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Transformer substation flame identification algorithm adopting enhanced RGB component features

A flame recognition and substation technology, applied in character and pattern recognition, computing, computer components, etc., can solve problems such as huge economic losses, inadequate equipment maintenance, and affecting recognition reliability, so as to improve safety and reduce economic losses , easy-to-implement and apply effects

Inactive Publication Date: 2018-07-27
NANJING NARI GROUP CORP
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Problems solved by technology

Although the equipment in the substation already has very high operational safety and reliability, due to the high load and high temperature operation of the equipment during the summer peak every year, insufficient equipment maintenance, equipment aging and other reasons, it also leads to Explosions caused by equipment failures in substations occasionally occur, and the economic losses caused by them are also quite large. Therefore, if the accident phenomenon can be discovered in time when the accident occurs, the economic loss caused by the expansion of the accident will be greatly reduced.
[0003] In the process of substation accidents, there are usually phenomena such as flames and smoke, and most substations are outdoor substations. The commonly used smoke detectors cannot be used in outdoor environments. If the infrared thermal imaging camera is used, although abnormalities can be found However, due to the high results, it cannot be popularized and used. Therefore, by using the monitoring camera installed in the substation and using image intelligent analysis technology to realize the timely discovery of the flame phenomenon in the event of an accident in the substation, it has a high practical value
There are many existing flame recognition techniques, including traditional recognition methods such as the use of flame color feature models, flame smoke features, etc. Each method is usually only used for phenomenon recognition in certain fixed scenes, and other recognition methods include The method of machine learning, which needs to collect a large number of flame phenomenon pictures as machine learning training samples, the integrity of the sample data greatly affects the reliability of recognition

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  • Transformer substation flame identification algorithm adopting enhanced RGB component features
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  • Transformer substation flame identification algorithm adopting enhanced RGB component features

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Embodiment Construction

[0026] The present invention will be specifically introduced below in conjunction with the accompanying drawings and specific embodiments.

[0027] A substation flame recognition algorithm using enhanced RGB component features, comprising the following steps:

[0028] Step 1, acquisition of substation video data and image preprocessing; acquisition of substation monitoring video, decoding the received data stream, the decoded data is in YUV data format, and then converting the YUV data format into RGB data format, and finally The decoded frame data pictures are scaled.

[0029] The sources of substation monitoring video include: IP camera, video server.

[0030] The ways to obtain substation monitoring video include: adopting the RTSP protocol acquisition method, and adopting the SDK interface development kit method provided by the video surveillance equipment manufacturer.

[0031] The specific process of the scaling process is: use the cv::Resize() interface function provi...

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Abstract

The invention discloses a transformer substation flame identification algorithm adopting enhanced RGB component features. The algorithm comprises the steps of 1, obtaining transformer substation videodata and performing image preprocessing; 2, processing basic RGB component features; 3, processing enhanced RGB component features; 4, performing dynamic detection based on the enhanced RGB componentfeatures; and 5, identifying a flame phenomenon. According to a calculation method, the flame phenomenon in a transformer substation scene can be enhanced through the enhanced RGB component feature processing; when a small amount of light flames occur, identification also can be accurately performed; in combination with the dynamic detection of the enhanced RGB component features and the detection of the basic RGB component features, the influence of an interference source on the algorithm can be effectively avoided; and by timely discovering accidents, the safety of a transformer substationcan be improved.

Description

technical field [0001] The invention belongs to the technical field of substation intelligent monitoring, in particular to a substation flame identification algorithm using enhanced RGB component features. Background technique [0002] The substation is an important place for the production and operation of the power grid. The safe and stable operation of the substation is of great significance to the reliability of the power grid. The application in production and operation continues to deepen and widen. The video surveillance technology adopted in the traditional way provides remote visual monitoring means for remote monitoring of power grid equipment, and provides remote monitoring technical means for monitoring personnel. Although the equipment in the substation already has very high operational safety and reliability, due to the high load and high temperature operation of the equipment during the summer peak every year, insufficient equipment maintenance, equipment agin...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06K9/00
CPCG06V20/52
Inventor 张鑫黄鑫王艺桦郑王里
Owner NANJING NARI GROUP CORP
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