KR101626009B1 - Method for transmitting high definition analog video signal, apparatus for transmitting and receiving high definition analog video signal and high definition analog video signal networking system - Google Patents

Abstract

The present invention relates to a method for transmitting a high resolution analog video signal, and a transmission apparatus, reception apparatus and transmission system for a high resolution analog video signal using the same, which can use an existing analog transmission infrastructure, and by which a video can be less deteriorated. A transmission system for a high resolution analog video signal according to embodiments of the present invention may comprise: a video transmission apparatus which constructs a video data array using primary color data, generates video data streams from respective rows of the video data array, generates an analog scan signal by performing digital to analog conversion on a scan signal data stream in which timing signals and the video data streams are arranged, and transmits the analog scan signal; and a video reception apparatus which extracts the timing signals and the video data streams from a received scan signal data stream generated by performing analog to digital conversion on the received analog scan signal, and generates frames by using the extracted video data streams.

Description

TECHNICAL FIELD [0001] The present invention relates to a high-resolution analog video signal transmission method and a high-resolution analog video signal transmission apparatus using the same, a high-resolution analog video signal reception apparatus, and a high-resolution analog video transmission system. HIGH DEFINITION ANALOG VIDEO SIGNAL NETWORKING SYSTEM}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a video signal transmission technique, and more particularly, to an analog transmission technique of a high-resolution video signal.

With the rapid development of image sensor technology, the cost required to acquire high-resolution images has been lowered, and display devices capable of displaying high-resolution images have been developed and spread, and various technologies for transmitting high-resolution images have been proposed.

In particular, high-resolution analog video transmission technologies are being developed and developed along with advanced digital image compression technology and wired / wireless digital signal transmission technology, such as digital terrestrial digital television broadcast service, Internet-based video on demand service, Is becoming popular.

While high-resolution analog video transmission technology is mainly based on digital video data transmission technology, most video surveillance systems around the world are based on analog cameras and analog video transmission infrastructure. In fact, it is known that around 400 million analog video cameras are still being used worldwide. The length of the coaxial cables built to connect them and the scale of the analog infrastructure such as repeaters and distributors are enormous. Although currently installed analog video cameras or DVR systems can easily be replaced with digital video cameras or digital DVRs when upgrading to a full-life or high-resolution system, it will be difficult to replace all the devices at once, It is not easy to replace coaxial cables that have already been complicatedly installed in the surveillance area.

Accordingly, there is a need for a technique capable of transmitting a high-resolution video signal while utilizing the existing analog transmission infrastructure, or a technology capable of integrating a new high-resolution video system into an existing analog transmission infrastructure.

One such technique is High Definition Serial Data Interface (HD-SDI). HD-SDI is SDI's high-definition compliance standard originally proposed by the Society of Motion Picture and Television Engineers (SMPTE) in 1989. It combines 1.485 Gb / s uncompressed, unencrypted digital video signals with conventional BNC connectors and coaxial cable- Lt; / RTI > However, the technology used in broadcasting and film studios in the first place is that the recommended transmission distance of high-resolution video signals is only up to 300 m and the transmission and reception cost is very high.

The HD Composite Video Interface (HD-CVI) proposed by China's Dahua Technology in 2010 is different from HD-SDI, which transmits uncompressed digital video signals in that it transmits analog video signals over coaxial cable. The HD-CVI uses Brightness and Hue using Baseband and Quadrature Amplitude Modulation (QAM) techniques to avoid CVBS (Composite Video Blanking Sync) crosstalk. Signals are transmitted over one cable in a completely separated state in the frequency domain. With longer transmission lengths, fewer existing analog transmission infrastructures, and the relatively low cost of devices such as chipsets, adoption of HD-CVI would lower overall upgrade and maintenance costs compared to adopting HD-SDI technology .

HD-CVI technology separates the luminance and color components from each other in the scan line from the frame of the image taken by the camera. The chrominance components (Cb, Cr) are mounted in a QAM-modulated state on a carrier wave of a high frequency selected so as not to overlap the bandwidth of the baseband, and the chrominance components A waveform is created by repeating a front porch, a horizontal sync, a back porch, a color burst, a blank, and an active video every cycle, do. The modulation signal of the luminance component and chrominance components is transmitted in the active video section. The color burst is indispensable for modulating and restoring the chrominance components (Cb, Cr).

The name HD-CVI comes from the fact that it transmits a luminance signal and a color signal to one channel like a conventional analog composite video signal transmission technique.

Since human vision better perceives the difference in luminance than difference in color, it is reasonable to install luminance information on a high-frequency carrier which is mounted on a baseband that has low distortion and can be restored, and color information is vulnerable to attenuation.

However, due to the high resolution of the HD-CVI technology, the required bandwidth of the baseband itself is wide and the frequency of the carrier on which the color signal is mounted is considerably high, so that degradation of the color signal occurring in the coaxial cable can not be ignored. Also, the receiver must be designed to sample the signal with a higher sampling frequency in order to recover the color signal mounted on the carrier of high frequency, which is difficult to design and high current consumption.

Accordingly, there is still a need for a high-resolution analog video signal transmission method that can utilize an analog transmission infrastructure, reduce deterioration of signals, and achieve low cost and simple design.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a high-resolution analog video signal transmission method, a high-resolution analog video signal transmission apparatus, a high-resolution analog video signal reception apparatus, and a high-resolution analog video transmission system.

SUMMARY OF THE INVENTION The present invention provides a high-resolution analog video signal transmission method, a high-resolution analog video signal transmission apparatus, a high-resolution analog video signal reception apparatus, and a high-resolution analog video transmission system, which can utilize an existing analog transmission infrastructure, To provide.

The solution to the problem of the present invention is not limited to those mentioned above, and other solutions not mentioned can be clearly understood by those skilled in the art from the following description.

According to an aspect of the present invention, a high-resolution analog image transmission system includes an image data array as primary color data, a video data stream in each row of the video data array, a scan signal A video transmission apparatus for generating and transmitting an analog scan signal by digital-analog conversion of a data stream, a timing controller for extracting timing signals and a video data stream from a received scan signal data stream obtained by analog-digital conversion of the received analog scan signal, And a video receiving apparatus for generating a frame with streams.

According to one embodiment, when the image is a (2M + 2) x (2N + 2) resolution (M and N are positive integers) (L is an integer of 0? L? N), and the image data stream may be a sequence of 2M + 2 cell readout data derived for each row.

According to one embodiment, the image transmission device may be operable to group the primary color data by components and to generate a video data stream from the grouped primary color data.

According to an embodiment, the image transmission apparatus groups the primary color data by components, decimates, downsampling, or compresses the grouped primary color data to reduce the image data from the reduced primary color data, To generate a stream.

According to an exemplary embodiment, the image transmitting apparatus may operate to pre-emphasis and transmit a pre-emphasized analog scan signal to compensate for channel distortion of the analog scan signal.

According to an embodiment, the image transmitting apparatus may add a color burst signal having a predetermined frequency and amplitude to a horizontal sync signal and modulate it, and generate a scan signal data stream based on the modified horizontal sync signal and the image data stream .

According to one embodiment, the image transmitting apparatus inserts a color burst signal having a predetermined frequency and amplitude between the horizontal sync signal and the image data stream, and outputs a scan signal data stream based on the horizontal sync signal, the color burst signal, Can be generated.

According to one embodiment, the image receiving apparatus evaluates the distortion of the channel based on the distortion of the amplitude of the color burst signal detected in the received analog scan signal, and the image transmitting apparatus transmits the control signal of the image receiving apparatus, The frequency or the amplitude of the color burst signal can be changed according to the schedule of FIG.

According to one embodiment, the video receiving apparatus generates a pre-emphasis control signal based on the estimated channel distortion, and transmits the generated pre-emphasis control signal to the video transmitting apparatus, And may perform pre-emphasis and transmit a pre-emphasized analog scan signal to compensate for channel distortion of the analog scan signal according to the pre-emphasis control signal.

According to an embodiment, the video receiving apparatus can supply power to the video transmitting apparatus through a cable that receives the analog scan signal from the video transmitting apparatus.

According to one embodiment, the image receiving apparatus controls the operation of the image transmitting apparatus using a band that does not overlap with the band of the analog scan signal through a cable that receives the analog scan signal from the image transmitting apparatus A control signal for transmitting the control signal can be transmitted.

According to one embodiment, the image transmitting apparatus transmits an analog scan signal including a vertical sync waveform for frame synchronization between a frame and a next frame, and the image receiving apparatus receives the analog scan signal from the image transmitting apparatus A control signal for controlling the operation of the image transmitting apparatus can be transmitted through a receiving cable using a time interval during which the vertical sync waveform is received.

According to another aspect of the present invention, a high-resolution analog image transmission system generates an image data stream from primary color data, and transmits an analog scan signal obtained by digital-analog conversion of a timing signal and a scan signal data stream in which the image data stream is arranged And a video receiving apparatus for extracting timing signals and a video data stream from a received scan data stream generated by analog-to-digital conversion of a received analog scan signal, and generating a frame using the generated restored video data streams have.

According to another aspect of the present invention, a high-resolution analog image transmission system includes a first image data array of a first color space reference and a second image data array of a second color space reference, An image transmitting apparatus for generating an image data stream in each row of the second image data array and transmitting an analog scan signal obtained by digital-analog converting the scan signal data stream in which the timing signals and the image data stream are arranged, Extracting timing signals and a video data stream from the received scan data stream generated by analog-to-digital conversion of the analog scan signal, and generating a frame using the generated restored video data streams.

According to one embodiment, the image transmission device may be operable to group the second image data array of the second color space reference by component, and to generate a video data stream from the grouped second image data array.

According to one embodiment, the image transmission apparatus groups the second image data array of the second color space reference by components, and decimates, downsampling, or compresses the grouped second image data array. And to generate a video data stream from the reduced second video data array.

According to the method of transmitting a high-resolution analog video signal, the high-resolution analog video signal transmission device, the high-resolution analog video signal reception device, the high-resolution analog video transmission system, and the video surveillance system, the existing analog transmission infrastructure can be used.

According to the method of transmitting a high-resolution analog video signal of the present invention, a high-resolution analog video signal transmission device, a high-resolution analog video signal reception device, a high-resolution analog video transmission system and a video surveillance system, upgrade and maintenance costs are low, little.

According to the method of transmitting a high-resolution analog video signal, the high-resolution analog video signal transmission apparatus, the high-resolution analog video signal reception apparatus, the high-resolution analog video transmission system, and the video surveillance system of the present invention, the structure is simple in both the transmitting side and the receiving side.

The effects of the present invention are not limited to those mentioned above, and other effects not mentioned can be clearly understood by those skilled in the art from the following description.

1 is a block diagram illustrating a high-resolution analog video transmission system in accordance with embodiments of the present invention.
FIG. 2 is a conceptual diagram illustrating RGB data to be transmitted in a high-resolution analog image transmission system according to embodiments of the present invention in the form of a matrix.
3 is a conceptual diagram illustrating a grouped RGB data to be transmitted in a high resolution analog image transmission system according to embodiments of the present invention in a matrix form.
4 is a waveform diagram illustrating waveforms of an analog scan signal transmitted in a high-resolution analog image transmission system according to embodiments of the present invention.
5 is a waveform diagram illustrating waveforms of an analog scan signal transmitted in a high-resolution analog image transmission system according to embodiments of the present invention.
FIG. 6 is a conceptual diagram illustrating a high-resolution analog image transmission system according to embodiments of the present invention.
7 is a flowchart illustrating a method of transmitting a high-resolution analog scan signal according to embodiments of the present invention.
8 is a flowchart illustrating a method of transmitting a high-resolution analog scan signal according to embodiments of the present invention.

For the embodiments of the invention disclosed herein, specific structural and functional descriptions are set forth for the purpose of describing an embodiment of the invention only, and it is to be understood that the embodiments of the invention may be practiced in various forms, The present invention should not be construed as limited to the embodiments described in Figs.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The same reference numerals are used for the same constituent elements in the drawings and redundant explanations for the same constituent elements are omitted.

1 is a block diagram illustrating a high-resolution analog video transmission system in accordance with embodiments of the present invention.

Referring to FIG. 1, a high-resolution analog image transmission system 10 may include a high-resolution analog image transmission apparatus 11, a high-resolution analog image reception apparatus 12, and a cable 13.

The high-resolution analog image transmitting apparatus 11 constitutes an image data array with the primary color data received from the image sensor (CIS), for example, the cell read data or the pixel data corrected through interpolation or demosaicing Generates an image data stream in each row of the image data array, repeatedly generates a scan signal data stream by arranging timing signals and an image data stream, and transmits an analog scan signal obtained by digitally converting the scan signal data stream to a cable 13). ≪ / RTI >

Depending on the embodiment, the image data array may be of a size corresponding to the entire one frame or may be a size corresponding to a part of the frame, for example, three to four lines. The size of the image data array can be appropriately selected according to the amount of primary color data received from the image sensor and the processing speed of generating the image data stream.

The high resolution analog image receiving apparatus 12 converts the analog scan signal received through the cable 13 to analog to digital to generate a received scan signal data stream and outputs the received scan signal data stream as image data streams extracted in the received scan signal data stream, , And generate a frame from the reconstructed restored image data array.

The high-resolution analog image transmitting apparatus 11 includes a scan signal data stream generating unit 111, a digital-analog converter 112, and an analog scan signal output unit 113. The scan signal data stream generating unit 111, . ≪ / RTI >

First, the scan signal data stream generation unit 111 forms an image data array with the primary color data received from the image sensor, and generates a video data stream in each row of the image data array as appropriate. The generation of the image data stream from the image data array will be described in detail below.

The scan signal data stream generation unit 111 then arranges the timing signals such as a horizontal sync signal, a vertical sync signal, a color burst signal, a front porch, a back porch, a blank, and the like and an image data stream at predetermined time intervals, It is possible to generate a scan signal data stream to be transmitted every scanning period.

The digital-to-analog converter 112 can generate an analog scan signal by digital-analog-converting the scan signal data stream.

The analog scan signal output section 113 can transmit the generated analog scan signal through a medium such as the coaxial cable 13. [

The high resolution analog image receiving apparatus 12 may include an analog scan signal receiving unit 121, an analog digital converting unit 122, a video data stream extracting unit 123, and a frame generating unit 124.

The analog scan signal receiving unit 121 can appropriately receive the analog scan signal transmitted from the image transmitting apparatus 11. [ For example, the analog scan signal receiving unit 121 performs amplification, filtering, and the like on the received analog scan signal to compensate for distortion during transmission and restore the DC level through clamping.

The analog-to-digital converter 122 may analog-to-digital convert the received analog scan signal to generate a received scan signal data stream.

The video data stream extracting unit 123 can identify timing signals including the horizontal sync signal from the analog-to-digital converted received scan signal data stream, and extract the video data stream.

The frame generation unit 124 may reconstruct the reconstructed image data array with the extracted image data streams, and generate a frame from the reconstructed reconstructed image data array.

2 to 4 to refer specifically to the generation of the analog scan signal.

FIG. 2 is a conceptual diagram illustrating RGB data to be transmitted in a high-resolution analog image transmission system according to embodiments of the present invention in the form of a matrix.

As shown in FIG. 2, the cell read data as the primary color data read out from the image sensor can be arranged in a matrix form in accordance with the color filter pattern of the image sensor. The image sensor is equipped with a color filter to determine the color, and the color corresponding to the cell readout data output from each cell is determined according to the pattern of the color filter. For example, a Bayer pattern is most famous for a color filter pattern, and a Foveon pattern, a Trusense low-density color filter pattern, a Clariety + pattern, and an X-trans filter pattern are available.

2 illustrates an image data array in the case where the image sensor has a Bayer pattern. When the image has (2M + 2) x (2N + 2) resolution (M and N are positive integers) The image data array is (2M + 2) (2L + 2) size (where 0? L <? N).

According to the embodiment, the high-resolution analog image transmitting apparatus 11 generates an analog scan signal so as to include the cell read data of the image data array on a line basis, for example, on a row-by-row basis and transmits the analog scan signal to the high- do.

In such an embodiment, the video data stream is a sequence of 2M + 2 cell readout data derived for each row.

In this case, the image data stream may be configured as G ₀₀ , B ₀₀ , G ₀₁ , B ₀₁ , G ₀₂ , B ₀₂ , ..., G _0M , B _0M . Since the values of the three primary colors G, B, and R in each pixel are not correlated with each other, the waveform of the analog scan signal generated by this image data stream is expected to be very dynamic.

On the other hand, since the image information in the image frame has a high spatial correlation, the values of the same color in adjacent pixels are likely to be similar to each other. In other words, adjacent cells G ₀₀ , G ₀₁ , G ₀₂ , G ₁₀ , and G _{11 in} FIG. 2 will have similar values.

Therefore, if the image data stream is formed by arranging the cell read data of the same color, the level change of the image data stream can be gentle, the waveform of the analog scan signal generated therefrom becomes much gentler, And the high-frequency components, which are susceptible to channel attenuation, are reduced, so that the overall picture quality can be expected to be improved.

FIG. 3 is a conceptual diagram illustrating a grouped RGB data to be transmitted in a high-resolution analog image transmission system according to embodiments of the present invention, in a matrix form.

In Fig. 3, from the image data array of Fig. 2, the cell read data is grouped by color, and a rearranged image data array is exemplified.

The top row of the rearranged image data array _{G 00, G 01, G 02} , G 10, ..., a group of G _0M and _{B 00, B 01, B 02} , B 10, ..., B 0M It is grouped into a group, the second row of the _{G 10, G 11, G 12} , G 11, ..., G 1M group and _{R 10, R 11, R 12} , R 11, ..., R 1M Can be grouped into groups.

In this embodiment, the high-resolution analog video transmitting apparatus 11, specifically, the scan signal data stream generating unit 111 groups the cell read data by the color of the color filter, Stream can be generated.

According to the embodiment, the high-resolution analog video transmitting apparatus 11, specifically, the scan signal data stream generating unit 111 may group the primary color data by components and generate a video data stream from the grouped primary color data have.

Furthermore, if the length of the image data stream to be converted to digital-to-analogue can be reduced, the bandwidth of the analog scan signal can be further narrowed so that a high resolution analog image transmission system robust to high frequency band distortion can be realized without sacrificing image quality .

To this end, in one embodiment, the high-resolution analog image transmitting apparatus 11, specifically, the scan signal data stream generating unit 111 groups the primary color data by components, decimates the grouped primary color data, Downsampling the image data stream, and generating a video data stream from the reduced primary color data.

In another embodiment, the high-resolution analog video transmitting apparatus 11, more specifically, the scan signal data stream generating unit 111, groups the primary color data by components, compresses the grouped primary color data, The video data stream may be generated.

4 and 5 are waveform diagrams illustrating waveforms of an analog scan signal transmitted in a high-resolution analog image transmission system according to embodiments of the present invention.

Referring to FIG. 4, the analog scan signal may be generated at every scan period in such a manner that an analog video waveform corresponding to the video data stream appears after the horizontal sync signal, which is one of the timing signals.

A short front porch section can be designated before the valley section of the horizontal sync signal starts and a short back porch section is designated until the valley section of the horizontal sync signal ends and the actual analog video waveform starts. .

Analog video systems, on the other hand, have used colorburst waveforms for color signal demodulation. The color burst signal is a sinusoidal wave with a predetermined amplitude and frequency. Since the correctly made color burst signal at the transmitting side is distorted as it passes through the channel, the receiving side can predict the distortion of the channel from the amplitude of the received color burst signal. If the distortion of the channel is negligible or can be controlled according to the embodiment, the color burst signal may not be used.

Conventional analog video systems use a color burst signal inserted between the horizontal sync signal and the analog video waveform.

On the other hand, in the high-resolution analog image transmitting apparatus 11 of the present invention, specifically, the analog scan signal output section 113 modifies the horizontal sync signal by synthesizing a color burst signal having a predetermined frequency and amplitude with respect to the horizontal sync signal And generates a scan signal data stream based on the modified horizontal sync signal and the image data stream and generates an analog scan signal by digital-analog converting the generated scan signal data stream.

5, in the high-resolution analog image transmitting apparatus 11 according to the embodiment, the analog scan signal output section 113 is connected between the horizontal sync signal and the analog video waveform, And generates a scan signal data stream based on the horizontal sync signal, the color burst signal, and the image data stream, and generates an analog scan signal by digital-analog converting the scan signal data stream.

According to these embodiments, the high-resolution analog image receiving apparatus 12, specifically, the analog scan signal receiving unit 121 receives the distortion of the channel based on the distortion of the amplitude of the color burst signal detected in the received analog scan signal Can be evaluated.

More specifically, the analog scan signal output section 113 receives the control signal of the image receiving apparatus 12 or receives the frequency or amplitude of the color burst signal in accordance with a predetermined schedule by itself Can be changed. In other words, it is possible to accurately evaluate the distortion of a channel over a wide band by transmitting and receiving an analog scan signal while changing the frequency or amplitude of the color burst signal several times.

Since the distortion of the channel is generally represented by attenuation of the high frequency band, the analog scan signal output unit 113 of the high-resolution analog video transmitting apparatus 11 specifically outputs the analog scan signal to compensate for the channel distortion Pre-emphasis, and transmit a pre-emphasized analog scan signal.

Furthermore, according to the embodiment, in the high-resolution analog image receiving apparatus 12, specifically, the analog scan signal receiving unit 121 generates a pre-emphasis control signal based on the estimated channel distortion, The control signal can be transmitted to the high-resolution analog video transmitting apparatus 11.

Accordingly, in the high-resolution analog image transmitting apparatus 11, the analog scan signal output section 113 performs pre-emphasis in order to compensate for the channel distortion of the analog scan signal according to the pre-emphasis control signal , And can transmit a pre-emphasized analog scan signal.

According to an embodiment, the high-resolution analog image receiving apparatus 12 includes a power supply unit 12 for supplying power to the high-resolution analog image transmitting apparatus 11 through a cable 13 for receiving an analog scan signal from the high- (125).

According to the embodiment, the high-resolution analog image receiving apparatus 12 can transmit a control signal for controlling the operation of the high-resolution analog image transmitting apparatus 11 using a band that does not overlap with the band of the analog scan signal.

Specifically, when the high-resolution analog image transmitting apparatus 11 transmits an analog scan signal including a vertical sync waveform for frame synchronization between a frame and a next frame, the high-resolution analog image receiving apparatus 12 outputs a vertical sync waveform It is possible to transmit a control signal for controlling the operation of the high-resolution analog video transmitting apparatus 11 using the received time interval.

To this end, the high-resolution analog image receiving apparatus 12 transmits a control signal for controlling the operation of the high-resolution analog image transmitting apparatus 11 to the high-resolution analog image transmitting apparatus 11 using a band that does not overlap with the band of the analog scan signal. And a transmission device control unit 126 for transmitting the control signal to the control unit.

Meanwhile, since the substantial video information is not transmitted while the vertical sync waveform is transmitted for vertical synchronization between the frame and the frame, the image receiving apparatus can transmit the control signal to the image transmitting apparatus during the vertical synchronization time.

Accordingly, the analog scan signal receiving unit 121 of the high-resolution analog image receiving apparatus 12 receives the analog scan signal including the vertical sync waveform for frame synchronization between the frame and the next frame, and the transmission apparatus control unit 126 A control signal for controlling the operation of the image transmitting apparatus can be transmitted using the time interval during which the vertical sync waveform is received in the analog scan signal.

On the other hand, according to the embodiment, instead of the high-resolution analog image transmitting apparatus 11 receiving the primary color data of one frame from the image sensor and generating the image data array, each time the image sensor outputs the primary color data line by line , The analog scan signal can be generated and transmitted immediately on the basis of the output primary color data of each line.

To this end, the high-resolution analog image transmitting apparatus 11 of the high-resolution analog image transmission system 10 generates an image data stream directly from the primary color data every line, and generates a scan signal data stream in which timing signals and image data stream are arranged And analog scan signals obtained by digital-analog-converting the scan signal data stream can be transmitted through the cable 13. [

The high-resolution analog image receiving apparatus 12 of the high-resolution analog image transmission system 10 analog-digital-converts the received analog scan signals to generate a received scan signal data stream and extracts the image data streams extracted in the received scan signal data stream You can create frames immediately.

According to the embodiment, the high-resolution analog video transmitting apparatus 11 generates a grouped image data stream by grouping the primary color data for each line of the image data array, and generates a scan signal data stream And analog scan signals obtained by digital-analog conversion of the scan signal data streams can be transmitted through the cable 13. [

In this case, the high-resolution analog image receiving apparatus 12 of the high-resolution analog image transmission system 10 converts the received analog scan signal into an analog-to-digital converted signal to generate a received scan signal data stream, The elements in the data stream may be rearranged to reconstruct the line, and the frame may be generated from the reconstructed lines.

FIG. 6 is a conceptual diagram illustrating a high-resolution analog image transmission system according to embodiments of the present invention.

Referring to FIG. 6, the high-resolution analog image transmission system 60 may include a high-resolution analog image transmission apparatus 61, a high-resolution analog image reception apparatus 62, and a cable 63.

Compared with the high-resolution analog image transmission system 10 of FIG. 1, the high-resolution analog image transmission system 60 of FIG. 6 may transmit the primary color data of, for example, R, Data converted into color difference information (Cb, Cr) can be transmitted.

Accordingly, the high-resolution analog image transmitting apparatus 61 constitutes a first image data array of, for example, an RGB color space on a first color space basis for every frame, and the first image data array is divided into a second color space reference For example, a YCbCr color space, generates an image data stream in each row of the second image data array, and generates a scan signal data stream in which timing signals and image data streams are arranged It is possible to transmit an analog scan signal generated by repeatedly generating the scan signal data stream and digitally analog-converting the scan signal data stream.

Specifically, the scan signal data stream generation unit 611 of the high-resolution analog video transmission apparatus 61 constitutes a first image data array based on the first color space for each frame, and the first image data array is referred to as a second color space To the reference second image data array.

The scan signal data stream generating unit 611 of the high resolution analog image transmitting apparatus 61 generates an image data stream in each row of the second image data array and generates a scan signal data stream Can be repeatedly generated.

The digital-analog converter 612 and the analog scan signal output unit 613 of FIG. 6 substantially correspond to the digital-analog converter 112 and the analog scan signal output unit 113 of the high-resolution analog image transmitter 11 of FIG. And therefore description thereof will be omitted.

On the other hand, the high resolution analog image receiving apparatus 62 can analog-digitally convert the received analog scan signal to generate a received scan signal data stream, and generate a frame with the image data streams extracted in the received scan signal data stream.

At this time, the second image data array may be data of the second color space. Since a conventional display device for displaying a high resolution analog image can receive and display a YCbCr image signal, the high-resolution analog image receiving device 62 converts the frame generated as the image data streams of the extracted second color space Display device, and if necessary, convert the frame generated with the image data streams of the second color space into a frame of the first color space, and provide the frame to the display device.

The analog scan signal receiver 621, the analog-to-digital converter 622, the video data stream extractor 623, the frame generator 624, the power supply 625, and the transmitter controller 626 of FIG. An analogue-digital converter 122, a video data stream extractor 123, a frame generator 124, a power supply 125, and the like of the high-resolution analog video receiver 12 of FIG. And the transmission device control unit 126, and thus the description thereof will be omitted.

According to the embodiment, the high-resolution analog video transmitting apparatus 61 generates a grouped video data stream by grouping each line of the second video data array, and outputs a scan signal data stream in which timing signals and video data streams are arranged And analog scan signals obtained by digital-analog conversion of the scan signal data streams can be transmitted via the cable 63. [

In this case, the high-resolution analog image receiving apparatus 62 of the high-resolution analog image transmission system 60 converts the received analog scan signal into an analog-to-digital converted signal to generate a received scan signal data stream, Reorder the components in the data stream to reconstruct the second image data array, and generate a frame from the reconstructed second image data array.

7 is a flowchart illustrating a method of transmitting a high-resolution analog scan signal according to embodiments of the present invention.

Referring to FIG. 7, a method of transmitting a high-resolution analog scan signal according to embodiments of the present invention is a method of transmitting a high-resolution analog image signal from a high-resolution analog image transmitting apparatus to a high-resolution analog image receiving apparatus.

In step S71, the high-resolution analog video transmitting apparatus 11 can construct a video data array based on the received primary color data.

According to the embodiment, instead of generating the image data array by receiving the primary color data of one frame from the image sensor, the high-resolution analog image transmitting apparatus 11 outputs the primary color data to the output The analog scan signal may be transmitted immediately based on the primary color data of the one or more lines.

In step S72, the high-resolution analog video transmitting apparatus 11 can generate a video data stream from the video data array.

According to the embodiment, in step S72, the high-resolution analog video transmitting apparatus 11 may group the primary color data by components and generate a video data stream from the grouped primary color data.

According to the embodiment, in step S72, the high-resolution analog image transmitting apparatus 11 groups the primary color data by components, decimates, downsamples or compresses the grouped primary color data, and outputs the reduced primary color data So that a video data stream can be generated.

According to the embodiment, in step S72, the high-resolution analog video transmitting apparatus 11 synthesizes and replaces a color burst signal of a predetermined frequency and amplitude with a horizontal sync signal among the timing signals, and outputs the modified horizontal sync signal and the video data stream Based on the scan signal data stream.

According to the embodiment, in step S72, the high-resolution analog video transmitting apparatus 11 inserts a color burst signal of a predetermined frequency and amplitude between the horizontal sync signal and the video data stream among the timing signals, And generate a scan signal data stream based on the burst signal and the video data stream.

In step S73, the high-resolution analog video transmitting apparatus 11 can transmit an analog scan signal obtained by digital-analog-converting the scan signal data stream constituted by the timing signals and the video data stream.

According to the embodiment, in step S73, the high-resolution analog image transmitting apparatus 11 may perform pre-emphasis to compensate for channel distortion of the analog scan signal.

In step S74, the high-resolution analog image receiving apparatus 12 can analog-digital-convert the received analog scan signal to generate a received scan signal data stream.

In step S75, a high-resolution analog video receiving apparatus 12 may identify timing signals, including a horizontal sync signal, from the received scan signal data stream, and extract the video data stream.

In step S76, the high-resolution analog video receiving apparatus 12 can generate a frame with the extracted video data streams.

On the other hand, according to the embodiment, the high resolution analog image transmission method of the present invention includes the step of evaluating the distortion of the channel based on the distortion of the amplitude of the color burst signal detected in the received analog scan signal by the high resolution analog image transmitting apparatus 11 And changing the frequency or amplitude of the color burst signal according to the control signal of the high-resolution analog image receiving apparatus 12 or the predetermined schedule, by the high-resolution analog image transmitting apparatus 11.

According to the embodiment, in the high resolution analog image transmission method of the present invention, the high-resolution analog image receiving apparatus 12 generates a pre-emphasis control signal based on the estimated channel distortion and outputs the generated pre- To the high-resolution analog video transmitting apparatus (11).

In this case, the high-resolution analog image transmitting apparatus 11 may perform pre-emphasis and transmit a pre-emphasized analog scan signal in order to compensate for channel distortion of the analog scan signal according to the pre-emphasis control signal .

According to an embodiment of the present invention, a high-resolution analog image transmission method of the present invention is a high-resolution analog image transmission method in which a high-resolution analog image reception device 12 transmits a high-resolution analog image transmission And supplying power to the device 11.

According to an exemplary embodiment of the present invention, a high-resolution analog image transmission method of the present invention controls the operation of a high-resolution analog image transmission apparatus 11 using a band in which a high-resolution analog image reception apparatus 12 does not overlap a band of an analog scan signal And transmitting a control signal for controlling the mobile terminal.

According to the embodiment, the high-resolution analog image transmission method of the present invention includes the steps of transmitting an analog scan signal including a vertical sync waveform for frame synchronization between a frame and a next frame, And transmitting the control signal for controlling the operation of the high-resolution analog video transmitting apparatus 11 using the time interval during which the analog video receiving apparatus 12 receives the vertical sync waveform.

8 is a flowchart illustrating a method of transmitting a high-resolution analog scan signal according to embodiments of the present invention.

Referring to FIG. 8, a method of transmitting a high-resolution analog scan signal according to embodiments of the present invention is a method of transmitting a high-resolution analog video signal from a high-resolution analog video transmitter to a high-resolution analog video receiver.

In step S81, the high-resolution analog video transmitting apparatus 61 can convert the first image data array of the received first color space reference to the second image data array of the second color space reference.

In step S82, the high-resolution analog video transmitting apparatus 61 can generate a video data stream in each row of the second video data array.

According to the embodiment, in step S82, the high-resolution analog video transmitting apparatus 61 may group the primary color data by components and generate a video data stream from the grouped primary color data.

According to the embodiment, in step S82, the high-resolution analog image transmitting apparatus 61 groups the primary color data by components, decimates, downsamples or compresses the grouped primary color data, and outputs the reduced primary color data So that a video data stream can be generated.

In step S83, the high-resolution analog video transmitting apparatus 61 arranges the timing signals and the video data stream to transmit an analog scan signal obtained by digital-analog converting the scan signal data stream generated repeatedly.

According to the embodiment, in step S83, the high-resolution analog video transmitting apparatus 61 may perform pre-emphasis to compensate for channel distortion of the analog scan signal.

In step S84, the high-resolution analog image receiving apparatus 62 can analog-digital-convert the received analog scan signal to generate a received scan signal data stream.

In step S85, the high-resolution analog image receiving apparatus 62 can identify timing signals, including the horizontal sync signal, from the received scan signal data stream, and extract the image data stream.

In step S86, the high-resolution analog video receiving apparatus 62 can generate a frame with the extracted video data streams.

The analog video transmission system according to the embodiments of the present invention described above can be used to transmit video to various display devices. For example, the analog video transmission system described above can be used for an interface between a camera of a black box and a storage medium, thereby realizing an efficient image transmission effect. Furthermore, the analog video transmission system described above may be used as an interface for processing video images in a digital video recording system.

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to provide further explanation of the invention as claimed. It will be understood that variations and specific embodiments which may occur to those skilled in the art are included within the scope of the present invention.

Further, the apparatus according to the present invention can be implemented as a computer-readable code on a computer-readable recording medium. A computer-readable recording medium includes all kinds of recording apparatuses in which data that can be read by a computer system is stored. Examples of the recording medium include ROM, RAM, optical disk, magnetic tape, floppy disk, hard disk, nonvolatile memory and the like. The computer-readable recording medium may also be distributed over a networked computer system so that computer readable code can be stored and executed in a distributed manner.

10, 60 high resolution analog video transmission system
11, 61 High-Resolution Analog Video Transmitter
111, 611 scan signal data stream generating unit
112, and 612 digital-analog conversion units
113, 613 analog scan signal output section
12, 62 High resolution analog video receiver
121, 621 analog scan signal receiver
122, 622 analog digital conversion section
123, 623 video data stream extracting unit
124, 624 frame generation unit
125, 625 power supply
126, 626 Transmission device control section
13, 63 cable

Claims (14)

Generating an image data stream in each row of the image data array, generating a scan signal data stream by arranging the timing signals and the image data stream, and generating an analog scan signal A video transmission device for transmitting the video data; And
An image receiving device for extracting the timing signals and the image data stream from a received scan signal data stream obtained by analog-digital conversion of the received analog scan signal, and generating a frame using the extracted image data streams;
Lt; / RTI &gt;
Wherein the image transmitting device is operable to group the primary color data by components and to generate the image data stream from the grouped primary color data. The image data array according to claim 1, wherein when the image is (2M + 2) (2N + 2) resolution (M and N are positive integers), the image data array is (2M + 2) L is an integer of 0? L? N), and the image data stream is a sequence of 2M + 2 cell readout data derived for each row. delete The apparatus of claim 1, wherein the image transmission device is operable to decimate, downsample, or compress the grouped primary color data, and to generate the image data stream from the reduced primary color data Wherein the high resolution analog video transmission system comprises: The image transmitting apparatus of claim 1, wherein the image transmitting apparatus performs pre-emphasis to compensate for channel distortion of the analog scan signal and transmits the pre-emphasized analog scan signal High-resolution analog video transmission system. The image transmission apparatus according to claim 1, wherein the image transmission device adds and modifies a color burst signal of a predetermined frequency and amplitude to a horizontal sync signal, and generates the scan signal data stream based on the modified horizontal sync signal and the image data stream Resolution analog video transmission system. The image transmission apparatus according to claim 1, wherein the image transmission apparatus inserts a color burst signal of a predetermined frequency and amplitude between the horizontal sync signal and the image data stream, and generates a color burst signal based on the horizontal sync signal, the color burst signal, And generates the scan signal data stream. The video receiving apparatus according to claim 6 or 7, wherein the video receiving apparatus evaluates the distortion of the channel based on the distortion of the amplitude of the color burst signal detected in the received analog scan signal,
Wherein the image transmitting apparatus changes the frequency or amplitude of the color burst signal according to a control signal of the image receiving apparatus or a predetermined schedule. 9. The image processing apparatus according to claim 8, wherein the image receiving apparatus generates a pre-emphasis control signal based on the estimated distortion of the channel, transmits the generated pre-emphasis control signal to the image transmitting apparatus,
Wherein the image transmitting apparatus is configured to perform pre-emphasis and to transmit the pre-emphasized analog scan signal in order to compensate for channel distortion of the analog scan signal according to the pre-emphasis control signal , High resolution analog video transmission system. The high-resolution analog image transmission system according to claim 1, wherein the image receiving apparatus supplies power to the image transmitting apparatus through a cable that receives the analog scan signal from the image transmitting apparatus. The image receiving apparatus of claim 1, wherein the image receiving apparatus controls the operation of the image transmitting apparatus by using a band that does not overlap with a band of the analog scan signal through a cable that receives the analog scan signal from the image transmitting apparatus And the control signal for the analog image transmission is transmitted. The image transmitting apparatus according to claim 1, wherein the image transmitting apparatus transmits the analog scan signal including a vertical sync waveform for frame synchronization between a frame and a next frame,
The video receiving apparatus transmits a control signal for controlling the operation of the video transmitting apparatus using a time interval during which the vertical sync waveform is received through a cable for receiving the analog scan signal from the video transmitting apparatus High-resolution analog video transmission system, featuring. An image transmitting device for generating an image data stream from the primary color data and transmitting an analog scan signal obtained by digital-analog converting a scan signal data stream in which timing signals and the image data stream are arranged; And
An image receiving device for extracting the timing signals and the image data stream from the received scan data stream generated by analog-digital conversion of the received analog scan signal, and generating a frame using the generated restored image data streams;
Lt; / RTI &gt;
Wherein the image transmitting device is operable to group the primary color data by components and to generate the image data stream from the grouped primary color data. Wherein each of the first image data array and the second image data array comprises a first image data array based on a first color space basis for each frame and converts the first image data array into a second image data array based on a second color space, An image transmitting device for generating an image data stream and transmitting an analog scan signal obtained by digital-analog converting a scan signal data stream in which timing signals and the image data stream are arranged; And
An image receiving device for extracting the timing signals and the image data stream from the received scan data stream generated by analog-digital conversion of the received analog scan signal, and generating a frame using the generated restored image data streams;
/ RTI &gt; analog video transmission system.

Images