KR102022082B1 - Wireless video interface - Google Patents

Abstract

Disclosed is a wireless video interface device which comprises: a wireless video transmission interface device wirelessly transmitting a video of a source apparatus; and a wireless video reception interface device receiving the video and transmitting the video to a display apparatus. The wireless video transmission interface device adjusts a quality level of an original video and generates a converted video in accordance with channel state information. The wireless video reception interface device restores the converted video to a format of the original video and generates a restored video.

Description

Wireless video interface device {Wireless video interface}

The present invention relates to a wireless video access device, and more particularly, to a wireless video transmission access device including a wireless video transmission access device for wirelessly transmitting an image of a source device and a wireless video reception access device for receiving and transmitting an image to a display device. It is about.

With the development of wireless technology, source devices such as smartphones, desktop PCs or consoles and display devices such as large display devices or head mounted display (HMD) devices are connected wirelessly, allowing users to enjoy the video of the source devices on the display devices. There is a problem that loss of image data or loss of image occurs due to fading, shadowing effect, radio wave attenuation, noise, or interference according to a wireless channel environment.

Conventionally, as described in the patent document, the channel state is monitored to reduce the loss of the image data, and the coding rate of the image is adaptively changed in correspondence to the channel state.

Conventionally, a first communication section for transmitting an image stream and a second communication section for transmitting auxiliary data for monitoring channel conditions are formed between a source device and a display device. The auxiliary data is data used for the process of monitoring the channel state and the process for matching the image format between the source device and the display device. If the image format between the source device and the display device does not match, the display device cannot play back the image of the source device.

However, in the related art, video interruption may occur in a display device by adjusting and setting image quality according to a wireless channel while exchanging auxiliary data between a source device and a display device, and a user's video immersion may be reduced by video interruption. There is a problem that can be. For example, when the display device changes and sets an image format, a switching section occurs and an image is interrupted.

In addition, some display devices include a function for changing a video format or a function for providing wired and wireless communication, while some display devices include a function for providing a fixed video format only or a function for providing wired communication only. The device has a problem that it is difficult to apply the image format change technology according to the conventional wireless channel environment.

Korean Patent Registration No. 10-1211432

In order to solve the above problems, the present invention generates a converted image by adjusting the quality level of the original image according to channel state information in the wireless image transmission access device, and restores the converted image to the format of the original image in the wireless image receiving access device. Create a reconstructed image.

The present invention provides a fixed image receiving unit in the wireless image transmission connection device, a fixed image transmitting unit is provided in the wireless image receiving connection device, to transmit the image in a fixed format from the source device, the fixed format in the display device Receive images.

The present invention not only uses the channel state information to determine the quality level of the image, but also supports the stable performance of beamforming, diversity operation, and transmission power adjustment operation.

According to an aspect of the present invention, there is provided a wireless image transmission access apparatus for wirelessly transmitting an image of a source device, including: a fixed image receiving unit receiving an original image of the source device; An image converter configured to generate a converted image by adjusting a quality level of an original image; A first high speed communication unit for wirelessly transmitting the original image or the converted image; A first low speed communication unit for receiving channel state information from a wireless image receiving access device that wirelessly receives the original image or the converted image and transmits the converted image to a display device and an image transmission control unit controlling an operation of the image conversion unit in response to the channel state information. Including a, characterized in that to prevent the video break in the display device.

The image transmission controller may determine the quality level of the original image by comparing the channel state measurement value included in the channel state information with a reference value according to the channel state.

The image converter may generate a converted image by adjusting one or more of a resolution, a refresh rate, a color depth, and a color format of the original image to the determined quality level. Can be.

The image transmission controller may compare the channel state measurement value with a reference value and determine whether to perform one or more of an image converter operation, a beamforming and diversity operation, and a transmission power adjustment operation.

The reference value includes a first reference value as a reference for transmission of an original image, a second reference value as a reference for transmission of a converted image, and a third reference value as a reference for performing beamforming and diversity operations. The third reference value may be a value that is a reference value for step-by-step transmission power adjustment.

A wireless image receiving access device for wirelessly receiving an image of a source device and transmitting the image to a display device according to an embodiment of the present invention, the original image of the source device or a converted image of which the image quality of the original image is adjusted from the wireless image transmission connection device. A second high speed communication unit for receiving; An image restoration unit for restoring the converted image to a format of an original image; A fixed image transmitter for transmitting the original image or the restored image to a display device; And a second low speed communication unit for receiving image format information from the wireless image transmission and access device, and an image reception control unit for controlling an operation of the image reconstruction unit in response to the image format information. It is done.

The image receiving control unit may generate channel state information through the RSSI of the second high speed communication unit and the BER of the image, and the second low speed communication unit may wirelessly transmit the channel state information.

The image receiving control unit may control to transmit one of an original image, a restored image, a still image or a previous frame image stored in a memory to a display device in response to a channel environment.

According to the present invention, by generating a converted image by adjusting the quality level of the original image according to the channel state information in the wireless image transmission access device, and generating a restored image by restoring the converted image to the format of the original image in the wireless image receiving access device, Even display devices that provide only wired communication can play video from the source device wirelessly, and display devices that only provide a fixed video format can play back restored video with a quality level adjusted according to channel conditions. There is a remarkable effect that can prevent the break.

The present invention provides a fixed image receiving unit in the wireless image transmission connection device, a fixed image transmitting unit is provided in the wireless image receiving connection device, to transmit the image in a fixed format from the source device, and to display the image in a fixed format on the display device. By receiving, there is a remarkable effect of eliminating the handshaking process for matching the image format or quality level between the source device and the display device.

The present invention not only uses the channel state information to determine the image quality level, but also supports the stable performance of beamforming, diversity operation, and transmission power adjustment operation, thereby preventing image interruption on the display device, and stably beaming. Forming and diversity operation can be performed, and there is a remarkable effect of efficiently adjusting the transmission power.

1 is a block diagram showing a wireless image access apparatus according to an embodiment of the present invention.
2 is a diagram illustrating an antenna structure of the wireless image access device of FIG. 1.
3 is an example of a graph showing a BER environmental condition required for an image resolution.
4 illustrates an example of a source device and a display device in which a single wireless communication section is formed.
5 illustrates an example of a source device and a display device in which two conventional wireless communication sections are formed.
FIG. 6 illustrates an example of transmitting a converted image from a wireless video transmission access device of FIG. 2 to a wireless video reception access device.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings and the contents described in the accompanying drawings, but the present invention is not limited or limited to the embodiments.

1 is a block diagram illustrating a wireless video access device according to an embodiment of the present invention, wherein the wireless video access device receives a wireless video transmission access device 100 and an image for wirelessly transmitting an image of a source device 300. And a wireless image receiving access device 200 for transmitting to the display device 400. The wireless image transmission access device 100 and the wireless image reception access device 200 are connected to the source device 300 and the display device 400, respectively, and the source device 300 is wirelessly provided even in the display device 400 that provides only wired communication. ) Can be played back.

The wireless image transmission access device 100 includes a fixed image receiver 110, an image converter 120, a first baseband signal processor 130, a first high speed communication unit 140, a first low speed communication unit 150, and an image. The transmission control unit 160 is included.

The fixed image receiver 110 receives an original image of the source device 300, and the image converter 120 generates a converted image by adjusting a quality level of the original image. The original image is a high quality optimal image or an image of a format supported by the source device 300 or the display device 400. The converted image is a deteriorated image whose quality level is adjusted and is classified into an image having a quality level corresponding to the channel environment.

The first baseband signal processing unit 130 processes the original image or the converted image as a digital signal, and the first high speed communication unit 140 loads the baseband signal on a carrier of millimeter wave or terahertz wave and transmits it wirelessly. Convert to RF signal.

The first high speed communication unit 140 wirelessly transmits an original image or a converted image, which is an RF signal, and the second low speed communication unit 150 receives channel state information from the second low speed communication unit 250 of the wireless image receiving access device 200. Receives or transmits the channel state of the wireless image transmission access device 100, the image transmission control unit 160 controls the operation of the image conversion unit 120 in response to the channel state information.

The image transmission controller 160 determines whether to perform the operation of the image converter 120 by comparing the channel state measurement value included in the channel state information with a reference value according to the channel state, and determines whether to perform the operation of the image converter 120. The quality level of the original image is determined.

The image converter 120 generates a converted image by adjusting one or more of a resolution, a refresh rate, a color depth, and a color format of the original image at the determined quality level. The resolution is an indication of how many pixels are included in a screen, and is generally expressed as a product of the number of pixels in the horizontal and the number of pixels in the vertical. For example, the resolution is divided into 1280 x 720 representing HD, 1920 x 1080 representing FHD, 3840 x 2160 representing 4k, and 7680 x 4320 representing 8k. The refresh rate is the number of full screen shots sent in one second. For example, a refresh rate of 60 Hz means to shoot the entire screen 60 times per second. Color depth expresses the number of colors by the number of bits. For example, if each of RGB is 8 bits, the color depth is 24 bits. Color format refers to the detection, presentation, and display of images in electronic systems such as televisions and computers. Color formats are divided into the most basic RGB format and YUV format specialized for a specific analog or digital TV or photographic equipment. In YCbCr444, which is YUV444, when the luminance difference Y is 4 bytes, the blue difference U and the red difference V become 4 bytes, respectively.

The image transmission control unit 160 compares the channel state measurement value with the reference value to determine whether to perform one or more of the image conversion unit 120 operation, beamforming and diversity operation, and transmission power adjustment operation. The reference value includes a first reference value that is a reference for transmission of an original image, a second reference value that is a reference for transmission of a converted image, and a third reference value that is a reference for performing beamforming and diversity operations. The first reference value is greater than the second reference value and the third reference value, and the second reference value includes quality reference values for each level divided into multi-level quality levels, and the third reference value includes a lower quality reference value from the second reference value.

If the channel measurement value is equal to or greater than the first reference value, the image transmission control unit 160 controls the original image to be wirelessly transmitted. If the channel measurement value is included in the range of the second reference value, the image transmission control unit 160 compares the channel measurement value with the quality reference value for each level. Determine the quality level of the image. The image transmission control unit 160 controls to perform beamforming and diversity operations when the channel measurement value is smaller than the third reference value. When it is determined that the beamforming and diversity operations are performed, the image transmission controller 160 generates control information including channel search request information, and the first low speed communication unit 150 wirelessly transmits the control information.

The first reference value to the third reference value are values that are reference for the step-by-step transmission power adjustment. The image transmission control unit 160 controls to maintain the transmission power at low power if the channel state measurement value is equal to or greater than the first reference value, and controls the transmission power at high power if the state measurement value is included in the second reference value. If the state measurement value is less than the third reference value, the control unit adjusts the transmission power to ultra high power. The image transmission control unit 160 may operate by further subdividing the steps to adjust the output level of the transmission power for power efficiency.

The image transmission control unit 160 controls the operation of the image conversion unit 120 to be performed before the beamforming, diversity operation, or transmission power adjustment operation is performed. According to the present invention, by controlling the operation of the image converter 120 to be performed before the beamforming and diversity operation or the transmission power adjustment operation, the display device 400 can reproduce the image without interruption, and the beamforming and Diversity operation or transmission power adjustment operation can be performed stably.

The image transmission control unit 160 controls high quality original image transmission when the channel state corresponding to the first reference value is improved by beamforming and diversity operations, and performs a transmission power adjustment operation, and then transmits high quality original image. This makes it possible to stably control the transmission power.

According to the present invention, a reference image may be divided into first and third reference values to generate a converted image with a multi-level quality level, and additionally, to perform beamforming and diversity operations and transmission power adjustment operations. By using the reference value as a reference, it is possible to prevent the image cut off in the display device 400.

The wireless image receiving access device 200 includes a fixed image transmitter 210, an image recovery unit 220, a second baseband signal processor 230, a second high speed communication unit 240, a second low speed communication unit 250, and an image. The reception control unit 260 is included. The wireless video transmission access device 100 may be connected to the display device 400 to perform an operation of the wireless video reception access device 200, and the wireless video reception access device 200 may be connected to the source device 300. An operation of the wireless image transmission access device 100 may be performed.

The second high speed communication unit 240 receives the original image of the source device 300 or the converted image of which the quality of the original image is adjusted, and the second baseband signal processor 230 converts the original image or the converted image into a baseband signal. Convert to

The image restoration unit 220 restores the converted image to the format of the original image, the fixed image transmitter 210 transmits the original image or the restored image to the display device 400, and the second low speed communication unit 250 transmits the wireless image. The image format information is received from the first low speed communication unit 150 of the transmission access device 100, and the image reception controller 260 controls the operation of the image restoration unit 220 in response to the image format information. For example, when reconstructing the resolution, the image reconstructor 220 may perform a reconstruction operation by scaling one pixel to a plurality of pixels.

The image transmission control unit 260 controls to perform beamforming and diversity operations when the channel measurement value is smaller than the reference value. When it is determined to perform beamforming and diversity operations, the image transmission controller 260 generates control information including channel search request information, and the first low speed communication unit 250 wirelessly transmits the control information.

The image reception controller 260 generates channel state information through the reception strength RSSI of the second high speed communication unit and the bit error rate BER of the image, and the second low speed communication unit 250 wirelessly transmits the channel state information. RSSI and BER may be made of channel measurements.

The image receiving controller 260 controls to transmit one of an original image, a restored image, and a still image stored in a memory to a display device in response to a channel environment.

2 is a diagram illustrating an antenna structure of the wireless image access apparatus of FIG. 1. The high speed communication unit 140 and 240 included in each of the wireless image transmission access apparatus 100 and the wireless image receiving access apparatus 200 have high capacity. Multiple antennas are installed for transmitting image data, minimizing loss of image data, and for beamforming and diversity operations. The low-speed communication unit 150 and 250 included in each of the wireless video transmission access device 100 and the wireless video reception access device 200 transmits low-capacity information such as channel state information sharing, image format information transmission, or channel search request information transmission. To do this, a single antenna is installed. The wireless image access apparatus may perform diversity for each antenna according to a channel state, and perform beamforming for each beam direction of the antenna.

The image converter 120 generates the converted image by adjusting the quality level suitable for the channel environment of the original image, and the first high speed communication unit 140 transmits the converted image to a high-speed wireless channel using a millimeter wave frequency such as a 60 GHz band. Can be.

3 is a graph illustrating a BER environmental condition required for the resolution of an image, and the second reference value includes quality reference values for each level divided into multi-level quality levels. For example, in a video transmission environment where a bit error occurs within 1 bit / frame based on an operation of 60 Hz frame rate, HD (24b, 420) level video transmission is possible in a wireless transmission environment condition of 10 ^-7 BER, and 2x10 ^-9 BER In the following environment, 8k (48b, 444) class video transmission is possible.

4 illustrates an example of a source device and a display device in which a single wireless communication section is formed in the related art. In the related art, the display device 400 provides only a function of providing a fixed image format to adaptively correspond to a channel environment. There is a problem that the image of the display device 400 is interrupted or the black screen is not generated because the quality level of the display device 400 cannot be adjusted.

FIG. 5 illustrates an example of a source device and a display device in which two conventional wireless communication sections are formed, and conventionally, an auxiliary device for monitoring a first communication section and a channel state for transmitting an image stream between the source device and the display device. A second communication interval is formed for transmitting data. The auxiliary data is data used for the process of monitoring the channel state and the process for matching the image format between the source device and the display device. If the image format between the source device and the display device does not match, the display device cannot play back the image of the source device.

Conventionally, video interruption may occur in a display device by adjusting and setting an image quality according to a wireless channel while exchanging auxiliary data between a source device and a display device, and a user's image immersion may be reduced by the video interruption. There is a problem that can be. For example, when the display device changes and sets an image format, a switching section occurs and an image is interrupted.

6 illustrates an example of transmitting a converted image from a wireless image transmission access device of FIG. 2 to a wireless video reception access device. A good channel corresponds to a first reference value, and a not good channel corresponds to a second reference value or a third reference value. The bad channel corresponds to less than the third reference value.

4 and 5 according to the related art and FIG. 6 according to the embodiment of the present invention, the wireless image access device of the present invention has a quality level of an original image according to channel state information in the wireless image transmission access device 100. Display apparatus 400 for providing a wired communication only by generating a converted image by providing a wireless image access device for generating a restored image by restoring the converted image to a format of an original image in the wireless image receiving access apparatus 200. ) Can wirelessly play the video of the source device, and even in the display device 400 that provides only a fixed video format, it is possible to play the restored video whose quality level is adjusted according to the channel state, and the video of the display device 400. It can prevent breakage.

According to the present invention, the fixed image receiver 110 is provided in the wireless image transmission access device 100, and the fixed image transmitter 210 is provided in the wireless image reception access device 200. By transmitting the image and receiving the image in a fixed format in the display device 400, the handshaking process for matching the image format or the quality level between the source device 300 and the display device 400 can be eliminated. .

100: wireless video transmission connection device
200: wireless video receiving access device
300: source device
400: display device

Claims (8)

In the wireless image transmission connection apparatus for wirelessly transmitting the image of the source device,
A fixed image receiving unit which receives an original image of a source device;
An image converter configured to generate a converted image by adjusting a quality level of an original image;
A first high speed communication unit for wirelessly transmitting the original image or the converted image;
A first low speed communication unit configured to receive channel state information from a wireless image receiving access apparatus which wirelessly receives the original image or the converted image and transmits the same to the display device;
And an image transmission controller for controlling an operation of the image converter in response to the channel state information.
The image transmission control unit compares the channel state measurement value included in the channel state information with a reference value according to the channel state, and determines whether to perform one or more of the image conversion unit operation, beamforming and diversity operation, and transmission power adjustment operation.
The reference value includes a first reference value as a reference for transmission of an original image, a second reference value as a reference for transmission of a converted image, and a third reference value as a reference for performing beamforming and diversity operations.
The first reference value to the third reference value is a value that is a reference for the step-by-step transmission power adjustment,
Wireless video transmission connection device, characterized in that to prevent video interruption in the display device. delete The method of claim 1,
The image converter generates a converted image by adjusting one or more of a resolution, a refresh rate, a color depth, and a color format of the original image at a determined quality level. Wireless video transmission connection device. delete delete In the wireless image receiving access device for wirelessly receiving the image of the source device to transmit to the display device,
A second high speed communication unit configured to receive an original image of a source device or a converted image of which image quality of the original image is adjusted from a wireless image transmission connection apparatus;
An image restoration unit for restoring the converted image to a format of an original image;
A fixed image transmitter for transmitting the original image or the restored image to a display device;
A second low speed communication unit for receiving image format information from the wireless image transmission and connection apparatus;
An image receiving control unit controlling an operation of an image restoring unit in response to the image format information;
The image receiving controller generates channel state information through the RSSI of the second high speed communication unit and the BER of the image, and the second low speed communication unit wirelessly transmits the channel state information.
The wireless image transmission access device compares the channel state measurement value included in the channel state information with a reference value according to the channel state, and determines whether to perform one or more of an image conversion unit operation, beamforming and diversity operation, and transmission power adjustment operation.
The reference value includes a first reference value as a reference for transmission of an original image, a second reference value as a reference for transmission of a converted image, and a third reference value as a reference for performing beamforming and diversity operations.
The first reference value to the third reference value is a value that is a reference for the step-by-step transmission power adjustment,
Wireless video receiving access device, characterized in that to prevent video interruption in the display device. delete The method of claim 6,
And the image receiving controller controls to transmit one of an original image, a restored image, and a still image or a previous frame image stored in a memory to a display device in response to a channel environment.

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