Aneesh Chauhan scite author profile

Inspection of power line infrastructures must be periodically conducted by electric companies in order to ensure reliable electric power distribution. Research efforts are focused on automating the power line inspection process by looking for strategies that satisfy the different requirements of the inspection: simultaneously detect transmission towers, check for defects, and analyze security distances. Following this direction, this paper proposes a supervised learning approach for solving the tower detection and classification problem, where HOG features are used to train two MLP (multi-layer perceptron) neural networks. The first classifier is used for backgroundforeground separation, and the second multi-class MLP is used for classifying 4 different types of electric towers. A thorough evaluation of the tower detection and classification approach has been carried out on image data from real inspections tasks with different types of towers and backgrounds. In the different evaluations that were conducted highly encouraging results were obtained. This shows that a learning-based approach is a promising technique for power line inspection.

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Towards autonomous detection and tracking of electric towers for aerial power line inspection

Martínez¹,

Sampedro²,

Chauhan³

et al. 2014

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This paper presents an approach towards autonomous aerial power line inspection. In particular, the presented work focuses on real-time autonomous detection, localization and tracking of electric towers. A strategy which combines classic computer vision and machine learning techniques, is proposed. A generalized detection and localization approach is presented, where a two-class multilayer perceptron (MLP) neural network was trained for Tower-Background classification. This MLP is applied over sliding windows for each camera frame until a tower is detected. The detection of a tower triggers the tracker. A hierarchical tracking methodology, especially designed for tracking towers in real-time, is presented. This methodology is based on the Hierarchical Multi-Parametric and Multi-Resolution Inverse Compositional Algorithm [1], and is proposed to be used for tracking and maintaining the tower in the field of view (FOV). The proposed strategy, which is the combination of the tower detector and the tracker, is evaluated on videos from several real manned helicopter inspections. Overall, the results show that the proposed strategy performs very well at detecting and tracking various types of electric towers in diverse environmental settings.

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3D object perception and perceptual learning in the RACE project

Oliveira

Lopes

Lim

et al. 2016

Robotics and Autonomous Systems

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The Power Line Inspection Software (PoLIS): A versatile system for automating power line inspection

Martínez

Sampedro²,

Chauhan³

et al. 2018

Engineering Applications of Artificial Intelligence

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Aneesh Chauhan

A supervised approach to electric tower detection and classification for power line inspection

Towards autonomous detection and tracking of electric towers for aerial power line inspection

3D object perception and perceptual learning in the RACE project

The Power Line Inspection Software (PoLIS): A versatile system for automating power line inspection

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