半导体光电, 2023, 44 (4): 519, 网络出版: 2023-11-26
基于BAS-BP-Bagging模型的光纤陀螺温度补偿
The Temperature Compensation Method of Fiber Optic Gyroscope Based on BAS-BP-Bagging Neural Network
光纤陀螺 温度补偿 BP神经网络 天牛须搜索算法 集成学习 fiber optic gyroscope temperature compensation BP neural network beetle antennae search algorithm ensemble learning
摘要
为提高光纤陀螺的输出精度,以天牛须搜索算法(BAS)优化后的BP神经网络模型为基学习器,采用Bagging并行集成学习算法建立了BAS-BP-Bagging温度补偿模型,并对某型号光纤陀螺进行了温度补偿实验。实验结果表明,在-40~+60 ℃温度变化环境下,该方法补偿后的光纤陀螺温度漂移相较于补偿前减小了近80%,相较于多项式补偿算法减小了55%,相较于BP神经网络补偿算法减小了30%左右。同时该模型在对新鲜样本的补偿过程中表现出了较为优越的泛化性能。
Abstract
In order to improve the output accuracy of fiber optic gyroscope, the BP neural network model optimized by the beetle antennae search algorithm (BAS) was used as the base learner, and the Bagging parallel integrated learning algorithm was used to establish a BAS-BP-Bagging temperature compensation model, and a temperature compensation experiment was conducted for a certain model of fiber optic gyroscope. The experimental results show that under the temperature change environment from -40 ℃ to +60 ℃, the temperature drift of the fiber optic gyroscope after compensation is reduced by nearly 80% compared with that before compensation, 55% compared with the polynomial compensation algorithm, and about 30% compared with the BP neural network compensation algorithm. And the model shows superior generalization performance in the compensation of fresh samples.
王开, 仇海涛, 石海洋. 基于BAS-BP-Bagging模型的光纤陀螺温度补偿[J]. 半导体光电, 2023, 44(4): 519. WANG Kai, QIU Haitao, SHI Haiyang. The Temperature Compensation Method of Fiber Optic Gyroscope Based on BAS-BP-Bagging Neural Network[J]. Semiconductor Optoelectronics, 2023, 44(4): 519.