KR100949542B1 - The appratus of sign board control with embedded - Google Patents

Abstract

PURPOSE: An embedded base electric sign control device is provided to satisfy a desire for obtaining information of the public by supplying information to people who easily get the information in real time. CONSTITUTION: An embedded base electric sign control device includes a CPU(110), a nor flash(120), an RS232 port(130), and An Ethernet sub-board(140). The CPU receives a remote control signal, character information, video information, image information from the embedded server and controls the customized information to be displayed on the board. The NOR flash part stores a linux kernel image which is cross-compiled for ARM. The Ethernet sub-board connects the CPU of a remote embedded server and the CPU of a embedded sign board to implement a bidirectional communication.

Description

Information display device through embedded based electronic sign controller {THE APPRATUS OF SIGN BOARD CONTROL WITH EMBEDDED}

The present invention relates to an embedded based electronic sign control device and a method thereof.

In general, an electronic signboard is known as a means of providing information to an unspecified number of people. Such electronic signboards are installed and operated in areas where many people go, beach entrances, valley entrances, and national park entrances to attract people's attention. It is used to display guide messages.

In order to control the display contents, the display board is configured to change the display contents by inputting a text to be displayed by an operator using a PC or a system for controlling the display board.

Conventional billboard systems have been used as follows.

It is the most widely installed model, and it is expressed by one-to-one transmission method or remote control method by laptop.

It is inputted and used every time it sends. Most of them are simple expressions, and they could not express real-time image information or image information other than text.

In addition, the communication method uses a one-to-one method and a wireless method using a notebook computer, a PC, a wireless remote control, and the like.

The one-to-one method can display simple content in the same space without any problem, but it becomes a problem when operating several places or distances apart.

In addition, when using the remote control has the advantage that can be easily operated by the remote control, but can not be expressed except a simple character, only one operation in the same place is possible.

However, it can not be expressed except simple characters, and the transmission speed is very slow when transmitting image information or image information, and the transmission board is stopped during transmission, causing a lot of errors, and above all, there was no way to check whether the transmission was successful.

In order to solve the above problems, the present invention can deliver information such as text information, image information, image information to the display board in real time to people who are in a difficult position to obtain information through the embedded-based display board control device, necessary for human The purpose of the present invention is to provide an information display device through an embedded display board control device that can provide information in real time to satisfy the general public's information needs as well as easily spread the information to be delivered to the public in real time.

In order to achieve the above object, the information display device through the embedded based electronic sign control device according to the present invention is

It consists of a device (1) for expressing information to a plurality of electric signboards installed in remote places,

The information display device (1) installs an embedded application for controlling the display board on the display board, receives a remote control signal of a remote embedded server via the wireless Internet, receives text information, image information, image information, and customized information in real time Embedded-based electronic display board control device 100 to express the,

After setting the display board installed with the embedded application for controlling the display board of the embedded display board by ID, the controller directly accesses the embedded display board control device of the display board set by ID through the wireless Internet to control remote control signals, text information, video information, This is accomplished by being configured as a remote embedded server 200 to transmit image information.

As described above, in the present invention, by real-time information such as text information, image information, image information to the people who are in a difficult position to obtain information through the embedded-based display board control device, real-time information required by people In addition to satisfying the general public's information needs, the information to be delivered can be easily disseminated to the public in real time.

The embedded and embedded system described in the present invention is that a device does not depend on another system and performs functions independently, so that the control device of the system is not merely composed of a circuit but has a microprocessor embedded therein, and drives a specific function. A system in which a program is built to perform a task.

An embedded system is also called an embedded system. In general, the OS and applications are stored in the form of an image in a ROM, and then a RAM disk is formed at boot and sync, and then the OS and the applications are run.

In addition, the present invention is characterized by consisting of a remote control and monitoring system using an embedded system based on the TCP / IP protocol.

In addition, the electronic display board 10 described in the present invention is an image, a character, or an image display area, which is composed of an LCD display board or a full color LED display board.

In addition, the solar panel 40 and the storage battery are configured on one side of the display panel as a power supply device.

The reason why the solar panel is configured as a power supply device is composed of solar panels because a large number of electronic panels are installed in a place where general AC power supply is difficult, such as a mountain, a valley, and a coastline.

In addition, the operation of the power supply device converts the solar energy collected through the solar panel into electrical energy and accumulates in the storage battery, and converts the accumulated electrical energy into direct current or alternating current through an inverter and supplies it to the display panel.

The sign 10 according to the present invention is configured on one side of the sensor unit 30 for measuring the temperature, humidity, wind strength, rainfall, wind direction around the sign.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a configuration diagram showing an information display device through an embedded display board control apparatus according to the present invention, which is largely composed of an embedded display board control device 100, and a remote embedded server 200.

First, the embedded baseboard control apparatus 100 according to the present invention will be described.

The embedded electronic sign control device 100 is installed in the electronic signboard control embedded application on the signboard, after receiving the remote control signal of the remote embedded server via the wireless Internet, receiving text information, image information, image information, in real time 2 and 5, the central processing unit (CPU) unit 110, the NOR flash unit 120, the RS232 port unit 130, and the Ethernet, as shown in FIGS. 2 and 5. It consists of a single PCB board composed of a sub board (Ethernet Sub Board) (140).

The central processing unit (CPU) unit 110 receives a remote control signal, text information, image information, and image information from a remote embedded server, and serves to control to display customized information on an electronic board, which is an ARM720T. It consists of an EP7312 microprocessor from Cirrus Logic with a core.

The EP7312 microprocessor is a 32-bit RISC processor that handles 74MHz at 2.5V power consumption and consists of four unified caches, memory management units, and 8K bytes each. In addition, SDRAM controller, LCD controller, and memory controller are built-in, and 27-bit GPIO port, two UARTs (Universal Asynchronous Transceiver), timer counter, and synchronous serial interface are supported.

The NOR flash 120 stores a cross-compiled Linux kernel image for ARM, which performs address decoding for read and program operations. Configuration similar to DRAM makes the peripheral circuit simpler and shorter read access time.

The RS232 port 130 is connected to the electronic board through a serial port, and serves to transmit remote control signals, text information, image information, and image information received from a remote embedded server toward the electronic board, which is configured as a MAX3232. .

RS232 port portion according to the present invention is divided into a console port for monitoring the Linux booting process, and a serial port for connecting and controlling the electronic board.

The Ethernet Sub Board 140 connects the CPU unit of the embedded server 200 and the embedded electronic board control apparatus 100 to the bidirectional data communication through the Internet network, which is an Ethernet control. It consists of a serial EEPROM section that stores an error and an Internet Protocol (IP) and a Media Access Control (MAC) address.

In addition, the embedded electronic display board control apparatus 100 according to the present invention, as shown in Figure 5, the power connection jack 150 is connected to one side is configured to receive AC power, was in the standby state on the lower side of the PCB substrate The wakeup button 160 for driving each device and the reset button 170 for resetting the power supply are configured in parallel.

Next, the remote embedded server 200 according to the present invention will be described.

The remote embedded server 200 sets the display board installed with the embedded application for controlling the display board of the embedded display board control device by ID, and then directly accesses the embedded display board control device of the display board set by ID through the wireless Internet for remote control signals and It transmits text information, video information and image information.

This is made by selecting one of the control server, the server computer of the disaster management headquarters of the relevant municipality, or the server computer of the central disaster control headquarters of the government.

As shown in FIG. 3, the remote embedded server 200 according to the present invention includes a multi-protocol packet unit 210, a SIP (Send Image-data Packet) protocol packet unit 220, and an image transmitter 230. It is composed.

The multi-protocol packet unit 210 allocates an IP to a remote display board through an access point (AP), and transmits text information and a remote control signal to an embedded-based display board control apparatus of the LED display.

Here, the remote control signal is a camera control signal for driving the network camera 20 for photographing the situation around the signboard, and a sensor for driving the sensor unit for measuring the temperature, humidity, wind strength, rainfall, wind direction around the signboard. The sub-control signal, and the step motor control signal for controlling the step motor configured to rotate the network camera and the electronic sign.

The SIP (Send Image-data Packet) protocol packet unit 220 allocates an IP to a remote billboard through an access point (AP) and transmits image information to an embedded-based billboard controller of the billboard to which the IP is assigned. Do it.

The SIP (Send Image-data Packet) protocol packet part according to the present invention includes a protocol code for notifying image transmission, a block number for notifying the order of images, and block data of the image.

The image block data transmission is performed in a duplex method.

As shown in FIG. 6, image transmission to the electronic display board through the SIP (Send Image-data Packet) protocol packet unit according to the present invention is performed as follows.

First, when an embedded application for controlling the display board is installed in the display board, the embedded application for controlling the display board transmits the SIP to a remote embedded server and enters a standby state.

Subsequently, the remote embedded server receiving the SIP checks the block number and the size of the received data and normally sends an IBR (Image Data Block Request), that is, a packet requesting the next block, to the embedded-based electronic control panel of the electronic display.

Subsequently, when the IBR packet is received by the embedded board controller of the billboard in standby, a network event occurs, the requested block is configured by SIP, transmitted, and then the standby state is restored.

In this process, if the size of the image block exceeds 800 bytes while the remote embedded server is waiting to receive data, it is recognized as an invalid packet, and the block embedded transmission that adds 1 to the block number confirmed by the remote embedded server is transmitted.

In addition, when 800 bytes are not received for a certain time, a retransmission is requested.

This process is repeated until the entire block of the image is completed.

When the image block is divided by 800 bytes, the size of the last block is not constant according to the image size. Therefore, the terminal transmits a SIP block #Last packet indicating the last block of the image.

Here, the SIP block #Last packet has a code indicating the end of the image and a size of the last image block attached to the block number.

Through this process, as shown in FIG. 5, the image information can be displayed on the sign board.

The image transmitter 230 performs wavelet transform on the image data, quantizes the wavelet transformed image data, compresses the image data, and then DPCM-codes the portion having the compression component among the compressed image data. , RLE-coded the part having the detail component, and transmits the image information to the embedded baseboard controller 100 allocated with IP in a UDP manner, which is a wavelet converter 231 and a quantizer 232. It consists of

Here, the UDP method refers to a method of transmitting and receiving data whenever needed without connection (Conectionless).

The wavelet transform unit 231 performs wavelet transform on the image data.

Here, the wavelet transform represents an arbitrary function f (x) as a linear superpostion of a wavelet base function having locality simultaneously in the time-frequency space, which is extended using a circular wavelet function. produced by dilating and translation.

The wavelet converter according to the present invention performs wavelet transform on the image data X to divide and divide the image data X into an application part and a detail part.

The quantization unit 232 quantizes and compresses the wavelet-converted image data, and then DPCM-codes the portion having the compression component among the compressed image data, and RLEs the portion having the detail component. It is responsible for coding.

1 is a block diagram showing an embedded display board control device according to the present invention,

2 is a block diagram showing the components of the embedded electronic sign control device 100 according to the present invention,

3 is a block diagram showing the components of a remote embedded server 200 according to the present invention;

4 is a block diagram showing the components of an image transmitting unit according to the present invention;

FIG. 5 is a diagram illustrating a circuit board configured with components of an embedded electronic board control apparatus according to the present invention; FIG.

6 is a flow chart illustrating an image transmission process to an electronic board through a SIP (Send Image-data Packet) protocol packet unit according to the present invention;

7 is a flowchart illustrating a process of transmitting image information to the embedded electronic sign control device 100 through the image transmission unit according to the present invention.

※ Brief description of reference numerals ※

100: embedded base board control device 110: embedded image control unit

120: embedded sensor control unit 130: data transmission unit

140: embedded display board control unit 200: remote embedded server

Claims (5)

It consists of a device (1) for expressing information to a plurality of electric signboards installed in remote places, The information display device (1) installs an embedded application for controlling the display board on the display board, receives a remote control signal of a remote embedded server via the wireless Internet, receives text information, image information, image information, and customized information in real time Embedded-based electronic display board control device 100 to express the, After setting the display board installed with the embedded application for controlling the display board of the embedded display board by ID, and directly accessing the embedded display board control device of the display board set by ID through the wireless Internet, the remote control signal, character information, image information, image information In the configuration of the remote embedded server 200 for transmitting the, The embedded display board control device 100 A central processing unit (CPU) unit 110 that receives a remote control signal, text information, video information, and image information from a remote embedded server and controls to display customized information on an electronic board; NOR Flash 120 for storing Linux kernel images cross-compiled for ARM, RS232 port unit 130 is connected to the electronic board by the serial port, and transmits the remote control signal and text information, image information, image information received from the remote embedded server toward the electronic board; Embedded is characterized in that consisting of Ethernet Sub Board (Ethernet Sub Board) (140) for connecting the remote control server embedded in the embedded server 200 and the embedded electronic board control device 100 for bidirectional data communication through the Internet network Information display device based on electronic display board control. delete According to claim 1, Central processing unit (CPU) unit When the data connection signal of the remote embedded server 200 is input through the Ethernet Sub Board, the remote embedded server and the electronic board connected in serial communication to each other and And an IPC communication unit for inter-process communication (IPC) using PIPE to transmit remote control signals, text information, video information, and image information of a remote embedded server to an electronic board. Information display device through embedded based electronic sign controller. delete delete

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