Abstract

Transmission line corridor (i.e., Right-of-Ways (ROW)) clearance management plays a critically important role in power line risk management and is an important task of the routine power line inspection of the grid company. The clearance anomaly detection measures the distance between the power lines and the surrounding non-power-facility objects in the corridor such as trees, and buildings, to judge whether the clearance is within the safe range. To find the clearance hazards efficiently and flexibly, this study thus proposed an automatic clearance anomaly detection method utilizing LiDAR point clouds collected by unmanned aerial vehicle (UAV). Firstly, the terrain points were filtered out using two-step adaptive terrain filter and the pylons were detected in the non-terrain points following a feature map method. After dividing the ROW point clouds into spans based on the pylon detection results, the power line point clouds were extracted according to their geometric distribution in local span point clouds slices, and were further segmented into clusters by applying conditional Euclidean clustering with linear feature constraints. Secondly, the power line point clouds segments were iteratively fitted with 3D catenary curve model that is represented by a horizontal line and a vertical catenary curve defined by a hyperbolic cosine function, resulting in a continuous mathematical model of the discretely sampled points of the power line. Finally, a piecewise clearance calculation method which converts the point-to-catenary curve distance measurements to minimal distance calculation based on differential geometry was used to calculate the distance between the power line and the non-power-facility objects in the ROW. The clearance measurements were compared with the standard safe threshold to find the clearance anomalies in the ROWs. Multiple LiDAR point clouds datasets collected by a large-scale UAV power line inspection system were used to validate the effectiveness and accuracy of the proposed method. The detected results were validated through qualitatively visual inspection, quantitatively manual measurements in raw point clouds and on-site field survey. The experiments show that the automatic clearance anomaly detection method proposed in this paper effectively detects the clearance hazards such as tree encroachment, and the clearance measurement accuracy is decimeter level for the LiDAR point clouds collected by our UAV inspection system.

Highlights

  • Electricity powers the activities of modern-day societies

  • The ROW clearance anomaly detection measures the distance between the power lines and the surrounding non-power-facility objects in the corridor such as trees and buildings to judge whether the clearance is within the safe range

  • ROW clearance anomaly detection measures the distance between the power lines and the surrounding non-power-facility objects in the corridor such as trees to find the anomalies exceeding the safe distance thresholds defined in the regulations

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Summary

Introduction

Electricity powers the activities of modern-day societies. The power line networks transmitting the electricity are located in numerous transmission line corridor (i.e., Right-of-Ways (ROW)) areas. ROWs are vulnerable to potential hazards (e.g., icing), resulting in short- or long-term power outages [1,2]. It is critical for the safe operation of power transmission grids to monitor the ROW to find potential threats on the power line networks in an efficient and reliable way [3,4]. The ROW clearance anomaly detection measures the distance between the power lines and the surrounding non-power-facility objects in the corridor such as trees and buildings to judge whether the clearance is within the safe range. There is an urgent need to develop an automatic and flexible ROW clearance anomaly detection method for the safe operation of the power transmission grid

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