摘要
为解决微纳卫星星上校时守时系统的稳定性差、受环境温度影响大的问题,提出了提高系统性能的新息加权自适应卡尔曼滤波算法。建立温补晶振的频率随温度变化的模型,采用卡尔曼滤波算法滤除输入噪声并实现晶振的校准,采用新息加权技术滤除野值,利用自适应技术减少系统噪声对滤波结果的影响。实验结果表明:所提算法可以在600 s左右实现收敛并且在校时期间可以实时调整,校时过程中可有效地减小输入野值和系统噪声的影响,在环境温度变化时守时精度可达到178μs/d,有效地提高了系统的稳定性和守时精度。
A new innovation-weighted adaptive Kalman filtering algorithm is proposed to improve system performance by addressing the issues of poor stability of the internal calibration punctual system of micro-nano satellites and low punctuality accuracy when large changes occur due to the influence of ambient temperature.A model of frequency change of temperature-compensated crystal oscillator with temperature is established,the Kalman filter algorithm is used to filter out the input noise and realize the calibration of the crystal oscillator model parameters,the input field value is filtered out by new innovation-weighted technology,and the influence of system noise on the filtering results is reduced by adaptive technology.The experimental results show that the algorithm can achieve the convergence of model parameters in about 600s and can be adjusted in real time during the calibration period.The influence of input field value and system noise can be successfully controlled throughout the calibration process;when the ambient temperature changes,the punctual accuracy can reach 178μs/day.The proposed algorithm effectively improves the stability and punctual accuracy of the system.
作者
黄跃
王慧泉
涂实磊
金仲和
HUANG Yue;WANG Huiquan;TU Shilei;JIN Zhonghe(Micro-Satellite Research Center,Zhejiang University,Hangzhou 310027,China;Key Laboratory of Micro-Nano Satellite Research,Zhejiang Province,Hangzhou 310027,China)
出处
《北京航空航天大学学报》
北大核心
2025年第6期2157-2164,共8页
Journal of Beijing University of Aeronautics and Astronautics
关键词
微纳卫星
卡尔曼滤波
晶振模型
时间同步
新息加权
micro-nano satellite
Kalman filter
crystal oscillator model
time synchronization
innovationweighted
