KR101133866B1 - Improved signal dual processing system of private security service base - Google Patents

Abstract

The present invention relates to an improved signal redundancy system based on machine expenses, and comprises a signal redundancy structure (line, board, and power supply) in a redundancy structure, and clears the receiving buffer of the transferred board to prevent signal duplication. In order to ensure stable signal reception, each redundant board receives a signal, and when the board is switched, a temporary log file is generated and the received signal is rearranged and repaired to prevent signal loss. The purpose is to provide a signal redundancy system.
According to the present invention, the reliability of the system can be secured through the temporary power charged in the battery even when the AC power is cut off due to power redundancy, and stable data transmission and reception can be made even in the event of an abnormality of any one line through the line redundancy, Through board duplication, stable data transmission and reception can be achieved in any one or more boards, and in particular, a signal transmission reliability can be further secured because signal omission or duplication is prevented during board transfer processing.

Description

IMPROVED SIGNAL DUAL PROCESSING SYSTEM OF PRIVATE SECURITY SERVICE BASE}

The present invention relates to an improved signal redundancy system based on machine expenses, and more particularly, to configure a signal transmission / reception structure (line, board, and power supply) in a redundancy structure, and to prevent signal duplication by clearing the reception buffer of the transferred board. In order to ensure stable signal reception, all redundant boards receive the signals, and when switching boards, temporary log files are generated, and the received signals can be rearranged and repaired to prevent signal loss. The present invention relates to an improved signal redundancy system.

As is well known, due to the recent development of information communication technology, development of information providing technology for providing information on various fields via a long distance data communication network to a plurality of subscribers through at least one host server is actively underway.

Based on this, in recent years, information selection technology and compression technology are being developed to more easily access peripheral technologies such as cache memory expansion technology to provide accurate information to subscribers more quickly and subscribers' tastes and preferences. It is also accelerating the development of various contents and its solutions.

On the other hand, the accumulation of wealth in the capitalist society created a gap between the rich and the poor, while the rich made efforts to protect the lives and property of individuals and families, while the poor became a society striving to accumulate wealth itself. Therefore, various private security guard companies have been in recent years to reflect the maturity of the capitalist society.

In addition, these private security guard companies have been able to build an unmanned security guard system thanks to the recent development of electronic communication technology, and can receive security signals from various intrusion detection sensors remotely in the unattended security standby state to dispatch security personnel. It became possible.

Therefore, smooth and fast signal processing between subscriber host and control center is very important factor in the recent machine expense base.

1 is a block diagram illustrating a signal security system based on a machine expense according to a conventional embodiment.

Referring to this, past signal expense-based signal unification system is a system for transmitting and receiving a signal through a single signal line from the subscriber host device 2 to the control server 16, where the signal line is a line and a signal transmission module ( 8) are all included.

More specifically, in the conventional system for signal expense based signal unification, the subscriber main unit 2 has a power supply module 4, a lower connection device 6, a signal transmission module 8, and a DSU (10: Digital Service Unit). This series structure is comprised.

In addition, in the conventional machine expense-based signal unification system, the control server 16 to which the plurality of subscriber host devices 2 are connected is configured, and the front end thereof is a digital service unit (DSU) 10 and a terminal server 14. ) Has a serial structure.

The power supply module 4 configured in the subscriber main unit 2 is provided with a converter (not shown) for receiving AC power and converting it into DC, and the DC power is supplied to the lower connection equipment 6 and the signal transmission module. The terminal server 14 provided on the control server 16 side is provided for communication connection with a plurality of subscriber host devices 2.

The DSU (Digital Service Unit) 12, which is provided at the subscriber host device 2 and the control server 16, is a device provided for remote signal transmission and reception. It is equipment.

However, in the above-described conventional system for signal-based signal security, the control server 16 and the subscriber main unit 2 are connected through a single line, so in the event of a failure, the technical personnel should be dispatched to take on-site action, and the remote signal. Since expensive DSUs (10, 12) must be configured for transmission and reception, when an abnormality occurs in a line, an agent should be dispatched to take on-site action, and there is a problem that service is not available until the action is completed.

This is not limited to non-line circuits, and in the event that a failure occurs in the signal transmission module 8 (configured on a single board) due to the unification of the signal transmission module 8 as well, a direct agent is dispatched to take field action. There was a problem that the service was not available until the action was completed because it had to be taken.

In addition, the conventional machine expense-based signal unification system is a power supply module (4) for supplying power to the signal transmission module (8) or subordinate connection equipment (6) also has a unified structure, so that the power supply module ( If a failure occurred in 4), there was a problem that service could not be performed until the action was completed because the personnel had to be dispatched to take on-site measures.

Therefore, in recent years, in order to solve the above problems, a redundancy system such as the following structure has been introduced.

2 is a diagram illustrating a machine expense-based signal duplication system according to another exemplary embodiment of the prior art.

Referring to this, the signal security system based on the machine expense according to another embodiment of the present invention is a system in which all the components of the unification system shown in FIG. The board consists of a duplex consisting of the main board 20 and the sub-board 20 '.

Therefore, the signal security system based on a machine expense according to another embodiment of the prior art first checks whether the main board 20 is alive in an active state in transmitting and receiving signals between the control server 16 and the main board 20. It checks from time to time, and if it fails more than a predetermined number of times, it is determined to be in a fail state and automatically switches to the subboard 20 'in the standby state. Therefore, the main board 20 in which the board transfer is performed can no longer receive and process the Rx signal.

However, a signal expense system based on a machine expense according to another conventional embodiment has two problems.

That is, according to another conventional security guard based signal duplication system according to another embodiment, if the board switching is made during signal reception in one board, the signal is cut off in the receiving buffer, there is a problem that the signal is missing, the board switching is made At this time, since the signal comparison is not performed for each board 20 and 20 ', signals may overlap.

That is, since the board switching device included in the signal security system based on the above-described conventional security guard is merely a switchover by a relay, there is a problem that no processing for redundancy and omission of signals is performed. there was.

Duplicates and omissions on signals are very serious errors in security equipment, so prompt action is required.

The present invention has been made in view of the above-described circumstances of the prior art, and the signal transmission / reception structure (line, board, and power supply) is configured in a redundant structure, and signal duplication can be prevented by clearing the reception buffer of the transferred board. Improved signal based on machine expense to ensure that each redundant board receives signals for stable signal reception, and to prevent signal omission by generating temporary log files and performing reordering and recovery of received signals when switching boards The purpose is to provide a redundant system.

In order to achieve the above object, according to a preferred embodiment of the present invention, in a signal redundancy system of a subscriber main device for transmitting and receiving a machine expense related signal to a control server, the subscriber claim is a dual structure of the circuit structure for the control server; A circuit redundancy unit configured to switch the circuit through a line check between the duplication board and the control server at regular intervals; A duplex board configured of a duplex receiving structure for received data, automatically switching to a main board and a sub board according to a board state, and performing a synchronization process for preventing a signal omission; Provided is an improved signal redundancy system based on machine expense, comprising a redundancy signal processor for controlling board switching and circuit switching of the redundancy board, and a process for preventing signal duplication or omission during board switching.

Preferably, the subscriber claim value is a first power supply module for supplying DC power to the redundant board and the lower connection equipment by receiving AC power therein; Each of the power supply is mounted on the redundancy board, and is composed of a second power supply module for supplying DC power to the battery configured in the redundancy board by receiving DC power from the first power supply module and simultaneously receiving external AC power. Provided is an improved signal redundancy system based on machine expenses, characterized in that the redundancy is further included.

Preferably, the circuit redundancy comprises: each circuit connecting the main board and the sub board to the control server, respectively; A VPN configured on each line respectively; An xDSL modem configured on each VPN to perform individual communication with the control server; In order to check the abnormality of each line, an improved signal redundancy system based on the machine expense, characterized in that it consists of a line check unit for transmitting a check signal to the control server at regular intervals and receiving the return signal to determine whether there is a line abnormality. Is provided.

Preferably, the redundant board includes a receiving unit for receiving data from the control server for each board; A transmission unit for transmitting data to the control server; A synchronization processor for synchronizing a received signal of a counterpart board when a signal reception fails; Provided is an improved signal redundancy system based on a machine guard, comprising a data deletion processing unit for deleting received data of a board in standby state after board transfer.

Preferably, the redundant signal processing unit checks each line and board state of the redundant line and the redundant board to generate a switching control signal for each line and the board, and deletes the control signal for the data on the standby board after the transfer of each board. A board switching control unit for generating a; Provided is an improved signal redundancy system based on machine expense, comprising a switching unit for switching each circuit and board.

Machine signal-based improved signal duplication system according to the present invention can ensure the reliability of the system through the temporary power charged in the battery even when the AC power is cut off due to power redundancy, even in the event of an abnormality of any one line through the line duplication Stable data transmission and reception can be made, and through board duplication, stable data transmission and reception can be performed at any one board abnormality, and in particular, a signal transmission reliability can be further secured by preventing the omission or duplication of signals during board transfer processing. have.

1 is a block diagram showing a machine expense based signal unification system according to a conventional embodiment;
2 is a diagram illustrating a machine expense-based signal duplication system according to another exemplary embodiment of the prior art;
3 is a block diagram schematically showing the configuration of an improved signal redundancy system based on a machine expense according to an embodiment of the present invention;
4 is a block diagram illustrating a power multiplexer included in an improved signal redundancy system based on a machine expense according to an embodiment of the present invention;
5 is a block diagram showing in detail the configuration of the machine-based security signal redundancy system according to an embodiment of the present invention;
6 is a state diagram illustrating a signal processing structure of an improved signal redundancy system based on a machine expense according to an embodiment of the present invention.

EMBODIMENT OF THE INVENTION Hereinafter, this invention is demonstrated in detail with reference to drawings.

Figure 3 is a block diagram schematically showing the configuration of the improved machine-based signal redundancy system according to an embodiment of the present invention, Figure 4 is an improved signal redundancy system based on the machine expense according to an embodiment of the present invention Figure 5 is a block diagram showing a power multiplexer included in, Figure 5 is a block diagram showing in detail the configuration of the improved signal redundancy system based on the machine expense according to an embodiment of the present invention.

Referring to this, an improved signal redundancy system based on a machine expense according to an embodiment of the present invention comprises a signal transmission / reception structure (line, board, and power supply) in a redundancy structure, and clears the reception buffer of the transferred board to signal It is possible to prevent duplication, and to ensure that each redundant board receives a signal for stable signal reception, and to prevent a signal drop by creating a temporary log file and performing reordering and recovery of received signals when switching boards. System.

More specifically, the improved signal redundancy system based on the machine guard according to an embodiment of the present invention has a redundant power supply structure, a redundant circuit structure, and a board having a redundant structure, in particular, a signal when switching a board. It is characteristic that the processing can be performed to prevent duplication or omission.

To this end, the subscriber main device 30 configured in the improved signal redundancy system based on the machine expense according to an embodiment of the present invention arranges the circuit structure for the control server 16 in a dual structure, and at a predetermined time period, the redundant board ( The circuit redundancy unit 40 is provided with circuit switching through circuit checking between the circuit 50 and the control server 16.

In addition, the subscriber host device 30 configured in the improved machine-based signal redundancy system according to an embodiment of the present invention is configured with a redundant receiving structure for received data, and the main board 52 and the sub-board according to the board state. A redundancy board 50 for automatic switching to 52 'and performing synchronization processing to prevent signal loss; Board redundancy control and circuit switching of the redundant board 50, the redundant signal processing unit for controlling the processing to prevent the signal overlap or omission during switching.

On the other hand, the subscriber main device 30 includes a first power supply module 4 for supplying DC power to the redundant board 50 and the lower connection equipment 6 by receiving AC power therein; Each of which is mounted on the redundancy board 50, receives DC power from the first power supply module 4, and receives external AC power at the same time, thereby supplying DC power to the battery 58 configured in the redundancy board 50. It further includes a power redundancy composed of a second power supply module 56 for supplying the.

The circuit redundancy unit here includes: a plurality of lines 46 and 48 connecting the main board 52 and the sub board 52 'to the control server 16, respectively; VPNs 44 respectively configured on the circuits 46 and 48; An xDSL modem 42 configured on each VPN 44 to perform individual communication with the control server 16 is included. The VPN 44 is a network called a virtual private network. For example, the public network infrastructure is a well-known network that uses tunneling protocols and security procedures to increase reliability while lowering the use cost. Since the xDSL modem 42 is also a known modem, detailed description thereof will be omitted.

In addition, the circuit redundancy section transmits a check signal to the control server 16 at regular intervals to check for abnormalities of the respective lines 46 and 48, and receives the return signal to determine whether there is a circuit abnormality. (60,60 '). At this time, the line check unit 60, 60 'is for checking the state of the line 46, 48 connected to each of the main board 52 and the sub-board 52' configured in the redundant board 50, A line switching unit (not shown) for switching to a line without abnormality is included.

On the other hand, the redundant board 50 includes a receiving unit (62,62 ') for receiving data from the control server 16 for each board (main board and sub-board: 52, 52'); A transmission unit 68, 68 'for transmitting data to the control server 16; A synchronization processor (64, 64 ') for synchronizing the received signal of the counterpart board when the signal reception fails; And a data deletion processing unit (66, 66 ') for deleting the received data of the board in standby state after board transfer.

In summary, the improved signal redundancy system based on the machine expense according to an embodiment of the present invention is a signal by pre-synchronizing the signal between the main board 52 and the sub-board 52 'each having the same configuration, and then deleting the signal. It is to prevent the omission and duplication of.

That is, the main board 52 and the sub-board 52 'both receive a signal from the control server 16, and the main board 52 receives the signal from the main board 52 when the signal is normally activated. The received signal received by the board 52 is processed, and the received signal received by the subboard 52 'is ignored.

In this state, when the main board 52 fails to receive a signal a predetermined number of times, the main board 52 performs signal synchronization with the sub board 52 'and is transferred to a ready state. Process the board 52 'to be activated. This prevents signal dropout.

In addition, the sub-board 52 'may be configured to compare the received signal received from the main board 52 to delete the duplicated data, thereby preventing signal duplication.

On the other hand, the redundant signal processing unit checks the state of each line 46, 48 and board 52, 52 'of the redundant line and the redundant board 50 to generate a switching control signal for each line and board, each board A board transfer control unit (72) for generating a delete processing control signal for the data on the standby board after the transfer; It consists of a switching unit 70 for switching each line and board.

With reference to the accompanying drawings, the function and operation of the improved signal redundancy system based on the machine guard according to an embodiment of the present invention of the above configuration will be described in detail.

6 is a state diagram illustrating a signal processing structure of an improved signal redundancy system based on a machine expense according to an embodiment of the present invention.

First, the subscriber host device 30 included in the improved system for signal redundancy based on the security guard according to an embodiment of the present invention has a redundancy signal processing structure. First, the circuits 46 and 48 having the redundancy structure are checked. The failure state is determined. That is, it is possible to determine whether there is an abnormality in each of the lines 46 and 48 by transmitting the check signal to the control server 16 and receiving the return signal.

In the event of a circuit abnormality, switching processing is performed on a circuit which is not abnormal, so that reliability and high speed signal recovery are possible.

In addition, the redundant board 50 included in the subscriber host device 30 receives a signal for the reception signal Rx-S, but the processing of the reception signal is configured to perform only an active board. have.

In addition, the redundant board 50 included in the subscriber main device 30 has a structure that can prevent the omission and duplication of signals, and more specifically, the main board 52 and the sub-board 52 'are both. Receiving a signal from the control server 16, if the main board 52 receives the signal is a normal active state (Active), and performs processing for the corresponding received signal received from the main board 52, The received signal received by the subboard 52 'is ignored.

In this state, when the main board 52 fails to receive the signal a predetermined number of times, the main board 52 attempts to synchronize the signal with the sub board 52 '. That is, the main board 52 notifies the subboard 52 'of the execution of the Rx processor, and the subboard 52' drives the Rx processor to store temporary log data.

The subboard 52 'compares temporary log data with backup data, removes common data, generates new backup data, and stores the backup data in a log file.

Next, the subboard 52 'is switched to an activated state.

In this way, the system of the present invention prevents signal omission, and the subboard 52 ′ compares the received signal received from the main board 52 and deletes duplicate data to prevent signal duplication. do.

On the other hand, the improved signal redundancy system based on the machine expense according to the embodiment of the present invention is not limited to the above embodiments, but various modifications can be made without departing from the technical gist of the invention.

16: control server, 30: subscriber main unit,
46,48: line, 50: redundancy board,
52: Main board, 52 ': Subboard,
60: line checker, 62: receiver,
64: synchronization processing unit, 66: data deletion processing unit,
68: transmission unit, 70: switching unit,
72: board switching control unit.

Claims (5)

In the signal redundancy system of the subscriber host device for transmitting and receiving the machine security related signal to the control server,
The subscriber claim value is a circuit redundancy unit for arranging a circuit structure for the control server in a dual structure, and circuit switching is performed by checking a line between the duplication board and the control server at regular intervals;
A duplex board configured of a duplex receiving structure for received data, automatically switching to a main board and a sub board according to a board state, and performing a synchronization process for preventing a signal omission;
Machine redundancy-based improved signal redundancy system comprising a redundant signal processing unit for controlling the switching of the board and the circuit switching of the redundant board, the process for preventing signal overlap or omission during the board switching. 2. The apparatus of claim 1, wherein the claim of the subscriber comprises: a first power supply module for supplying DC power to the redundant board and the lower connection device by receiving AC power therein;
Each of the power supply is mounted on the redundancy board, and is composed of a second power supply module for supplying DC power to the battery configured in the redundancy board by receiving DC power from the first power supply module and simultaneously receiving external AC power. Mechanical expense-based improved signal redundancy system, characterized in that the redundant portion further included. According to claim 1, The line redundancy unit,
Circuits for connecting the main board and the sub board to the control server, respectively;
A VPN configured on each line respectively;
An xDSL modem configured on each VPN to perform individual communication with the control server;
Machine monitoring-based improved signal redundancy system, characterized in that it consists of a circuit check unit for transmitting a check signal to the control server at regular intervals to check the abnormality of each line, and receiving the return signal to determine whether there is a circuit abnormality. According to claim 1, wherein the redundant board for each board,
Receiving unit for receiving data from the control server;
A transmission unit for transmitting data to the control server;
A synchronization processor for synchronizing a received signal of a counterpart board when a signal reception fails;
Machine expense-based improved signal redundancy system, characterized in that consisting of a data deletion processing unit for deleting the received data of the board in the standby state after board transfer. The method of claim 1, wherein the redundant signal processing unit,
A board switching controller which checks each line and board state of the redundant line and the redundant board and generates a switching control signal for each line and the board, and generates a deletion processing control signal for the data on the standby board after the transfer of each board;
Improved signal redundancy system based on the machine guard, characterized in that consisting of a switching unit for switching each line and board.

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