KR950000833B1 - Picture image transmission cctv system - Google Patents

Abstract

The system transmits the image signal by a remote control from a long distance for the purpose of industrial and domestic uses according to the command in a microprocessor. Since the system equips a modem that is a modulation and demodulation processor and that uses public telephone network, the installation is simple, the cost is low and the high-speed data process is possible when using a four-division monitor. In the system, the transmission part of the control data consists of a microprocessor, a first transmitter, a monitor, a four-division monitor and an A/D converter. The transmission part of the image signal consists of a microprocessor, a second transmitter, a controller and an A/D converter.

Description

Image transmission CCTV system using public line

1 (a), (b) is a block diagram of an image transmission CCTV system using a public line according to the present invention.

2 (a) and (b) are flow charts of data transmission according to FIG.

* Explanation of symbols for main parts of the drawings

100: control data transmission means 110, 210: first and second transmission and reception units

120: display unit 200: image data transmission means

220: control unit 230: image memory unit

ADC1: Analog Digital Converter CA1 to CA4: Camera

MP: Microprocessor DAC 1: Digital Analog Converter

The present invention relates to a closed circuit television (CCTV), and more specifically, using a modem and a subscriber line network, a public line, which is a modulation and demodulation device, for industrial or home use remotely over a long distance as a control of a microprocessor. The present invention relates to an image transmission CCTV system using a public line capable of transmitting image data.

In general, closed-circuit televisions (hereinafter referred to as "CCTVs"), which are widely used for industrial purposes, are used for monitoring production sites through monitors in factories or for monitoring purposes in banks, but the system configuration is very complicated and requires high installation costs. There was this.

The present invention has been made to solve the above problems, and an object of the present invention is to use a modem and a public line, which is a modulation and demodulation device, without using any equipment. To provide an image transmission CCTV system using the.

A feature of this invention for achieving this object is control data for transmitting control data for controlling a selected camera according to the user's camera selection and for receiving and displaying image data transmitted from the camera according to the transmitted control data. An image transmission CCTV system using a public line comprising transmission means and image data transmission means for transmitting image data from the control data transmission means to the control data transmission means on a frame-by-frame basis.

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

1 (a) and (b) show a block diagram of an image transmission CCTV system using a public line according to the present invention, and transmits control data for controlling a selected camera according to a user's camera selection, The control data transmission means 100 for receiving and displaying the image data transmitted from the camera according to the control data, and the image data from the camera according to the control data from the control data transmission means 100 on a frame basis. And image data transmission means 200 for transmitting to the transmission means 100, wherein the control data transmission means 100 generates micro control data and a control clock for controlling the selected camera according to the user's camera selection. The control axis from the microprocessor MP is transferred to the processor MP. And transmitting the first sikimyeo connect the transceiver 110 of the first transceiver 110 to receive image data from the camera side is composed of a modulation and demodulation unit modem.

In addition, the microprocessor MP and the first transmitter / receiver 110 have a digital-to-analog converter for converting image data from the first transmitter / receiver 110 into an analog signal according to a control clock from the microprocessor MP. Connect DAC1).

In addition, the digital-to-analog converter DAC1 is connected to a display unit 120 for displaying image data from the digital-analog converter DAC1. The display unit 120 uses a monitor 121 or high-speed information. When the processing is desired, the quad split unit 122 receives the signal from the digital analog converter DAC1 and outputs the signal to the quad split monitor 123.

On the other hand, the image data transmission means 200 receives the control data from the first transmission and reception unit 110 and the second transmission and reception unit 210 for transmitting the image data from the camera side to the first transmission and reception unit 110. The controller 220 is connected to the control unit 220 to hold the external synchronization of the cameras CA1 to CA4 according to the control data from the second transmitter / receiver 210, and to the cameras CA1 to CA4. The digital converter ADC1 is connected to convert analog image data from the cameras CA1 to CA4 into digital image data. In the above, the second transmitter / receiver 210 includes a modem that is a modulation / demodulation device.

In addition, by connecting the image memory unit 230 to the analog-digital converter ADC1 and the controller 220, image data is transmitted to the second transmitter / receiver 230 in units of one frame according to the control data of the controller 220. send.

In the present invention configured as described above, when a user selects a camera to be installed, the microprocessor (MP) transmits control data for selecting a corresponding camera to the second transmitter / receiver 210 through the first transmitter / receiver 110. send.

At this time, if the flow chart for transmitting the control data is shown in Fig. 2 (a), if the cameras CA1 to CA4 are selected according to the user and the selection, only the screen according to one carrera will be displayed. In order to determine whether to display the continuous screen according to the camera mode, the value of the flag register (CNRF) for continuously displaying the four screens is set (S1).

If you want to display only one screen, set the value of the flag register (CNTF) to zero, which is a logic "low" state, and if you want to display a continuous screen, set the flag register (CNTF) value to a logic "high" state. Is set to "1".

The set state of the flag register CNTF is checked in order to check whether four screens are successively performed (S2), and the flag register CNTF is stored in the microprocessor MP. Location and control of the microprocessor (MP). If it is determined in step S2 that the flag register CNTF for continuously displaying four screens is set, it is determined whether the number of cameras is less than five, and if it is less than five, one from camera CH1 to camera CH4. When the number of cameras is larger than 5, the camera mode is set corresponding to one camera mode while increasing the number of cameras (P1). The camera mode is a recording or playback mode of a camera. It does not mean that the camera CH1 is referred to as the camera first mode and the camera CH2 as the camera second mode, depending on the number of the cameras CH1 to CH4.

Then, in order to display four screens continuously and to display one screen, a flag register CTRLF inside the microprocessor MP indicating that control data has occurred is set (S3), and the step (S3). After the operation, the control data of each camera is increased according to the control data of the microprocessor MP, and the control data CTDAT1 to CTDAT4 corresponding to the mode of each camera are increased (P2). .

After performing the process (P2) by performing a control data transmission step (S4) for transmitting the control data set in the process (P2) to the second transmitting and receiving unit 210 through the first transmitting and receiving unit 110, The control data generated from the microprocessor MP according to the camera selection is transmitted to the second transmitter / receiver 210 through the first transmitter / receiver 110. When the camera mode is less than 5 in the process P1, After performing each step (S3), (S4) and process (P2), feed back to step (S1) again, and repeat each step until the camera mode is 4 so that four screens can be displayed continuously. Send control data.

According to the flowchart as described above, when control data is generated from the microprocessor MP and transmitted to the second transmitter / receiver 210 through the first transmitter / receiver 110, the second transmitter / receiver 210 controls the control data. Send to 220.

The control unit 220 catches the external synchronization of the cameras CA1 to CA4 according to the control data transmitted from the second small receiver 210 and converts the image data from each of the cameras CA1 to CA4 accordingly. The image memory unit 23 converts the image data into a digital image data from the ADC1 to the image memory unit 23, and the image memory unit 23 transmits the image data in units of one frame according to the control data of the controller 220. ) And the second transmitter / receiver 210 transmits it to the first transmitter / receiver 11.

The transmission flow of the image data is shown in FIG. 2 (b). First, the setting state of the flag register CTRLF indicating that control data has occurred in the microprocessor MP is examined (S11), and the step ( If it is determined in S11 that the flag register CTRLF is set, the set control data CDTAT1 to CDTAT4 are examined to select respective camera modes according to the control data (P3).

The camera converts the image data according to the selected camera mode into digital and stores the image data in the image memory unit 230 and transmits the stored image data to the first transmitter / receiver 110 through the second transmitter / receiver 210 in units of one frame. Image data is transferred from (CA1) to (CA4) (P4).

On the other hand, the image data transmitted to the first transmitter / receiver 110 is input to the digital-to-analog converter DAC1 according to the control clock of the microprocessor MP, and converted into analog image data. If it is displayed on the screen (121) at this time, if the user wants to process the information at high speed, the four-segmented still image is output by outputting it to the four-segment monitor 123, which allows four screens to be simultaneously viewed on one monitor screen through the four-segmented unit 122. Display.

As described above, according to the present invention, when the user selects a camera, the microprocessor (MP) generates control data accordingly and transmits the control data to the second transmitter / receiver 210 through the first transmitter / receiver 110 and the controller according to the control data. At 220, the external synchronization of the selected camera is captured. Accordingly, the image data from each selected camera is converted into digital image data by the analog-digital converter ADC1 and input to the image memory unit 230.

In this case, the image memory 230 transmits the image data to the first transmitter / receiver 110 through the second transmitter / receiver 210 in units of one frame according to the control data of the controller 220. Then, the first transmitter / receiver 11 transmits the image data to the digital analog converter DAC1. The digital analog converter DAC1 converts the image data into analog image data according to the control clock of the microprocessor MP and displays the display unit 120. ), This analog image data is output and one or four screens are displayed continuously as a still image.

As described above, the present invention can remotely control the local site as an industrial or home by using a modem, which is a modulation and demodulation device connected to a public line, to remotely control image data under the control of a microprocessor. In addition, since the modem is used, the construction is simple and the installation cost can be reduced. When the 4-split monitor is used, high-speed information processing is possible.

Claims (1)

A microprocessor (MP) generating various control clocks for controlling the selected camera according to the user's camera selection, and connected to the microprocessor (MP) to transmit control data from the microprocessor (MP) to the camera side; A first transmitter / receiver 110 for receiving image data from a camera side, and connected to the microprocessor MP and the first transmitter / receiver 110 according to a control clock from the microprocessor MP. A display unit connected to the digital-to-analog converter DAC1 for converting the image data from the first transmitter / receiver 110 into an analog signal and the digital-to-analog converter DAC1 to display the image data from the digital-to-analog converter DAC1; Control data transmission means (100) and control data from the first transmission / reception unit (110); And a second transmitter / receiver 210 for transmitting image data from the camera side to the first transmitter / receiver 110, and a control from the second transmitter / receiver 210 connected to the second transmitter / receiver 210. The analog image data from the cameras CA1 to CA4 is connected to the control unit 220 and the cameras CA1 to CA4 to synchronize the external synchronization of the cameras CA1 to CA4 according to the data. The second transmitter / receiver 210 is connected to the analog-to-digital converter ADC1 and the controller 220 and the analog-to-digital converter ADC1 to convert image data in units of one frame according to the control data of the controller 220. Image transmission CCTV system using a public line consisting of the image data transmission means 200 of the image memory unit 230 for transmitting to.