架空线路磁场主动消声闭环系统磁场传感器空间布置优化

B. Kuznetsov, T. Nikitina, I. Bovdui, O. Voloshko, V. Kolomiets, B. Kobylianskyi
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引用次数: 0

摘要

的目标。开发了一种封闭系统磁场传感器空间布局和角度位置的优化方法,以确保对架空线路产生的磁场进行最大效率的主动消声消除。方法。针对多目标极小极大优化问题,基于局部目标的二元偏好关系,利用基于Biot-Savart定律计算的矢量目标函数,确定了架空电网磁场主动消声闭环系统中磁场传感器的空间布置和角度位置。求解了基于非线性阿基米德算法的矢量极大极小优化问题的多群多智能体优化。结果。封闭系统磁场传感器最佳空间布置和角度位置的仿真与实验研究结果,以保证最大效率地主动消音桶式架空线路产生的磁场。创意。提出了封闭系统中磁场传感器空间布置和角度位置的优化方法,以保证对架空线路产生的磁场的有效屏蔽。实用价值。解决了封闭系统中磁场传感器空间布置和角度位置优化的重要实际问题,以最大限度地提高架空线路产生磁场的主动消声效率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Optimization of spatial arrangement of magnetic field sensors of closed loop system of overhead power lines magnetic field active silencing
Aim. Development of a method for optimization of spatial arrangement and angular position of magnetic field sensors of a closed system to ensure maximum efficiency of active silencing canceling of the magnetic field generated by overhead power lines. Methodology. Spatial arrangement and angular position of magnetic field sensors of closed loop system of overhead power lines magnetic field active silencing determined based on binary preference relations of local objective for multi-objective minimax optimization problem, in whith the vector objective function calculated based on Biot–Savart law. The solution of this vector minimax optimization problem calculated based on nonlinear Archimedes algorithm of multi-swarm multi-agent optimization. Results. Results of simulation and experimental research of optimal spatial arrangement and angular position of magnetic field sensors of a closed system to ensure maximum efficiency of active silencing of the magnetic field generated by overhead power lines with a barrel-type arrangement of wires. Originality. The method for optimization of spatial arrangement and angular position of magnetic field sensors of a closed system to ensure maximum efficiency of active shielding of the magnetic field generated by overhead power lines is developed. Practical value. An important practical problem optimization of spatial arrangement and angular position of magnetic field sensors of a closed system to ensure maximum efficiency of active silencing of the magnetic field generated by overhead power lines has been solved.
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