A Method of Field Elevation Measurement in Distribution Network Work Based on Combination of Barometric Altimetry and Motion Detection

Abstract

Accurate detection of violations in the process of high‐altitude operation plays an essential role in improving the safety production level of distribution network work. The basis of detecting violations in work at high altitude is to accurately measure the ground height of relevant workers and tools. Therefore, in this study, a method of on‐site elevation measurement in distribution network based on the combination of atmospheric pressure measurement and climbing motion detection is proposed. Through the atmospheric pressure sensor installed on the operator, the accurate value of the altitude change of the operator in a short time can be obtained. At the same time, the acceleration sensor and SVM classifier are used to identify the climbing action of the operator, and the CDHA algorithm is proposed to accumulate the height changes measured by the atmospheric pressure sensor when the operator climbs, so as to obtain the height value of the operator relative to the ground. At the same time, the problem that the height measurement results of the atmospheric pressure sensor drift significantly after a long time of operation is solved. The experimental results show that the average measurement error of the operator's height above the ground by this method is 0.33 m, which is better than the existing comparison methods, and further verifies the validity of the proposed method in accurately determining the height of operator off the ground. © 2024 Institute of Electrical Engineer of Japan and Wiley Periodicals LLC.