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Wireless network transmission RGB signal processing method for multi-screen splicing display wall

A splicing display and wireless network technology, applied in the direction of digital output to display equipment, static indicators, cathode ray tube indicators, etc., can solve the problems of equipment paralysis, complicated wiring, high cost, etc., and achieve simple construction and simple operation control , low-cost effect

Active Publication Date: 2013-05-08
赛丽电子系统(上海)有限公司
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  • Claims
  • Application Information

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Problems solved by technology

This kind of analog transmission has irresistible interference from peripheral equipment, electric power and other factors, and RGB cables require thicker ones to reduce signal attenuation, which adds great difficulty to construction wiring
[0006] 2) Digital transmission: digital transmission has DVI-D transmission, which requires DVI-D matrix and DVI-D distribution converter, and DVI signal transmission can only be transmitted in a short distance. Generally, DVI cables can transmit 5 to 10 meters, while for It is far from enough for DLP multi-screen splicing wall. To realize the application of DLP multi-screen splicing wall, it is necessary to add long-line drive equipment, which greatly increases the cost.
[0007] 3) Network transmission: At present, the speed of RGB signals transmitted through the network on the DLP multi-screen splicing wall is slow (about 10 frames per second), and real-time video signals cannot be displayed, especially the current high-definition signals (720P / 1080P) cannot be transmitted display, and cannot display multiple channels at the same time, because multiple simultaneous displays occupy network resources and CPU resources and cause equipment paralysis
[0008] Usually, there are more or less deficiencies in the processing of RGB signal transmission in the DLP multi-screen splicing wall. Conventional analog and network transmission are often used at the expense of image quality, and digital transmission is used for high-end and high-cost ones.
In a large-scale splicing project, the number of RGB signals is expanded by increasing the matrix, which makes the wiring complicated and the cost increases

Method used

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  • Wireless network transmission RGB signal processing method for multi-screen splicing display wall
  • Wireless network transmission RGB signal processing method for multi-screen splicing display wall

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Embodiment

[0029] Such as figure 1 , figure 2 As shown, a processing method for wireless network transmission of RGB signals suitable for DLP multi-screen splicing display walls, the method adopts high-speed wireless network technology, and the processing process includes the following steps:

[0030] Step 1, the computer at the RGB signal end automatically runs the client;

[0031] Step 2, the client 13 intercepts the PC display screen in real time and encodes it in real time;

[0032] Step 3, after receiving the instruction from the centralized control terminal 9, the client 13 encrypts and packages the encoded PC display screen and sends it via WLAN;

[0033] Step 4, decoder 14 receives data through WLAN;

[0034] Step 5, after the decoder 14 receives the instruction from the centralized control terminal 9, it decodes the received data and converts it into a DVI signal output;

[0035] Step 6, the DVI signal output is connected to the multi-screen splicing processor;

[0036] St...

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Abstract

The invention relates to a method for processing a wireless network transmission RGB signal of a DLP (digital light processing) multi-screen splicing display wall. The method comprises the following steps: a RGB signal end computer automatically runs a client; the client captures a PC display image in real time to code instantaneously; the client encrypts and packages the coded PC display image after a command of a central control end is received, and sends the coded PC display image through a WLAN (wireless local area network); an embedded host computer receives data through the WLAN; a decoder decodes the received data, and converts the data into DVI (digital video interactive) signal output after the command of the central control end is received; the DVI signal output is accessed to amulti-screen splicing processor; the multi-screen splicing processor processes the signal after the command of the central control end is received, including amplifying, reducing an moving; and the DLP splicing display wall displays the signal after the command of the central control end is received. Compared with the prior art, the method has the advantages of low cost, capability of wireless extension of the number of RGB signal sources and the like, and is easy to construct.

Description

technical field [0001] The invention relates to a processing method for network transmission of RGB signals, in particular to a processing method for wireless network transmission of RGB signals suitable for DLP multi-screen splicing display walls. Background technique [0002] In the display and control technology mainly based on DLP splicing, it is one of the important technologies to realize the display of RGB signals (computer screens) on the multi-screen splicing wall. Wireless network transmission of RGB signals is a special and demanding multi-screen splicing wall display application, which can flexibly display multiple computers on the DLP splicing large screen without connecting cumbersome cables. In recent years, with the development of software and hardware technology, RGB signal transmission has been widely used in control room applications in fields such as electric power, rail transit, public security, and government. [0003] From the perspective of RGB signa...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G09G5/00G06F3/14
Inventor 黄美彬杨珉
Owner 赛丽电子系统(上海)有限公司
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