融合多惯性传感器的输电线路舞动监测与预警系统研究

IF 3.1 Q1 Mathematics
Shuhuai An, Zhen Wei, Lei Tang, Jie Ren
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引用次数: 0

摘要

摘要本文首先分析了传输线跳的机理,建立了传输线跳的数学模型和传输线跳的参数。然后,设计了集成多个惯性传感器的传输线跳线监测预警系统,分别设计了塔架监测主分配器和无线惯性监测预警单元。然后,利用小波阈值法对传输线跳轨进行降噪,利用姿态分解算法确定双向不等式,设计传输线跳轨参数识别算法。最后,对所设计的系统进行了实验测试,并利用采集到的数据分析了舞蹈监测轨迹系统的监测性能。结果表明,传感器俯仰姿态和侧滚姿态的角误差在0.5°以内,航向角的角误差在1°以内,平滑信号的加速度在-0.2/g~0.2/g范围内。幅值识别的相对误差可达2.6 cm,频率识别与实际运动频率基本吻合,为0.21 Hz,识别频率误差在0.03 Hz以内。赫兹。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Research on transmission line dance monitoring and early warning system by fusing multi inertial sensors
Abstract This paper first analyzes the mechanism of transmission line dancing and constructs the mathematical model of transmission line dancing and the parameters of transmission line dancing. Then, a transmission line dancing monitoring and warning system is designed by integrating multiple inertial sensors, and the tower monitoring main splitter and wireless inertial monitoring and warning unit are designed, respectively. Then, the transmission line dancing trajectory was denoised using the wavelet threshold method, and the two-way inequality was determined by the attitude decomposition algorithm so as to design the transmission line dancing trajectory parameter identification algorithm. Finally, the designed system is tested experimentally, and the monitoring performance of the dance monitoring trajectory system is analyzed using collected data. The results show that the angular error of the sensor’s pitch and roll attitudes is within 0.5°, the angular error of the heading angle is within 1°, and the acceleration of the smoothed signal is in the range of -0.2/g~0.2/g. The relative error of amplitude recognition is up to 2.6 cm, and the frequency recognition basically agrees with the actual movement frequency, which is 0.21 Hz, and the error of the recognized frequency is within 0.03 Hz. Hz.
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来源期刊
Applied Mathematics and Nonlinear Sciences
Applied Mathematics and Nonlinear Sciences Engineering-Engineering (miscellaneous)
CiteScore
2.90
自引率
25.80%
发文量
203
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