KR100244578B1 - Video transmitting device - Google Patents

Abstract

The present invention relates to an image transmission device, wherein the rate of change of image information input through the image input device is detected, and the image information is output to the output device only when the rate of change is equal to or greater than the reference value. It is configured to stop the operation, and outputs only the image information of the image input apparatus in which the movement of the subject is detected among the input image information, thereby providing an effect of increasing the efficiency of the monitoring apparatus.

Description

Image transmission device

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an image transfer apparatus, and more particularly, to an image transfer apparatus that detects a change in input image information and outputs only when a change occurs, thereby increasing the efficiency of the image transfer apparatus and extending the life of the device. .

In general, closed circuit monitoring devices are the most commonly used monitoring devices in public places, such as banks and research institutes, where long-term monitoring is required.

The closed circuit monitoring apparatus includes an unmanned camera for inputting image information and a display device for outputting image information input through the unmanned camera, that is, a monitor.

Unmanned cameras are fixedly installed in the area to be monitored, and receive image information of a certain area and transmit it to the monitor. In this case, wired equipment such as a coaxial cable is used to transmit image information between the unmanned camera and the monitor.

A schematic configuration of such a conventional closed circuit monitoring device is shown in FIG. 1.

The camera 1 collects image information of the area to be monitored. Image information input through the camera 1 is transmitted to the signal processing unit 2, where the image information collection operation of the camera 1 and the image signal processing operation of the signal processing unit 2 are performed through the timing control unit 3. .

The function of the signal processor 2 is to convert the image information input through the camera 1 into a signal that can be output through the output device 4, and the main control operation of the timing controller 3 is a vertical / horizontal synchronization signal. Generation and input / output timing control.

That is, the conventional closed circuit monitoring apparatus forms an image signal output path through which the image information input through the camera 1 is output to the output device 4 via the signal processing unit 2.

In monitoring a certain area by using such a closed-circuit monitoring device, when an area to be monitored is so large that a single unmanned camera is not sufficient, a plurality of unmanned cameras are installed everywhere to collect image information, and a plurality of monitors are also provided. Image information is output to

However, as technology advances, unmanned cameras are actually size-oriented, while monitors that output image information have limitations in reducing their size.

Therefore, in the case of having a plurality of unmanned cameras and a plurality of monitors, it is often difficult to have the same number of monitors as the unmanned cameras due to the limitation of the size of the monitor as described above.

In order to solve such a problem, conventionally, a method of designating a camera and then using a monitor according to the order has been used. Therefore, image information input through some cameras among a plurality of cameras does not output a monitor.

If an emergency situation occurs in the monitored area of the camera while the image information input through some cameras is not output to the monitor, the monitor does not recognize this and thus does not play a sufficient role as a monitoring device.

Accordingly, an object of the present invention is to increase the efficiency of the monitoring apparatus by outputting only image information of an image input apparatus in which a movement of a subject is detected among input image information.

1 is a block diagram showing a conventional image transmission device.

2 is a block diagram showing an image transmission device of the present invention.

Explanation of symbols on the main parts of the drawings

1: camera 2: signal processing unit

3: timing controller 4: image output device

5 signal conversion unit 6 output control unit

7: memory 8: interrupt control unit

The present invention for this purpose detects the rate of change of the image information input through the image input device and outputs the image information to the output device only when the rate of change is greater than or equal to the reference value, and stops the image output operation of the output device if the rate of change is less than or equal to the reference value. Is done.

A configuration example for implementing the image transmission device of the present invention as described above with reference to FIG. 2 is a block diagram showing the image transmission device of the present invention.

The camera 1 collects image information of the area to be monitored and transmits it to the signal processor 2. At this time, the image information collection operation of the camera 1 and the image signal processing operation of the signal processing unit 2 are performed through the timing controller 3.

The function of the signal processing unit 2 is to convert the image information input through the camera 1 into a signal that can be output through the output device 4, and in the timing controller 3, the vertical and horizontal synchronization signals and the input / output timing control signal, etc. Generates.

In addition, a signal converter 5 for calculating the rate of change of the image information, a storage device 7 for receiving and storing the rate of change calculated by the signal converter 5 at regular intervals, and a comparator with a predetermined reference value are provided. The change rate calculated by the signal converter 5 and the change rate stored in the storage device 7 are compared. When the difference of the change rate is larger than the reference value, the image information is output to the output device 4, and the change rate is In the case of the reference value or less, the output control section 6 controls the image information not to be output to the output device 4.

Referring to the configuration of the image transmission device of the present invention described above, a specific embodiment is as follows.

First, the image transmission apparatus of the present invention is implemented by detecting a rate of change of image information by using a JPEG encoder (JPEG encoder, hereinafter abbreviated as JPEG encoder) that implements a Joint Picture Experts Group (JPEG). An embodiment will be described.

The JPEG encoder is a means used for compressing and transforming still images. The DC encoder calculates DCT coefficients, that is, rectangular coordinate values, of the still images through a discrete cosine transform (hereinafter, referred to as DCT).

Such a JPEG encoder is applied to the signal converter 5 presented in the above-described structural example of the present invention, and the storage device 7 stores the DCT coefficient value calculated by the JPEG encoder.

The DCT coefficient value stored in the storage device 7 will be described in detail as follows. The image information input through the image input device 1 is time-divided at regular intervals to calculate DCT coefficient values of the image information at predetermined intervals.

The DCT coefficient values calculated in this way are stored in the storage device 7, and the new DCT coefficient values calculated after the DCT coefficient values stored in the storage device 7 are compared with each other through comparison means provided in the output control unit 6. And the rate of change is detected.

In other words, if the DCT coefficient value stored in the storage device 7 is the n-th calculated DCT coefficient value, the output control unit 6 calculates the n + 1th calculated DCT coefficient value and the n-th DCT coefficient value stored in the storage device 7. The change rate is detected by comparing.

If the detected change rate is greater than or equal to the reference value, the output control unit 6 outputs the image information to the output device 4, or generates a control signal to the interrupt control unit 8 to use the right to use the output device to output the image information. Secure.

However, when the rate of change is less than the reference value, it is determined that the movement of the subject does not occur in the monitored area so that the image information is not transmitted to the output device, that is, the monitor.

In a similar embodiment, the image transmission apparatus of the present invention may be implemented using an MPEG encoder that implements a moving picture compression technology standard (MPEG, hereinafter abbreviated as MPEG) instead of the above-described JPEG encoder.

In addition, the signal converter 5 proposed in the structural example of the present invention may be implemented using an analog-to-digital converter.

That is, the above-described J-pec or the analog-type signal converted by the signal converter 5 is converted into a digital signal so that the image information input through the image input device 1 can be output through the output device 4. As in the case of the MPEG encoder, the rate of change is detected.

At this time, the output control unit 6 detects the rate of change by comparing the n-th image information that is converted into a digital signal and stored in the memory device 7 and the n + 1th image information that is also converted into a digital signal and input to the output control unit 6. do.

An adder is a means for comparing the two pieces of image information described above, which adds the logical values of the corresponding pixels of the two pieces of image information and as a result detects the rate of change of the two pieces of image information.

By implementing the image transmission apparatus of the present invention, when the camera is provided with a plurality of cameras and fewer monitors, only the image information of the camera where the movement of the subject is detected is output to the monitor, and the movement of the subject is detected. The non-camera image information is such that the use of the transmission line or the monitor is suppressed by the output control unit not securing the use authority of the output device.

Therefore, the present invention has the effect of increasing the efficiency of the monitoring apparatus by outputting only the image information of the image input apparatus in which the movement of the subject is detected among the input image information.

Claims (7)

(correction) An image transmission apparatus for collecting image information for a predetermined region through an image input apparatus and outputting the image information through an output device connected to the image input apparatus. A signal converter configured to calculate a rectangular coordinate conversion coefficient of image information input through the image input device by applying a still image compression technology standard to calculate a rate of change of the image information; A memory device which receives and stores a rate of change calculated by the signal converter at a predetermined period; A comparator having a predetermined reference value set therein, and comparing the change rate calculated by the signal converter with the change rate stored in the storage device so that the image information is output to the output device when the difference of the change rate is larger than the reference value. And an output control unit that controls the image information not to be output to the output device when the difference of the change rate is equal to or less than the reference value. (correction) An image transmission apparatus for collecting image information for a predetermined region through an image input apparatus and outputting the image information through an output device connected to the image input apparatus. A signal converter configured to calculate an orthogonal coordinate conversion coefficient of image information input through the image input apparatus by applying a moving image compression technology standard to calculate a rate of change of the image information; A memory device which receives and stores a rate of change calculated by the signal converter at a predetermined period; A comparator having a predetermined reference value set therein, and comparing the change rate calculated by the signal converter with the change rate stored in the storage device so that the image information is output to the output device when the difference of the change rate is larger than the reference value. And an output control unit that controls the image information not to be output to the output device when the difference of the change rate is equal to or less than the reference value. (delete) (delete) (delete) (correction) The method according to claim 1, And said rectangular coordinate transformation coefficient is a discrete cosine transformation coefficient. (correction) The method according to claim 1, When a plurality of image input apparatuses and a plurality of output apparatuses are provided and the number of the output apparatuses is smaller than the number of the image input apparatuses, an arbitrary output apparatus is selected from among the plurality of output apparatuses to select the plurality of image input apparatuses. In selecting an image input apparatus for selectively outputting image information input through the image input apparatus, the reference is based on an activation signal generated from an output control unit.

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