KR100855852B1 - Led display system for exhibiting high definition video in real time - Google Patents

Abstract

An LED display system for exhibiting high definition video in real time is provided to display the high definition video by utilizing wireless or wire LAN(Local Area Network) communication networks without optic and coaxial cables. An LED(Light Emitting Diode) display system for exhibiting high definition video includes an LED display managing device(301) and an LED plate(303). The LED display managing device includes a switcher(309) and a device controller(305). The switcher receives image sources and outputs image signals. The device controller includes an image capture board(311) for performing image capturing, and wire and wireless LAN communication units(312,335) for transmitting control signals to control the LED plate and for receiving external luminance detection sensing values from the LED plate. The LED plate includes a plate controller(307), a controller(315) for distributing image signals from a graphic card for processing the image signals, plural section boards(317) for delivering the image signals from the controller to the LED modules, and plural LED modules(319) for displaying image signals from the section boards. The plate controller includes wire and wireless LAN communication units for receiving control signals to control the LED plate and for transmitting the external luminance detection sensing values to LED display managing device.

Description

High resolution video real time display board system {LED display system for exhibiting high definition video in real time}

The present invention relates to a system for selecting a plurality of external high-resolution video to display in real time on a remote display.

LED (Light Emitting Diode) refers to a light emitting diode that emits light and emits light of various colors such as red, green, blue, and yellow, and is used as an electronic display panel for various electronic products and instrument panels. . The LED display unit may be implemented by arranging a plurality of LEDs in a tiled manner and lighting all or some of the LEDs.

In general, the electronic signboard is a system for displaying various types of information in a visible state, and is widely used for commercial advertisement, stadium, multivision, traffic signal, and information or message transmission. Although light bulbs were mainly used for electronic display boards, fluorescent lamps have been mainly used in consideration of the amount of electric power used by light bulbs. However, in the case of a light bulb or a fluorescent lamp, there is a limit to reducing the size, which is inadequate for representing an image. For this reason, in recent years, CRT (cathode ray tube) and the like are used, but due to the limitation of the enlargement of the size, the electric signboard composed of LED is becoming popular.

Currently, such LED signboards are modular, and each module consists of a plurality of pixels arranged horizontally and vertically. The LED pixel module refers to a basic unit that can change color by using one or more LEDs in one pixel unit. The pixel may be classified into various types according to the shape and size of the LED. The pixel may be classified into a red-green (RG) pixel and a red-green-blue (RGB) pixel according to the number of LEDs to be combined. That is, the full-color LED composed of RGB, which constitutes one pixel module as the smallest unit that can be individually controlled, is configured by combining R, G, and B lamps or 3in1 RGB lamps.

In general, the LED signboard system uses a switcher to display an image input from a plurality of image input sources in real time on a remotely installed LED signboard. A configuration of an LED signboard system that displays a plurality of conventional image input sources on a LED signboard installed at a remote location will be described in detail with reference to FIGS. 1 and 2.

FIG. 1 is a diagram exemplarily illustrating a configuration of a video display display system for displaying a video signal input from a plurality of image input sources to a LED display installed at a remote location. Referring to FIG. 1, a conventional video display signage system includes a signage display device 101 and a remote display signage 103.

The display board operating device 101 is connected to a plurality of video input sources (DVD player, VTR, cable TV, CCTV, camcorder, etc.) and receives a switcher 109, an operating device controller 105, and a controller 115. It includes. The switcher 109 receives a plurality of video signals from a plurality of video input sources connected through the coaxial cable 121, and then outputs at least one video signal to the operating device controller 105. The video signal input to the switcher 109 may include a digital video signal and an analog video signal. In general, four or eight video signals are input, and two to four output signals are connected to each other through a coaxial cable 121. Output to device control unit 105. In order to check whether the input image signal is any, a monitor may be installed at a terminal input to the switcher 109 to check the state of the image, and an image source to be output to the output terminal may be selected. Selection of the image to be output may be a button input from the switcher 109 or may be performed by a connected operating device controller 105. In order to confirm whether the image signal output from the switcher 109 is correctly selected, a monitor may be installed at the output terminal to check the output image. The operating device controller 105 that receives an image signal from the switcher 109 may be implemented as a conventional personal computer (PC). The operating device controller 105 may include a TV reception card 111, a graphics card 113, a wired LAN card, and the like. The video signal input through the operating device control unit 105 passes through the TV receiving card 111 and the graphics card 113 and the controller 115 through the DVI cable 123 connected to the DVI terminal of the graphics card 113. Is entered. The operating device control unit 105 transmits a power control signal, a temperature control signal, or the like to the display control unit 107 installed in the display board 103 at a remote location, or receives a sensing value of various sensors including an external illuminance detection sensor. It may be performed using the LAN communication network 127. The controller 115 distributes the input image signal to correspond to the plurality of section boards 117 included in the electric sign 103 of the remote place and transmits the received image signal through the optical cable 125. The optical cable 125 connecting the controller 115 of the electric sign operating apparatus 101 and the plurality of section boards 117 included in the electric sign 103 located at a remote place is generally 2 to 3 depending on the resolution of the electric sign 103. You need about ten.

The electronic sign 103 installed at a remote location includes an electronic sign control unit 107, a plurality of section boards 117, and a plurality of LED modules 119 in charge of each section board. The electronic board controller 107 may be implemented as a conventional personal computer (PC), and receives a power control signal, a temperature control signal, etc. from the operating device controller 105, or senses values of various sensors including an external illuminance detection sensor. The function of transmitting the data may be performed using the local area network 127. The section board 117 may be distributed in the controller 115 included in the electronic sign board operating apparatus 101 and transferred to the LED module 119 in charge of an image signal input through the optical cable 125 and displayed in real time. Make sure

FIG. 2 is a diagram exemplarily illustrating another configuration of a video display display system for displaying a video signal input from a plurality of image input sources in a conventional LED display panel installed at a remote location. Referring to FIG. 2, a conventional video display display system includes an display operating apparatus 101 and a display board 103 at a remote location.

The display operating apparatus 101 includes a switcher 109 and an operating device controller 105 connected to a plurality of image input sources (DVD player, VTR, cable TV, CCTV, camcorder, etc.) to receive an image source. The switcher 109 receives a plurality of video signals from a plurality of video input sources connected through a coaxial cable 121, and then receives at least one video signal from a TV control panel of the electronic sign controller 107 of the electronic sign 103 located at a remote location. Output to the card 111. The video signal input to the switcher 109 may include a digital video signal and an analog video signal. In general, 4 or 8 video signals are input, and 2-4 output signals are connected through a coaxial cable 121. Output to the TV reception card 111 of the control unit 107. In order to check whether the input image signal is any, a monitor may be installed at a terminal input to the switcher 109 to check the state of the image, and an image source to be output to the output terminal may be selected. Selection of the image to be output may be a button input from the switcher 109 or may be performed by a connected operating device controller 105. In order to confirm whether the image signal output from the switcher 109 is correctly selected, a monitor may be installed at the output terminal to check the output image. The operating device control unit 105 may be implemented as a conventional personal computer (PC), and transmits a power control signal, a temperature control signal, or the like to an electronic sign control unit 107 installed in a display board 103 at a remote location, or an external illuminance detection sensor. Receiving the sensing values of various sensors, including the like, may be performed using the local area network 127.

The electronic sign 103 installed at a remote location includes an electronic sign control unit 107, a controller 115, a plurality of section boards 117, and a plurality of LED modules 119 in charge of each section board. The electronic board controller 107 may be implemented as a conventional personal computer (PC), and receives a power control signal, a temperature control signal, etc. from the operating device controller 105, or senses values of various sensors including an external illuminance detection sensor. The function of transmitting the data may be performed using the local area network 127. In addition, the display control unit 107 may further include a TV receiving card 111, a graphic card 113, etc. to receive an image signal from the switcher 109 via the coaxial cable 121. The video signal input through the electronic display control unit 107 passes through the TV receiving card 111 and the graphic card 113 to the controller 115 through the DVI cable 123 connected to the DVI terminal of the graphic card 113. Is entered. The controller 115 distributes the input image signal to correspond to the plurality of section boards 117 and transmits the same through the optical cable 125. The optical cable 125 connecting the controller 115 and the plurality of section boards 117 generally requires about 2 to 10, depending on the resolution of the electric sign 103. The section board 117 is distributed from the controller 115 and transferred to the LED module 119 in charge of an image signal input through the optical cable 125 to be displayed in real time.

In the conventional video display display system described with reference to FIGS. 1 and 2, the video signal input through the switcher 109 can be recorded, and a function such as a separate editing or a recording and transmission can be expected. There are no drawbacks. In addition, in the conventional moving picture display panel system described with reference to FIG. 1, in the case of the display panel 103 made together with the building, a plurality of optical cables 125 or coaxial cable 121 communication lines are used during the architectural design. If it is not secured and installed in advance, there is a problem that must be done for a separate communication line. In general, in the case of architectural design, telephone lines and LAN lines are often secured, but optical cables and coaxial cables are rarely secured. In general, a signboard operating device is installed inside the building, and a signboard is often installed outside, it may be necessary to dig a new cable by digging a paved yard, parking lot, road, and the like. In such a case, not only manpower, cost, and time due to the communication work, but also the problem that the existing packaging state may be deteriorated. Due to the problems described above, the cost of the communication signage is displayed separately in the quotation for most of the signboard construction. In addition, it is difficult to process accurate estimates, and it is inconvenient to visit the site several times for communication work and to consult with facility personnel. The problem is even worse when the installation site is overseas.

As described above, the conventional video display display system described with reference to FIGS. 1 and 2 includes a power control signal, a temperature control signal, an external illuminance detection sensor, and the like, between the display operating device 101 and the display board 103 at a remote location. It is connected by wired coaxial or optical cable which requires separate laying work together with wired or wireless LAN communication network for receiving or transmitting sensing values of various sensors, which requires enormous cost, effort and time to connect new cables. There is a problem.

Accordingly, an object of the present invention is to solve the above problems.

It is a specific object of the present invention to provide a high resolution video real-time display board system using a local area network and wireless or wired local electronic communication board and a remote display without the high-resolution video cable or coaxial cable line.

It is another object of the present invention to provide a high resolution video real-time display board system using a local area LAN communication and an internet network of an operating device and a remote display board without a optical cable or a coaxial cable line.

Still another object of the present invention is to provide a high-resolution video real-time display board system capable of recording a video signal input, perform a separate edit, transmit after recording, or transmit in real time simultaneously with recording. There is.

In order to achieve the above objects, according to an aspect of the present invention, a switchboard for receiving a video source from a plurality of video input sources, and outputs at least one video signal and a video signal from a switcher to a remote electronic sign Transmits to be displayed in real time in the real-time, and transmits at least one control signal for controlling the image capture board, the image signal and the signboard to capture and record in real time to the signboard, the sensing including at least an external illumination detection sensing value from the signboard Receiving at least one control signal for controlling the image signal and the display board and the display board operating apparatus including an operating device control unit including at least one of a wired LAN communication unit and a wireless LAN communication unit for receiving a value and at least an external illuminance detection sensing value Sending the included sensing value to the electronic board operating device At least one of a wired LAN communication unit and a wireless LAN communication unit, an electronic board control unit including a graphics card for processing a video signal, a controller for distributing and transmitting the video signal input from the graphics card corresponding to a plurality of section boards, distributed from the controller It is possible to provide a high resolution video real-time display board system including a display board including a plurality of section boards for transmitting the input image signal to the LED module and a plurality of LED modules for displaying the video signal transmitted from the section board in real time. have.

In a preferred embodiment, the display board operating device and the display board is characterized in that coupled via a wired or wireless LAN communication network. The plurality of video input sources may include at least two of a DVD player, a VTR, a cable TV, a CCTV, and a camcorder.

According to the present invention, the following effects can be expected.

According to the present invention, it is possible to provide a high-definition video real-time display board system using an operating device and a remote display board and a wireless or wired local area network without high-resolution video cable or coaxial cable line.

According to the present invention, it is possible to provide a high resolution video real-time display board system using a high-resolution video without an optical cable or a coaxial cable line using an operating device and a remote display board and a wireless or wired local area LAN communication and an internet network.

According to the present invention, it is possible to provide a high-definition video real-time display board system that can record the input video signal, perform a separate edit, transmit after recording, and at the same time recording and real-time transmission have.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First of all, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used as much as possible even if displayed on different drawings. In addition, in describing the present invention, when it is determined that the detailed description of the related well-known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.

3 is a diagram showing the configuration of a high-resolution video real-time display board system for displaying a video signal input from a plurality of video input sources according to an embodiment of the present invention to a LED display board installed in a remote location. Referring to FIG. 3, a high-resolution video real-time display board system according to an exemplary embodiment of the present invention includes a display board operating device 301 and a remote display board 303.

The display operating device 301 includes a switcher 309 and an operating device controller 305 connected to a plurality of video input sources (DVD player, VTR, cable TV, CCTV, camcorder, etc.) to receive an image source. The switcher 309 receives a plurality of image signals from a plurality of image input sources connected through the coaxial cable 321, and then outputs at least one image signal to the operating device controller 305. The video signal input to the switcher 309 may include a digital video signal and an analog video signal. In general, four or eight video signals are input, and two to four output signals are connected through a coaxial cable 321. Output to the device control unit 305. In order to check whether the input image signal is any, a monitor may be installed at a terminal input to the switcher 309 to check the state of the image, and an image source to be output to the output terminal may be selected. Selection of the image to be output may be a button input from the switcher 309 or may be performed by a connected operating device controller 305. In order to confirm whether the video signal output from the switcher 309 is correctly selected, a monitor may be installed at the output terminal to check the video output. The operating device controller 305 that receives an image signal from the switcher 309 may be implemented as a conventional personal computer (PC). The operating device controller 305 may include an image capture board 311, a wired LAN card 312, a wireless LAN card 335, and the like. The high resolution video output from the switcher 309 is input to the image capturing board 311, and the image capturing board 311 transmits the input high resolution video to a remote display board 303 through a wireless or wired local area network 327. By transmitting, it is possible to display in real time on the remote display board 303. In addition, the image capturing board 311 captures and records a video input from the switcher 309 in real time. The recorded video can be separately edited, transmitted after recording, or transmitted simultaneously with recording. To help. The operating device controller 305 transmits the image signal extracted from the image capturing board 311 to a remote display board 303 using a wireless or wired local area network 327, and transmits a power control signal, a temperature control signal, and the like. The electronic device may transmit a signal to the electronic board controller 307 of the electronic display board 303 or receive a sensing value of various sensors including an external illumination detection sensor using the wireless or wired local area network 327.

The electric signboard 303 to be installed at a remote location includes an electric signboard controller 307, a controller 315, a plurality of section boards 317, and a plurality of LED modules 319 in charge of each section board. The electronic board controller 307 may be implemented as a personal computer (PC), and receives a power control signal, a temperature control signal, etc. from the operating device controller 305, or senses values of various sensors including an external illuminance detection sensor. The function of transmitting the data to the operating device controller 305 may be performed by using a wireless or wired local area network 327. The video signal inputted from the operating device controller 305 to the electronic board controller 307 through a wireless or wired local area network 327 is passed through the graphic card 313 inside the electronic controller board 307, and thus, of the graphic card 313. It is input to the controller 315 through a DVI cable 323 connected to the DVI terminal. The controller 315 distributes the input image signal to correspond to the plurality of section boards 317 and transmits the same through the optical cable 325. The optical cable 325 connecting the controller 315 and the plurality of section boards 317 is generally required in the range of about 2 to about 10, depending on the resolution of the display board 303. The section board 317 is distributed by the controller 315 and transferred to the LED module 319 which is in charge of the image signal input through the optical cable 325, so that it can be displayed in real time.

4 is a view showing the configuration of a high-resolution video real-time display board system for displaying a video signal input from a plurality of video input sources according to another embodiment of the present invention to a LED display board installed in a remote place. Referring to FIG. 4, the high-resolution video display system according to an exemplary embodiment of the present invention includes a signboard operating device 301 and a signboard 303 at a remote location, and a signboard operating device 301 and a signboard at a remote location. 303 may be connected via the Internet 401 via a wireless or wired local area network 327.

The display operating device 301 includes a switcher 309 and an operating device controller 305 connected to a plurality of video input sources (DVD player, VTR, cable TV, CCTV, camcorder, etc.) to receive an image source. The switcher 309 receives a plurality of image signals from a plurality of image input sources connected through the coaxial cable 321, and then outputs at least one image signal to the operating device controller 305. The video signal input to the switcher 309 may include a digital video signal and an analog video signal. In general, four or eight video signals are input, and two to four output signals are connected through a coaxial cable 321. Output to the device control unit 305. In order to check whether the input image signal is any, a monitor may be installed at a terminal input to the switcher 309 to check the state of the image, and an image source to be output to the output terminal may be selected. Selection of the image to be output may be a button input from the switcher 309 or may be performed by a connected operating device controller 305. In order to confirm whether the video signal output from the switcher 309 is correctly selected, a monitor may be installed at the output terminal to check the video output. The operating device controller 305 that receives an image signal from the switcher 309 may be implemented as a conventional personal computer (PC). The operating device controller 305 may include an image capture board 311, a wired LAN card, a wireless LAN card, and the like. The high resolution video output from the switcher 309 is input to the image capturing board 311, and the image capturing board 311 remotely inputs the high resolution video through the Internet 401 via a wireless or wired local area network 327. By transmitting to the electric signboard 303 of the remote, it is possible to display in real time from the electric signboard 303 of the remote place. In addition, the image capturing board 311 captures and records a video input from the switcher 309 in real time. The recorded video can be separately edited, transmitted after recording, or transmitted simultaneously with recording. Make sure The operating device controller 305 transmits the image signal extracted from the image capturing board 311 to the electronic display panel 303 through a wired or wireless LAN communication network 401 using a wireless or wired local area network 327. , A power control signal, a temperature control signal, or the like, to the display board controller 307 of the display board 303, or to receive sensing values of various sensors including an external illuminance detection sensor or the like. ) Can be performed.

The electric signboard 303 installed at a remote location includes an electric signboard controller 307, a controller 315, a plurality of section boards 317, and a plurality of LED modules 319 in charge of each section board. The electronic board controller 307 may be implemented as a conventional personal computer (PC), and may be a power control signal, a temperature control signal, or the like from the operating device controller 305 through a wireless or wired local area network 327 and the Internet 401. Receiving or transmitting sensing values of various sensors including an external illuminance detection sensor to the operating device controller 305 may be performed using the Internet 401 and a wireless or wired local area network 327. The video signal input from the operating device controller 305 to the electronic board controller 307 via a wireless or wired local area network 327 and the Internet 401 is passed through the graphic card 313 inside the electronic board controller 307. It is input to the controller 315 through a DVI cable 323 connected to the DVI terminal of the card 313. The controller 315 distributes the input image signal to correspond to the plurality of section boards 317 and transmits the same through the optical cable 325. The optical cable 325 connecting the controller 315 and the plurality of section boards 317 is generally required in the range of about 2 to about 10, depending on the resolution of the display board 303. The section board 317 is distributed by the controller 315 and transferred to the LED module 319 which is in charge of the image signal input through the optical cable 325, so that it can be displayed in real time.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and variations without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

1 is a view showing a configuration of a video display sign system for displaying a video signal input from a plurality of conventional image input sources to a LED display board installed in a remote location.

2 is a view showing another configuration of a video display billboard system for displaying a video signal input from a plurality of conventional image input sources to a LED display board installed in a remote location.

3 is a view showing the configuration of a high-resolution video real-time display board system for displaying a video signal input from a plurality of video input sources according to an embodiment of the present invention to a LED display board installed in a remote location.

4 is a view showing the configuration of a high-resolution video real-time display board system for displaying a video signal input from a plurality of video input sources according to another embodiment of the present invention to a LED display board installed in a remote location.

Claims (5)

A switcher which receives an image source from a plurality of image input sources and outputs at least one image signal; And An image capture board that receives an image signal from the switcher and enables real-time image capture; At least one of a wired LAN communication unit and a wireless LAN communication unit which transmits at least one control signal for controlling the image signal and the display board and receives a sensing value including at least an external illuminance detection sensing value from the display board. Operating device control unit including a Display board operating device comprising a At least one of a wired LAN communicator and a wireless LAN communicator that receive at least one control signal for controlling an image signal and an electronic sign board and transmit a sensing value including at least an external illuminance detection sensing value to an electronic sign board operating apparatus; Graphic card to process video signal Sign board control unit comprising a; A controller for distributing and transmitting an image signal input from the graphics card to correspond to the plurality of section boards; A plurality of section boards, which transmits the image signal distributed from the controller to the LED module in charge; And Multiple LED modules to display the video signal transmitted from the section board in real time Display board including High resolution video real-time display board system comprising a. The method of claim 1, The electronic display board operating system is characterized in that the high-resolution video capture the real-time video in real time, and transmits to the electronic signboard and at the same time recording and storing in the form of a file that can be played on a separate PC. The method of claim 1, The display board operating device and the display board is a high-resolution video real-time display board system, characterized in that coupled via a wireless or wired local area network. The method of claim 1, The display board operating device and the display board is a high-resolution video real-time display board system, characterized in that coupled via a wireless or wired local area network and the Internet. The method of claim 1, The plurality of video input sources include at least two or more of the DVD player, VTR, cable TV, CCTV, camcorder.

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