Kai Li scite author profile

Automatic extraction of power lines using airborne LiDAR (Light Detection and Ranging) data has been one of the most important topics for electric power management. However, this is very challenging over complex urban areas, where power lines are in close proximity to buildings and trees. In this paper, we presented a new, semi-automated and versatile framework that consists of four steps: (i) power line candidate point filtering, (ii) local neighborhood selection, (iii) spatial structural feature extraction, and (iv) SVM classification. We introduced the power line corridor direction for candidate point filtering and multi-scale slant cylindrical neighborhood for spatial structural features extraction. In a detailed evaluation involving seven scales and four types for local neighborhood selection, 26 structural features, and two datasets, we demonstrated that the use of multi-scale slant cylindrical neighborhood for individual 3D points significantly improved the power line classification. The experiments indicated that precision, recall and quality rate of power line classification is more than 98%, 98% and 97%, respectively. Additionally, we showed that our approach can reduce the whole processing time while achieving high accuracy.

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Comparison of the 308‐nm excimer laser with the 308‐nm excimer lamp in the treatment of vitiligo – a randomized bilateral comparison study

Shi

et al. 2013

Photoderm Photoimm Photomed

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Systematic Comparison of Power Line Classification Methods from ALS and MLS Point Cloud Data

et al. 2018

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Power lines classification is important for electric power management and geographical objects extraction using LiDAR (light detection and ranging) point cloud data. Many supervised classification approaches have been introduced for the extraction of features such as ground, trees, and buildings, and several studies have been conducted to evaluate the framework and performance of such supervised classification methods in power lines applications. However, these studies did not systematically investigate all of the relevant factors affecting the classification results, including the segmentation scale, feature selection, classifier variety, and scene complexity. In this study, we examined these factors systematically using airborne laser scanning and mobile laser scanning point cloud data. Our results indicated that random forest and neural network were highly suitable for power lines classification in forest, suburban, and urban areas in terms of the precision, recall, and quality rates of the classification results. In contrast to some previous studies, random forest yielded the best results, while Naïve Bayes was the worst classifier in most cases. Random forest was the more robust classifier with or without feature selection for various LiDAR point cloud data. Furthermore, the classification accuracies were directly related to the selection of the local neighborhood, classifier, and feature set. Finally, it was suggested that random forest should be considered in most cases for power line classification.

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Adaptive Direction Detection in Deterministic Interference and Partially Homogeneous Noise

Dong

Liu

et al. 2017

IEEE Signal Process. Lett.

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Kai Li

Supervised Classification of Power Lines from Airborne LiDAR Data in Urban Areas

Comparison of the 308‐nm excimer laser with the 308‐nm excimer lamp in the treatment of vitiligo – a randomized bilateral comparison study

Systematic Comparison of Power Line Classification Methods from ALS and MLS Point Cloud Data

Adaptive Direction Detection in Deterministic Interference and Partially Homogeneous Noise

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