Video image feature extraction method for police drones investigation and evidence collection

Video image feature extraction method for police drones investigation and evidence collection

In the practical application of police drones in investigation and evidence collection, it is not only necessary to operate stably under unfavorable conditions such as night, haze, and complex terrain, but also to ensure the operation continuity and reliability. The drones needs to have good compati...

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Bibliographic Details
Main Authors: CHEN Sixin, HE Fengwei
Format: Article
Language:zho
Published: Editorial Office of Journal of XPU 2024-12-01
Series:Xi'an Gongcheng Daxue xuebao
Subjects:
police drones
video image feature extraction
attention mechanism
hsv color space
Online Access:http://journal.xpu.edu.cn/en/#/digest?ArticleID=1523
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Summary:In the practical application of police drones in investigation and evidence collection, it is not only necessary to operate stably under unfavorable conditions such as night, haze, and complex terrain, but also to ensure the operation continuity and reliability. The drones needs to have good compatibility and be able to seamlessly integrate with other police systems to achieve information sharing and collaborative operations. In response to these requirements, a new video image feature extraction method was proposed in the article. Firstly, we made a detailed analysis of the HSV color of the target object in the video image. Then, based on the results of the HSV color space, attention mechanism was introduced for video image feature extraction, and constructed spectral multi-scale feature extraction network and spatial multi-scale feature extraction network with attention mechanism. Finally, the spectrum and spatial network were merged into a whole, and trained and fused to obtain a spectral spatial joint feature extraction network, which achieved the extraction for police unmanned aerial vehicle investigation and evidence collection. The experimental results show that the feature deviation of the method in the article is relatively small, and the highest feature extraction accuracy is 97%. The overall frame per second (FPS) value is between 50~75, which remains at a high level and has good stability and reliability. This not only meets the demand for efficient and accurate feature extraction of police drones, but also provides technical support for their widespread application in complex investigation environments.
ISSN:1674-649X

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