jurisdiction in the internal database. Then, the control unit in the main device 20 of the remote safety management system detects whether there is a failure history inquiry request from the relevant jurisdiction in step 510 to 512, and when the inquiry request is sent, the search condition transmitted from the corresponding jurisdiction department. After receiving the value, temporarily store it in the internal transfer buffer. Then, in steps 514 to 516, the control unit in the main device 20 of the remote safety management system opens an internal database, reads the fault corresponding to the received search condition value, and counts the number of occurrences. Then, the control unit in the main device 20 of the remote safety management system performs step 518 to compare the preset number of failures and the currently counted value. At this time, when the current counted value is greater than or equal to the set number of failures, the control unit in the main device 20 of the remote safety management system determines that the corresponding security terminal is a malicious subscriber for the item corresponding to the search condition value in step 520. Recognizing that, and transmits the statistical data in the format as shown in Figure 4 to the corresponding security terminal to the relevant jurisdiction and terminates the program. However, when the current counted value is smaller than the set number of failures in step 518, the controller in the main device 20 of the remote safety management system recognizes that the corresponding security terminal is a good subscriber for the item corresponding to the search condition value. Only the security terminal good message is sent and the format program is terminated.

The present invention as described above has the advantage that the operator can query the statistical data of the failure message by storing the failure data of the unmanned security terminal in the main device of the remote safety management system, and also the unmanned service in the remote safety management system Even in the case of the failure of the security terminal, there is an effective advantage in terms of managing the fault data to prevent disputes with the subscriber.

Claims (1)

In the failure data management method of the unmanned security terminal in the remote safety management system, A first process of transmitting a failure and alarm data received to a relevant jurisdiction and storing it in an internal database when the failure and alarm data generated from the unmanned crime prevention terminal are transmitted; When there is a request for the inquiry of the fault and alarm data of the unmanned crime prevention terminal transmitted from the relevant jurisdiction, the contents stored in the internal database are read, and the statistical data is counted by counting the faults of the same kind among the stored contents. Disability data management method of the unmanned security terminal in the remote safety management system, characterized in that the process of transmitting to the department,

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