KR100931456B1 - Method and apparatus for generating image source for LED channel billboard - Google Patents

Abstract

The present invention relates to a method and apparatus for generating an image source for an LED channel sign. According to the present invention, there is provided a method of generating an image source for an LED channel billboard, based on channel information corresponding to an LED channel billboard, extracting data from the source file, and generating an image source based on the extracted data. And generating the generated image source to the LED channel billboard.

Description

Method and apparatus for generating image source for LED channel display board {Method and apparatus for creating image source for LED channel display board}

The present invention relates to a method and apparatus for generating an image source for an LED channel sign.

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. . By arranging a plurality of LEDs, an electric signboard may be implemented in such a manner that all or some of the LEDs are turned on.
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 primarily used for signboards with built-in lighting, fluorescent lamps have been mainly used in consideration of the amount of electric power used by 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, these LED signboards are modular, and each module consists of 16 rows 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 minimum unit that can be individually controlled, is composed of one or more 3in1 RGB Surface Mount Device (SMD) lamps.
The method of controlling the color of the full-color LED pixel basically composed of RGB is widely used in the LED display. However, unlike general LED signboards that are controlled using modules standardized over the entire surface, there is a problem that individual control of each LED pixel in the LED channel signboard is difficult. The channel signboard is a kind of signboard which is manufactured by molding only a letter shape or a specific logo shape with metal or the like.
In order to control a general LED signboard, a personal computer (PC) is usually used as a controller. However, in the case of an LED channel signboard, it is generally designed to a minimum hardware specification for cost reduction or the like. Since the microcontroller for controlling the LED channel signboard does not have enough specification to use an operating system (OS) and video compression codec, the video source input to the conventional LED channel signboard is basically used by a general microcontroller. Must be an image source in the uncompressed AVI format being processed. However, since the uncompressed AVI format video source has a very large capacity, the large capacity of such a video source becomes a serious problem from the standpoint of a microcontroller for LED channel billboards, which has only limited storage space.

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Accordingly, an object of the present invention is to solve the above problems.
A specific object of the present invention is to provide a method and apparatus for generating an image source for an LED channel billboard that can provide a low-capacity image source to the LED channel billboard.
Another object of the present invention is to provide a method and apparatus for generating an image source for an LED channel display board, which can realize a more colorful visual effect, without leaving uniform color or whole color change at the same time.
It is still another object of the present invention to provide a method and apparatus for generating an image source for an LED channel display board to which a pixel module which can maximize the efficiency of heat dissipation and heat dissipation is applied.

In order to achieve the above object, according to an aspect of the present invention, in the LED channel display panel for providing an image source to the LED channel display board for performing the image source generating device for LED channel display board, the LED channel An image source generating apparatus for an electronic display board includes a transmission / reception processing module for processing communication with the LED channel display board, a channel display board corresponding to the LED channel display board, and a pixel value corresponding to pixel position information corresponding to the LED channel display board. A data extraction module for extracting data from a source file based on information, an image source generation module for generating an image source based on the data extracted by the data extraction module, a high level command and the transmission / reception processing module; The data extraction module and the image source generation module are included. Is an application program interface (API) for controlling an operation of an application module, a high level command for identifying a corresponding application module according to the high level command, and decoding the high level command to provide a corresponding application module. Transmitting / receiving processing module mapping unit and transceiving processing interface unit corresponding to a processing unit and the transceiving processing module, a data extracting module mapping unit and a data extracting module interface unit corresponding to the data extracting module, and an image source corresponding to the image source generating module An application module control unit including a module mapping unit and an image source generation module interface unit, wherein the transmission and reception processing module mapping unit receives a high level command for processing communication with the LED channel display board from the high level command processing unit.Mapping to a device level that can be processed by the module and providing the transmit / receive processing module to the transmit / receive processing module through the transmit / receive processing module interface unit. Receives a high level command for extracting data and maps it to a device level that can be processed by the data extraction module and provides the data extraction module to the data extraction module through the data extraction module interface unit. The image source generation module mapping unit extracts the data. Based on the data extracted by the module, it receives a high level command for generating the image source, maps it to a device level that can be processed in the image source generating module, and then, via the image source generating module interface unit. And providing to the image source generation module, wherein the LED channel board is a microcontroller for converting the image source into an electrical signal, and after receiving the electrical signal from the microcontroller, expresses light according to the received electrical signal. And a plurality of pixel modules, the microcontroller, and a switch mode power supply for supplying operating power to the plurality of pixel modules, wherein each of the plurality of pixel modules is waterproof molded by silicon and has an aluminum heat dissipation pad attached thereto. The method of generating an image source for the LED channel sign may include extracting the data from a high level command for extracting the data from the source file based on channel sign information corresponding to the LED channel sign provided in the application program interface. Module Mapping Section In the state of mapping to a device level that can be processed by the data extraction module and provided to the data extraction module through the data extraction module interface unit, the data extraction module is based on the channel display information corresponding to the LED channel billboard. Extracting data from the source file, and the image source generation module mapping unit is configured to generate a high level command for generating the image source based on the data extracted by the data extraction module provided in the application program interface. The image source generation module generates the image source based on the extracted data while mapping the device level that can be processed by the generation module and providing the image source generation module through the image source generation module interface unit. And a high level command for transmitting the generated image source provided from the application program interface to the LED channel display board to a device level that the transmission / reception processing module mapping unit can process in the transmission / reception processing module. In the state provided to the transmission and reception processing module via a processing module interface unit, the transmission and reception processing module may provide a method for generating an image source for the LED channel display board comprising the step of transmitting the generated image source to the LED channel billboard. .

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According to the present invention, the following effects can be expected.
According to the present invention, it is possible to provide a method and apparatus for generating an image source for an LED channel billboard that can provide a low-capacity image source to the LED channel billboard.
In addition, according to the present invention, it is possible to provide a method and apparatus for generating an image source for an LED channel display board, which can realize a more colorful visual effect, without discoloring a uniform single color or the whole.
In addition, according to the present invention, it is possible to provide a method and apparatus for generating an image source for an LED channel display board to which a pixel module that can maximize efficiency of heat dissipation and heat dissipation is applied.

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In addition, according to the present invention, it is possible to provide a method and apparatus for generating an image source for an LED channel display board to which a pixel module that can maximize efficiency of heat dissipation and heat dissipation is applied.

Next, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.
1 is a view schematically showing the configuration of an LED channel sign and an image source generating device for an LED channel sign according to an exemplary embodiment of the present invention.
Referring to FIG. 1, an image source generating device 101 for an LED channel signboard generates an image source having a reduced capacity compared to a source file based on the information of the LED channel signboard, and transmits the image source to the LED channel signboard 103.
The LED channel sign 103 includes a microcontroller 105, a plurality of pixel modules 107, and a switching mode power supply (SMPS) 109. The micro-controller 105 converts the low-capacity image source received from the image source generation device 101 for the LED channel display board into an electrical signal and transmits it to the pixel module 107. Each pixel module 107 incorporates a constant current IC that controls to display colors of R, G, and B by changing frequency intervals in a constant current state based on an electrical signal received from the microcontroller 105. Since the plurality of pixel modules 107 are connected and controlled in series, the constant current IC installed in each pixel module 107 to control the color of the pixel adopts a PWM type constant current IC to facilitate data transmission. It allows for the serial connection of many pixel modules. The switched mode power supply 109 supplies operating power for the microcontroller 105 and the plurality of pixel modules 107.
2 is a view showing the configuration of an image source generating device for LED channel display board according to a preferred embodiment of the present invention.
Referring to FIG. 2, an image source generating apparatus for an LED channel display board may include a memory system 250, at least one central processing unit (CPU) 260 connected to the memory system 250, and a high speed operation. 270 and communication device 280.
The central processing unit 260 is a controller for controlling the operation of an Arithmetic Logic Unit (ALU) 262 for performing calculations, a register 264 for temporary storage of data and instructions, and an image source generating device for LED channel billboards. (266). The central processing unit 260 includes Digital, Alpha, MIPS Technology, NPS, NEC, IDT, Siemens, etc. MIPS, Intel and Cyrix, AMD, and Nexgen. It could be a processor with a variety of architectures, such as the company's x86 and IBM's and Powerola's PowerPC. The memory system 250 generally includes a high speed main memory 252, which is a storage medium such as random access memory (RAM) and read only memory (ROM), and a floppy disk, hard disk, tape, CD-ROM, flash memory, or the like. Auxiliary memory 254 in the form of a long-term storage medium and a device for storing data using electrical, magnetic, optical or other storage media. In addition, the main memory 252 may include a video display memory for displaying an image through the display device.
In addition, the input device 270 may include a keyboard, a mouse, for example, a physical transducer such as a touch screen or a microphone. The communication device 280 may be a device such as a network interface for performing communication with the LED channel billboard.
3 is a view showing a module configuration of an image source generating device for LED channel display board according to a preferred embodiment of the present invention.
Referring to FIG. 3, the image source generating apparatus for the LED channel display board includes a transmission / reception processing module 362 for processing communication with the LED channel display board, and constant data from a raw file based on the LED channel display information such as pixel position information. And a data source generation module 366 for generating an image source based on the data extracted by the data extraction module 364 and the data extraction module 364.
Looking at the overall configuration of the image source generating device for LED channel signage through these application modules as follows.
The image source generator for the LED channel display board can use various operating systems (OS) as the OS of the system. The OS provides a high level command to an application program interface (302) to control the operation of each application module 360.
The image source generation device for the LED channel display board may identify each application module 360 according to a high level command provided from the API 302, decode the high level command, and provide a high level command processor to decode the high level command. 304). The application module controller 350 controls the operation of the application module 360 according to the command provided from the high level command processor 304. That is, the high level instruction processing unit 304 identifies whether there is an application module 360 corresponding thereto according to the high level instruction provided through the API 302, and corresponds to the case where the corresponding application module 360 exists. Decoded by a command recognized by the application module 360 to be transmitted to the corresponding mapping unit or to control the transmission of the message. Accordingly, the application module controller 350 may include a mapping unit 351, 353, 355, and an interface unit 352, 354, 356 for the transmission / reception processing module 362, the data extraction module 364, and the image source generation module 366. Each).
The transmit / receive processing module mapping unit 351 receives a high level command for performing communication with the LED channel display board from the high level command processing unit 304 and maps it to a device level that can be processed by the transmit / receive processing module 362. Then, it is provided to the transmission and reception processing module 362 through the transmission and reception processing module interface unit 352.
The data extraction module mapping unit 353 and the data extraction module interface unit 354 are parts for extracting constant data from a source file based on LED channel billboard information such as pixel position information. That is, the data extraction module mapping unit 353 receives a high level command for using the data extraction module 364 from the high level command processing unit 304 and maps it to a device level command, and the data extraction module interface unit ( 354 is provided to the data extraction module 364.
The image source generation module 366 is a part for generating an image source based on the data extracted by the data extraction module 364. The image source generation module mapping unit 355 receives the high level command applied through the high level command processing unit 304 and maps it to a device level command that can be recognized by the image source generation module 366. The device level command is provided to the image source generation module 366 through the image source generation module interface 356.
4 is a flowchart illustrating a method of generating an image source for an LED channel display board according to an exemplary embodiment of the present invention.
Referring to FIG. 4, the image source generating apparatus for the LED channel signboard receives the channel signboard information through an internal input device (step 401). The channel sign information includes the shape of the LED channel sign, the number of pixels, location information of the pixels, and the like. The LED channel billboard is shown by way of example in FIG. 9. In the case of the LED channel sign 901 shown in FIG. 9, the channel sign information may be information about the number and position of pixels corresponding to the shape of 'LED'.
In addition, the image source generating device for the LED channel display board receives a raw file such as an image, a video to be displayed on the LED channel display board through an internal input device (step 403). Raw files, such as images and videos, are illustrated by way of example in FIG. 6. The raw file 601 shown in FIG. 6 represents a single frame of an image or video. Here, the image source generating device for the LED channel display board may convert the source file into a general program such as a flash.
Thereafter, the image source generating apparatus for the LED channel signboard extracts data based on the channel sign information for each frame in the case of an image or a video (step 405). The process of extracting data will be described in more detail with reference to FIG. 7. Referring to FIG. 7, the image source generating apparatus for the LED channel signboard extracts only pixel values corresponding to the channel sign information (see LED ′ shape) corresponding to the LED channel signboard 901 illustrated in FIG. 9. That is, only the pixel value of the pixel with the number corresponding to LED 'is extracted from the source file. Through this process, data optimized for the LED channel signboard, which is significantly reduced in capacity compared to the raw file, is extracted.
Thereafter, the image source generating apparatus for the LED channel signboard generates an image source based on the extracted data (step 407). If the source file is a single image file, as shown in Fig. 7, the extracted data itself will be the image source. However, when the raw file is a moving picture, an image source may be generated by integrating the extracted data for a single frame as shown in FIG. 7.
Thereafter, the image source generating apparatus for the LED channel billboard transmits the generated image source to the LED channel billboard (step 409). The user may transmit the generated image source to the LED channel billboard through the interface 801 illustrated in FIG. 8. The generated image source is not only significantly reduced in capacity compared to the raw file, but also optimized for the LED channel billboard, and thus can be efficiently applied to the low level hardware of the LED channel billboard.
5 is a flowchart illustrating a method of generating an image source for an LED channel billboard according to another exemplary embodiment of the present invention.
Referring to FIG. 5, the image source generating apparatus for the LED channel display board receives a raw file such as an image or a video to be displayed on the LED channel display board through an internal input device (step 501). Raw files, such as images and videos, are illustrated by way of example in FIG. 6. The raw file 601 shown in FIG. 6 represents a single frame of an image or video. Here, the image source generating device for the LED channel display board may convert the source file into a general program such as a flash.
Thereafter, the image source generation device for the LED channel display board receives user selection information for selecting the shape of the LED channel display board by the user through an internal input device. The user selection information, like the channel billboard information, may indicate the shape of the LED channel billboard, the number of pixels, location information of the pixels, and the like.
Thereafter, the image source generation apparatus for the LED channel signboard extracts data based on the user selection information for each frame in the case of an image or a video (step 505). The process of extracting data will be described in more detail with reference to FIG. 7. Referring to FIG. 7, the image source generating apparatus for the LED channel signboard extracts only pixel values corresponding to user selection information (see LED ′ shape) corresponding to the LED channel signboard 901 illustrated in FIG. 9. That is, only the pixel value of the pixel with the number corresponding to LED 'is extracted from the source file. Through this process, data optimized for the LED channel signboard, which is significantly reduced in capacity compared to the raw file, is extracted.
Thereafter, the image source generating apparatus for the LED channel signboard generates an image source based on the extracted data (step 507). If the source file is a single image file, as shown in Fig. 7, the extracted data itself will be the image source. However, when the raw file is a moving picture, an image source may be generated by integrating the extracted data for a single frame as shown in FIG. 7.
Thereafter, the image source generating apparatus for the LED channel billboard transmits the generated image source to the LED channel billboard (step 509). The user may transmit the generated image source to the LED channel billboard through the interface 801 illustrated in FIG. 8. The generated image source is not only significantly reduced in capacity compared to the raw file, but also optimized for the LED channel billboard, and thus can be efficiently applied to the low level hardware of the LED channel billboard.
10 is a diagram illustrating pixels of an LED channel display board according to a preferred embodiment of the present invention.
Referring to FIG. 10, the pixel of the LED channel display board according to the present invention may be manufactured by adding waterproof pads made of aluminum after waterproof molding with silicon. Therefore, the LED channel board according to the present invention can maximize the efficiency of heat dissipation and heat dissipation.
The present invention is not limited to the above embodiments, and many variations are possible by those skilled in the art within the spirit of the present invention.

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1 is a view schematically showing the configuration of an LED channel sign and an image source generating device for an LED channel sign in accordance with a preferred embodiment of the present invention.
2 is a view showing the configuration of an image source generating device for an LED channel billboard according to a preferred embodiment of the present invention.
3 is a view showing a module configuration of an image source generating device for LED channel display board according to a preferred embodiment of the present invention.
4 is a flowchart illustrating a method of generating an image source for an LED channel display board according to an exemplary embodiment of the present invention.
5 is a flowchart illustrating a method of generating an image source for an LED channel billboard according to another exemplary embodiment of the present invention.
6 is an exemplary view showing a source file according to a preferred embodiment of the present invention.
7 is a diagram schematically illustrating a process of extracting data according to a preferred embodiment of the present invention.
8 illustratively illustrates a user interface in accordance with a preferred embodiment of the present invention.
9 is an exemplary view showing an LED channel board according to a preferred embodiment of the present invention.
10 is an exemplary view showing pixels of an LED channel billboard according to a preferred embodiment of the present invention.

Claims (12)

A method of generating an image source for an LED channel display board for providing an image source to an LED channel display board, which is performed in an image source generating device for an LED channel display board, The image source generating device for the LED channel billboard A transmission / reception processing module for processing communication with the LED channel display board; A data extraction module for extracting data from a source file based on channel billboard information corresponding to the LED channel billboard and including pixel values corresponding to pixel position information corresponding to the LED channel billboard; An image source generation module for generating an image source based on the data extracted by the data extraction module; An application program interface (API) for providing a high level command to control an operation of an application module including the transmission / reception processing module, the data extraction module, and the image source generation module; A high level command processing unit for identifying a corresponding application module according to the high level command, and decoding the high level command and providing the same to the corresponding application module; And A transceiving processing module mapping unit corresponding to the transceiving processing module, a transceiving processing interface unit, a data extracting module mapping unit corresponding to the data extracting module and a data extracting module interface unit, and an image source generating module mapping corresponding to the image source generating module And an application module controller including an image source generation module interface unit, wherein the transmission / reception processing module mapping unit receives a high level command from the high level command processing unit to process communication with the LED channel billboard. Mapping to a device level that can be processed and provided to the transmit / receive processing module through the transmit / receive processing module interface unit, wherein the data extraction module mapping unit is provided from the source file based on channel display information corresponding to the LED channel display board. Receives a high level command for extracting the data and maps it to a device level that can be processed by the data extraction module and provides the data extraction module to the data extraction module through the data extraction module interface unit. Based on the data extracted by the extraction module, the controller receives a high level command for generating the image source, maps it to a device level that can be processed by the image source generation module, and generates the image source through the image source generation module interface unit. Including as a module, The LED channel billboard A microcontroller for converting the image source into an electrical signal; A plurality of pixel modules which display light according to the received electrical signal after receiving the electrical signal from the microcontroller; And The microcontroller, a switch mode power supply providing operating power to a plurality of pixel modules, Each of the plurality of pixel modules is waterproof molded by silicon, characterized in that the aluminum heat radiation pad is attached, The image source generation method for the LED channel sign A device in which the data extraction module mapping unit may process the high level command for extracting the data from the source file based on channel billboard information corresponding to the LED channel billboard provided in the application program interface. Mapping data to a level and providing the data extraction module to the data extraction module through the data extraction module interface unit, wherein the data extraction module extracts data from the source file based on channel billboard information corresponding to the LED channel billboard; A high level command for generating the image source based on data extracted by the data extraction module provided in the application program interface to a device level that the image source generation module mapping unit can process in the image source generation module. Mapping and providing the image source to the image source generation module through the image source generation module interface unit, and generating the image source based on the extracted data; And The high level command for transmitting the generated image source provided from the application program interface to the LED channel display board is mapped to a device level that the transmit / receive processing module mapping unit can process in the transmit / receive processing module. Transmitting, by the transmission / reception processing module, the generated image source to the LED channel display board in a state provided to the transmission / reception processing module through a unit. Image source generation method for the LED channel billboard. delete delete delete delete delete delete delete delete delete delete delete

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