JP2003125390A - Communication system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a communication system in which the constitution of a multiplexer is simplified when communications between a plurality of camera side units and communication equipment are performed via a multiplexer. SOLUTION: The multiplexer comprises a selector which inputs a signal sent from each camera side unit via each image signal transmission cable, a plurality of trigger signal detecting means provided at the respective camera side units to detect the trigger signals superposed on the image signals sent via respective image signal transmission cables, a means for controlling the selector to select and output the signal from the camera side unit which sends the trigger signal of a plurality of signals input to the selector when the trigger signal is detected by the trigger signal detecting means, and a means for extracting and sending communication data from the signal output from the selector to a communication control line.

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a communication system. 2. Description of the Related Art As a surveillance camera system, as shown in FIG. 4, a plurality of surveillance cameras 1_1 to 1_m, a plurality of spot monitors 2_1 to 2_4, a multiplexer 3 for switching the connection between the surveillance cameras 1 and 2 are provided. And a plurality of controllers 4_1 to 4_4 are known. Each of the monitoring cameras 1_1 to 1_m and the multiplexer 3 are connected to a coaxial cable (video signal transmission cable) 6
Connected by Each controller 4_1 to 4_
4 is a multiplexer 3 and each monitoring camera 1_1 to 1
—M is connected to a communication control line 5 based on RS-485 (EIA6485 standard). Each of the monitoring cameras 1_1 to 1_m, the multiplexer 3, and each of the controllers 4_1 to 4_4 are provided with an individual address (ID). The setting of the address is performed by, for example, a dip switch provided in each device. Each of the controllers 4_1 to 4_4 transmits a command including the address of the device to be controlled and the control content to the communication control line 5 of the RS-485,
The device with the specified address is controlled. In such a surveillance system, each controller 4_1 to 4_4 and each surveillance camera 1_1 to 1_m
Is connected to each controller 4 without connecting them with a communication control line.
It is conceivable that communication between the monitoring cameras 1_1 to 4_4 and the respective monitoring cameras 1_1 to 1_m is performed via the multiplexer 3. That is, by superimposing communication data on the video signal transmitted to the coaxial cable 6 connecting the multiplexer 3 and each of the monitoring cameras 1_1 to 1_m, each controller 4_1 to 4_4 and each monitoring camera 1_m are superimposed.
Communication with the communication terminals 1 to 1 — m is performed via the multiplexer 3. However, a plurality of surveillance cameras 1_1 to 1_1
In order to transmit the communication data from 1_m to the communication control line via the multiplexer 3, a circuit for extracting the communication data from each monitoring camera from the video signal needs to be provided in the multiplexer 3 for each monitoring camera. There is
There is a problem that the configuration of the multiplexer 3 is complicated. SUMMARY OF THE INVENTION An object of the present invention is to provide a communication system in which the structure of a multiplexer is simplified when communication between a plurality of camera devices and communication equipment is performed via the multiplexer. With the goal. A communication system according to the present invention includes a multiplexer, a plurality of camera-side devices connected to the multiplexer via a video signal transmission cable, and a communication control line connected to the multiplexer. In a communication system in which communication data is superimposed and transmitted during a vertical blanking period of a video signal between each camera-side device and the multiplexer, the camera-side device transmits the communication data. In this case, a means for superimposing a trigger signal in a horizontal period before a horizontal period in which communication data is superimposed is provided, and the multiplexer is transmitted from each camera-side device via each video signal transmission cable. Selector to which signals are input, provided for each camera-side device, and sent via each video signal transmission cable A plurality of trigger signal detecting means for detecting a trigger signal superimposed on the video signal, and when the trigger signal is detected by the trigger signal detecting means, the trigger signal is transmitted among a plurality of signals input to the selector. It is characterized by comprising means for controlling the selector so as to select and output a signal from the camera-side device, and means for extracting communication data from the signal output from the selector and sending the communication data to a communication control line. And Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 shows the configuration of a surveillance camera system. The surveillance camera system includes a plurality of surveillance cameras 1_1 to 1_m and a plurality of spot monitors 2_1 to 2_m.
4, a multiplexer 3 for switching the connection between the monitoring camera 1 and the monitor 2, and a plurality of controllers 4_1 to 4_
4 is provided. Each of the monitoring cameras 1_1 to 1_m and the multiplexer 3 are connected to a coaxial cable (video signal transmission cable) 6
Connected by Each controller 4_1 to 4_
4 provides RS-485 (EIA648) to multiplexer 3.
5 standards). Each of the monitoring cameras 1_1 to 1_m, the multiplexer 3, and each of the controllers 4_1 to 4_4 are assigned an individual address (ID). Each of the controllers 4_1 to 4_4 transmits a command including the address of the surveillance camera to be controlled and the control contents to the communication control line 5 of the RS-485, whereby the surveillance camera having the designated address is controlled. You. Communication data from an arbitrary controller to a predetermined surveillance camera is transmitted to each of the surveillance cameras 1_1 to 1_1 via a communication control line 5, a multiplexer 3, and a coaxial cable 6.
1_m. When the address of the monitoring camera included in the received command is its own address, each of the monitoring cameras 1_1 to 1_m performs an operation according to the control content included in the received command. Communication data from an arbitrary surveillance camera to a predetermined controller is also sent to each of the controllers 4_1 to 4_4 via the coaxial cable 6, the multiplexer 3, and the communication control line 5. FIG. 2 shows the configuration of the communication control unit provided in the multiplexer 3. The communication control section provided in the multiplexer 3 includes a microcomputer 10 and an FPGA 20. The microcomputer 10 is connected to the communication control line 5. The FPGA 20 includes the monitoring cameras 1_1 to 1_m
Via a coaxial cable 6. Microcomputer 1
0 and the FPGA 20 are connected by communication cables 31 and 32. The FPGA 20 includes each of the monitoring cameras 1_1 to 1_1.
_M provided for communication data superimposing sections 21_1 to 21_1
21_m, trigger detection units 22_1 to 22_m provided corresponding to the respective monitoring cameras 1_1 to 1_m, selector 2
3, a first register 24 and a second register 25 are provided. Each input terminal of the selector 23 is connected to each coaxial cable 6. The output terminal of the selector 23 is
The microcomputer 10 is connected via a communication cable 31. The output terminals of the communication data superimposing units 21_1 to 21_m and the input terminals of the trigger detection units 22_1 to 22_m are connected to the coaxial cable 6 to which the corresponding monitoring cameras 1_1 to 1_m are connected. Trigger detector 2
The trigger detection signals 2_1 to 22 — m are input to the selector 23 as a selection control signal, and
Is also sent to the corresponding input terminal. A first register 24 and a second register 25 are connected to input terminals of the communication data superimposing sections 21_1 to 21_m. The first register 24 and the second
The register 25 is connected to the microcomputer 10 via a communication cable 32. FIG. 3 shows communication data superimposed on the video signal. The horizontal lines (horizontal periods) "10", "12" and "13" in the vertical blanking period of the video signal.
Is used to send communication data from the monitoring camera to the multiplexer 3 side. That is, when communication data is sent from the surveillance camera to the multiplexer 3, the high-level trigger signal TS is superimposed on the horizontal line "10". Further, communication data Da1 and Da2 of 1 byte in total are superimposed on the horizontal lines “12” and “13”. Therefore, although not shown, each of the monitoring cameras 1_1 to 1_m has a circuit for superimposing the communication data on the video signal, and when transmitting the communication data, the communication data in the video signal is superimposed. A horizontal line before the horizontal line (horizontal line “10” in this example)
A circuit for superimposing a trigger signal is provided. Also,
Each of the monitoring cameras 1_1 to 1_m also includes a circuit for extracting the communication data sent from the multiplexer 3 from the video signal. The horizontal lines "16" and "17" in the vertical blanking period of the video signal are used for transmitting communication data from the multiplexer 3 to the surveillance camera.
That is, when transmitting communication data from the multiplexer 3 side to the surveillance camera side, the communication lines Db1 and Db of 1 byte in total are added to the horizontal lines “16” and “17” of the video signal.
2 are superimposed. Since the communication data is usually composed of a plurality of bytes, the communication data is transmitted over a plurality of fields. An operation when transmitting communication data from an arbitrary controller to a predetermined monitoring camera will be described. The controller sends a command (communication data) including the address of the surveillance camera to be controlled and the control contents to the communication control line 5 of the RS-485. This command is sent to the microcomputer 10 in the multiplexer 3 via the communication control line 5. The microcomputer 10 sends the communication data alternately to the first register 24 and the second register 25 one byte at a time. The communication data sent to the first register 24 is
The horizontal line "1" of the video signal transmitted to the coaxial cable 6 by each of the communication data superimposing units 21_1 to 21_m.
6 "and" 17 ", which are sent to the monitoring cameras 1_1 to 1_m, respectively.
When the communication data in the first register 24 is superimposed on the video signal, the second register 2
The communication data in 5 is superimposed on the video signal. Hereinafter, by the same operation, the communication data alternately transmitted to the two registers 24 and 25 are alternately transmitted. If the surveillance camera 1_1 to 1_m has its own address included in the received communication data, it performs an operation according to the control content included in the received command. . The reason why the two registers 24 and 25 are provided will be described. Each monitoring camera 1_1 to 1_m
Are asynchronous, the timing of superimposing the communication data on the video signal differs for each video signal of each monitoring camera. Therefore, there is a time difference in transmission time between the surveillance camera to which the same communication data for one byte is transmitted first and the surveillance camera to be transmitted last. Therefore, by the time the same communication data is sent to all the surveillance cameras, the timing of transmitting the next communication data to the surveillance camera to which the communication data has been transmitted first may come. Therefore, two registers 24 and 25 are provided so that communication data for two times can be held. An operation when transmitting communication data from an arbitrary surveillance camera to a predetermined controller will be described. When transmitting communication data, the surveillance camera superimposes a trigger signal on the horizontal line "10" of the video signal output by itself. Then, a command (communication data) including the address of the controller to transmit the communication data and the control content is superimposed on the horizontal lines “12” and “13” of the video signal. Upon detecting the trigger signal superimposed on the video signal, the trigger detection section corresponding to the surveillance camera sends a selection control signal indicating from which surveillance camera the trigger signal has been sent to the selector 23. A trigger detection signal is sent to the selector 23. The selector 23 selects a signal from the monitoring camera to which the trigger signal has been sent based on the selection control signal, and outputs the signal to the microcomputer 10.
Thereby, the trigger detection signal and the signal from the surveillance camera to which the trigger signal has been sent are sent to the microcomputer 10. The microcomputer 10 extracts communication data from the signal sent from the selector 23 and
Send to Thereby, the communication data is sent to each of the controllers 4_1 to 4_4. If the controller address included in the received communication data is its own address, each of the controllers 4_1 to 4_4 performs an operation according to the control content included in the received command. According to the above embodiment, a circuit for extracting the communication data transmitted from each surveillance camera from the video signal in the multiplexer does not have to be provided for each surveillance camera. According to the present invention, when communication between a plurality of camera-side devices and communication equipment is performed via a multiplexer, the configuration of the multiplexer is simplified.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram showing a configuration of a surveillance camera system. FIG. 2 is a block diagram illustrating a configuration of a communication control unit provided in a multiplexer 3. FIG. 3 is a schematic diagram showing communication data superimposed on a video signal. FIG. 4 is a block diagram illustrating a configuration of a conventional surveillance camera system. [Description of Signs] 1_1 to 1_m Surveillance Cameras 2_1 to 2_4 Spot Monitor 3 Multiplexers 4_1 to 4_4 Controller 5 Communication Control Line 6 of RS-485 Coaxial Cable

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Claims (1)

Claims 1. An apparatus comprising: a multiplexer; a plurality of camera-side devices connected to the multiplexer via a video signal transmission cable; and a communication device connected to the multiplexer via a communication control line. In a communication system in which communication data is superimposed and transmitted during the vertical blanking period of a video signal between each camera-side device and the multiplexer, the camera-side device superimposes the communication data when transmitting the communication data. And a means for superimposing a trigger signal in a horizontal period before the horizontal period to be performed.The multiplexer includes a selector to which a signal sent from each camera-side device via each video signal transmission cable is input. Detects a trigger signal provided for each camera-side device and superimposed on a video signal sent via each video signal transmission cable. When a trigger signal is detected by a plurality of trigger signal detecting means for detecting a trigger signal, a signal from the camera-side device which has transmitted the trigger signal is selected from among a plurality of signals input to the selector. A communication system comprising: means for controlling a selector so as to output the data; and means for extracting communication data from a signal output from the selector and transmitting the data to a communication control line.