On the application of nature-inspired grey wolf optimizer algorithm in geodesy

IF 0.9 Q4 REMOTE SENSING Journal of Geodetic Science Pub Date : 2020-01-01 DOI:10.1515/jogs-2020-0107

Mevlut Yetkin, O. Bilginer

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引用次数: 6

Abstract

Abstract Nowadays, solving hard optimization problems using metaheuristic algorithms has attracted bountiful attention. Generally, these algorithms are inspired by natural metaphors. A novel metaheuristic algorithm, namely Grey Wolf Optimization (GWO), might be applied in the solution of geodetic optimization problems. The GWO algorithm is based on the intelligent behaviors of grey wolves and a population based stochastic optimization method. One great advantage of GWO is that there are fewer control parameters to adjust. The algorithm mimics the leadership hierarchy and hunting mechanism of grey wolves in nature. In the present paper, the GWO algorithm is applied in the calibration of an Electronic Distance Measurement (EDM) instrument using the Least Squares (LS) principle for the first time. Furthermore, a robust parameter estimator called the Least Trimmed Absolute Value (LTAV) is applied to a leveling network for the first time. The GWO algorithm is used as a computing tool in the implementation of robust estimation. The results obtained by GWO are compared with the results of the ordinary LS method. The results reveal that the use of GWO may provide efficient results compared to the classical approach.

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启发自然的灰狼优化算法在大地测量中的应用

目前，利用元启发式算法求解难优化问题引起了广泛的关注。一般来说，这些算法的灵感来自于自然隐喻。一种新的元启发式算法——灰狼优化算法(GWO)可以应用于大地测量优化问题的求解。GWO算法基于灰狼的智能行为和基于种群的随机优化方法。GWO的一大优点是需要调整的控制参数较少。该算法模拟了自然界中灰狼的领导层级和捕猎机制。本文首次利用最小二乘原理将GWO算法应用于电子测距仪的标定。在此基础上，首次将最小裁剪绝对值(Least trim Absolute Value, LTAV)鲁棒参数估计器应用于调平网络。将GWO算法作为鲁棒估计实现的计算工具。将GWO法所得结果与普通LS法所得结果进行了比较。结果表明，与经典方法相比，使用GWO可以提供更有效的结果。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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