KR100245161B1 - Method for maintaining data consistency between multiple operator terminals in satellite communication system - Google Patents

Abstract

The present invention manages a satellite communication system having a plurality of operator terminals, the satellite communication system that can maintain the data consistency between the operator terminal with respect to the update (update) made through each operator terminal The present invention relates to a method for maintaining data consistency among multiple operator terminals in a satellite communication system in which a plurality of operator terminals are connected and operated, by comparing a command inputted through an arbitrary operator terminal with a previously registered system change command. UPD instruction screening step for determining whether it is a system change command based on the identity or not, and if it is determined to be the same command as the UPD command registered in the UPD command screening step, the current time counted by the timer is recorded in the memory. Update time recording stage, the earth to execute the input command An operator terminal index for indexing an operator terminal that has been updated at an earlier time point by comparing the time data recorded in the command execution step of executing the command and executing the command and the update time recording step after the command execution with the update time of another operator terminal. And an update step of updating and storing the system information and the update time information of the indexed operator terminal as its own data.

Description

Method of Maintaining Data Consistency among Multiple Operator Terminals in Satellite Communication System

The present invention manages a satellite communication system having a plurality of operator terminals, the satellite communication system that can maintain the data consistency between the operator terminal with respect to the update (update) made through each operator terminal The present invention relates to a method for maintaining data consistency between multiple operator terminals.

When the network operator who manages the satellite communication network needs to control the subordinate base station or the central control station, the M & C (Monitoring & Control) command is transmitted to the earth station through the operator terminal operated as an interface device between the operator and the system. The earth station is to perform the operation according to the M & C command input through the operator terminal, and the result is to send the message back to the operator terminal.

Meanwhile, in the recently developed satellite communication system, a plurality of network managers can be connected to the system individually through their respective operator terminals, thereby enabling a more multiplexed management system in the operation of the satellite communication system. Is a block diagram illustrating a network management and control process of a satellite communication system equipped with a plurality of operator terminals.

In Fig. 1, reference numeral 1 denotes a satellite having a plurality of communication channels, 2 denotes a central control station for controlling the entire satellite communication system, and 3 (3A, 3B) denotes an exchange 11A, 11B or a telephone 12A, 12B. The terminal by interfacing to terminals such as data terminals 13A and 13B and facsimile 14A and 14B, such as a computer, and establishing a call through data communication with the central control station 2. It is a base station that provides a call function.

The configuration of the central control station 2 is as follows.

Reference numeral 10 is an antenna for transmitting / receiving an uplink signal transmitted to the satellite 1 side and a downlink signal transmitted from the satellite, and 20 is an ultra-high frequency received by the antenna 10. RF transmitter / receiver for converting downlink signal of band to intermediate frequency (IF) signal and converting 70MHz band of intermediate frequency (IF) signal to RF signal of ultra high frequency band at the same time for uplink signal, and 30 is 70MHz IF processing stage that processes intermediate frequency (IF) signals in the band.

In addition, reference numeral 40 performs a polling function for checking the status of each base station based on a response message transmitted from the base station after transmitting a control message to each base station through the IF processing unit 30, If there is a call request, the base station determines whether the other base station can communicate based on the information obtained during the polling process. If the communication is possible, the base stations allocate the available traffic channels of the satellite to both base stations. A network control unit that performs system control, such as to directly perform mutual communication.

In addition, reference numeral 50 is a network management system that enables the satellite network operation manager to monitor the overall network operation status and to control the entire satellite system including the base station as needed. Reference numeral 50 is made up of a plurality of terminals 5 _{1 to} 5n so that a plurality of network managers can access the system through their respective terminals to enable individual simultaneous work.

That is, in the conventional satellite system having the above-described configuration, when there is a call setup request from an arbitrary subscriber base station 3, the processor (not shown) inside the network control unit 40 obtains base station information obtained by polling, and Based on the available channel state information, the channel of the requested bandwidth is allocated among the currently available communication channels. In addition, when the network operator needs to update the data in the base station or the central station, or control the operation of some components, one of the plurality of operator terminals 5 _{1 to} 5 _n provided in the network management system 50 is required. The control unit transmits the corresponding M & C (Monitoring & Control) command to the network control unit 40. The network control unit 40 transmits the control command received from the operator terminal to the corresponding earth station through the service channel. By notifying the command input operator terminal side of the control command execution result transmitted from the network management system 50 is provided so that the operator can check the command execution result through the monitor provided in the terminal.

Meanwhile, as described above, among the commands input through the operator terminals 5 _{1 to} 5n, commands related to updating or newly registering and deleting existing system information, that is, system change commands (hereinafter, referred to as UPD commands) are included. If the system information identified by each terminal is different from each other and is different from each other with respect to the data updated through each operator's terminal, the confirmed system information may not be reliable, and great confusion may occur in operating the entire system. There is a problem.

The present invention was created in view of the above-described circumstances, and maintains data consistency between operator terminals in an update made through each operator terminal in a satellite communication system operating a plurality of operator terminals. It is an object of the present invention to provide a method for maintaining data consistency between multiple operator terminals in a satellite communication system.

1 is a block diagram schematically showing the configuration of a conventional satellite communication system having a plurality of operator terminals.

2 is a block diagram showing the configuration of a network management system 500 equipped with a data consistency maintaining function between multiple operator terminals according to an embodiment of the present invention.

FIG. 3 is a flow chart for explaining the operation of the apparatus in the configuration of FIG. 2. FIG.

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

1: satellite 2: central control station

3A, 3B: base station 11A, 11B: switchboard

12A, 12B: Telephone 13A, 13B: Data Terminal

14A, 14B: Facsimile 10: Antenna

20: RF transmitting and receiving terminal 30: IF processing stage

40: network control unit 50,500: network management system

5 ₁ ~5n: an operator terminal 51: an operator terminal

52: processor 53: instruction storage unit

54: input command confirmation unit 55: terminal server

56: Hard Disk Drive (HDD) 57: Magnetic Tape Drive (MTD)

58: UPD instruction storage unit 59: timer

A method of maintaining data consistency between a plurality of operator terminals according to the present invention for realizing the above object, in a satellite communication system in which a plurality of operator terminals are connected and operated, a system change in which a command input through an arbitrary operator terminal is registered in advance. UPD instruction screening step for determining whether it is a system change command based on the sameness or not compared with the command, and the current time counted by the timer if it is determined to be the same command as the UPD instruction registered in this UPD command screening step. Update time recording step of recording the data into a memory, a command execution step of executing the corresponding command by transmitting the input command to the earth station to be executed, and updating the time data recorded in the update time recording step after the command execution with the update time of another operator terminal. Compare runs earlier in comparison An operator terminal indexing step of indexing the operator terminal, and an update step of updating and storing the system information and the update time information of the indexed operator terminal as its own data.

That is, according to the present invention having the above-described configuration, it is possible to maintain data consistency between the operator terminals with respect to updates made through each operator terminal when operating a plurality of operator terminals.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

Figure 2 is a block diagram showing the internal configuration of the network management system 500 is equipped with a data consistency maintenance function between a plurality of operator terminals according to an embodiment of the present invention, since the configuration inside each operator terminal is the same Only one of them (5 ₁ ) will be selected and described.

In FIG. 2, reference numeral 51a denotes a first operator terminal for a network manager to input data necessary for overall system control and management including a base station and to monitor network operation, and 52a denotes the first operator terminal 51a. In accordance with a command input through the) is a processor for controlling the overall system while communicating with the main processor (not shown) in the network control unit 40 through a contracted protocol.

On the other hand, reference numeral 53a is a first command storage unit for storing various commands used in the satellite communication network management system 500 as data, and 54a is the first command storage unit based on the data stored in the first command storage unit 53a. An input command confirming unit 55 which executes a syntax check and a semantic check on a command input through the operator terminal 51a to check whether an input command is in error, and 55 denotes the processor 52a. It is a terminal server of a redundant structure that provides a communication line between the main processors of the network control unit 40.

Also, reference numeral 56a is a first hard disk drive (HDD) for storing data necessary for network operation and system management, and 57a is a calling / receiving subscriber to charge a call fee according to the channel usage for a subscriber communicating through a satellite channel. A first magnetic tape drive (MTD) that stores charging data such as TC (Trunk Code) data and talk time, and reference numeral 58a denotes a first UPD instruction storage unit 59a for storing UPD instructions related to system change as data. Is a first timer that counts a current time according to the control of the first processor 52a.

Next, the operation of the device having the above configuration will be described.

The satellite communication network operation manager monitors the system status including the satellite channel and each base station currently operating through any operator terminal (for example, 5 ₁ ) of the network management system 500, and if necessary, the system through the first operator terminal 51a. When the command is input by the operator, the first processor 52a first controls the first input command checking unit 54a to parse the command input by the operator. By executing (syntax check) and semantic check, it is possible to check the error of the input command. (ST 1 to ST 2)

If an error is detected as a result of checking whether the command input by the operator is unusable in the system, the first processor 52a transmits an error message to the first operator terminal 51. If there is no abnormality as a result of the check, it is determined whether the corresponding input command is a command registered in the first UPD command storage unit 58a. If the UPD command is a UPD command, the current time counted by the first timer 59a is determined as the first. It is recorded in the reserved area of the hard disk drive 56a. (ST 3 to ST 6)

Subsequently, the first processor 52a executes the corresponding command by transmitting the execution message of the corresponding command input by the operator to the network controller 40 through the terminal server 55. When the result message according to the execution of the command is received from the network controller 40 through the terminal server 55, the first processor 52a notifies the first operator terminal 51a of the command execution result. 8, ST 9)

On the other hand, when the notification of the instruction execution result is completed, the first processor 52a then reads out the time data recorded in the hard disk drive HDD of the other terminals 5 _{2 to} 5 n, and has its own hard disk drive ( By comparing the time data recorded at 56a) with the time data recorded at the earlier time point (ST 10), if the time data at the previous time point is found, it is recorded on the corresponding hard disk drive (HDD). By updating the existing system information and time data based on their own data, data matching with the corresponding operator terminal is executed. (ST 11, ST 12)

That is, according to the above embodiment, in a satellite communication system operating a plurality of operator terminals, satellite communication is enabled to maintain data consistency between the operator terminals in an update made through each operator terminal. It is possible to provide a method for maintaining data consistency between multiple operator terminals in a system.

On the other hand, the present invention is not limited to the above embodiments and can be modified in various ways without departing from the technical gist of the present invention.

As described above, according to the present invention, it is possible to maintain data consistency between the operator terminals with respect to an update content made through each operator terminal when operating a plurality of operator terminals.

Claims (1)

In a satellite communication system in which a plurality of operator terminals are connected and operated, A UPD command selection step of comparing the command input through an arbitrary operator terminal with a system change command registered in advance and determining whether the command is a system change command based on its identity; An update time recording step of recording the current time counted by the timer into the memory when it is determined that the same command as the UPD command registered in the UPD command selection step is performed; Command execution step of executing the command by transmitting the input command to the target earth station, An operator terminal index step of indexing an operator terminal that has been updated at a previous point in time by comparing the time data recorded in the update time recording step after execution of the command with an update time of another operator terminal, and And updating and storing the system information and the update time information of the indexed operator's terminal as its own data.

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