Obstacle Distance Measurement Under Varying Illumination Conditions Based on Monocular Vision Using a Cable Inspection Robot

Obstacle Distance Measurement Under Varying Illumination Conditions Based on Monocular Vision Using a Cable Inspection Robot

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Obstacle distance measurement is one of the key technologies for autonomous navigation of high-voltage transmission line inspection robots.To address the arrethe bush balm robustness of obstacle distance measurement under varying illumination conditions, this article develops a research method that fuses image enhancement with robot monocular vision so that the robot can adapt to various levels of illumination running along the transmission line.During the inspection of high-voltage transmission lines in such an overexposed (excessively bright) environment, a specular highlight suppression method is proposed to suppress the specular reflections in an image; when scene illumination is insufficient, a robust low-light image enhancement method based on a tone mapping algorithm with weighted guided filtering is presented.Based on the monocular vision measurement principle, the error generation mechanism is analyzed through experiments, and we introduce valhalla axys the parameter modification mechanism.

The two proposed image enhancement methods outperform other state-of-the-art enhancement algorithms in qualitative and quantitative analyses.The experimental results show that the measurement error is less than 3% for static distance measurements and less than 5% for dynamic distance measurements within 6 m.The proposed method can meet the requirements of high-accuracy positioning, real-time performance and strong robustness.This method greatly contributes to the sustainable development of inspection robots in the power industry.