基于深度学习算法的高架线下树木生长高度预测

Chao Su, Xiaomei Wu, Xiaoliang Tang, Junling Hu
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引用次数: 1

摘要

输电架空线路走廊下生长快、生长高的树木经常威胁线路的安全运行。当输电网络高度有限,导致线路与采油树的安全距离不足时,容易发生采油树相关故障和跳闸。因此,为了有效防止超高树生长对架空线路造成的损害,有必要了解超高树的生长规律,并对其生长高度进行预测。本文采用深度学习算法研究架空输电线路下超高树的生长规律。采用深度信念网络(deep Belief network)、自编码器(Auto-Encoder)和长短期记忆算法(long - short - term memory Algorithm)等不同的深度学习和人工神经网络算法对树高进行预测,并验证了这些算法的有效性。进一步,将这些算法进行组合,验证了组合算法比单个多层感知机和数理统计模型具有更高的预测精度。
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Growth Height Prediction for the Trees under Overhead Lines based on Deep Learning Algorithm
The safe operation of transmission overhead lines is often threatened by the fast growing and high growth trees under their line corridor. When the safe distance between the line and the tree is insufficient due to the limited height of transmission network, it is easy to occur tree related fault and tripping. Therefore, in order to effectively prevent the damage to overhead lines caused by the growth of extra high trees, it is necessary to know the growth rule of extra high trees and predict their growth height. In this paper, the deep learning algorithm is used to study the growth rule of extra high trees under overhead transmission lines. Different deep learning and artificial neural network algorithms such as Deep Belief Network, Auto-Encoder and Long-Short-Term-Memory Algorithm are used to predict the tree height, and the validity of these algorithms is verified. Furthermore, these algorithms are combined to verify that the combined algorithm has higher prediction accuracy than the single multilayer perceptron and mathematical statistical model.
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