引用本文:杨智博,邓自立.带不确定方差乘性和加性噪声系统鲁棒加权 融合稳态Kalman估值器[J].控制理论与应用,2018,35(4):547~556.[点击复制]
YANG Zhi-bo,DENG Zi-li.Robust weighted fusion steady-state Kalman estimators for systems with uncertain-variance multiplicative and additive noises[J].Control Theory and Technology,2018,35(4):547~556.[点击复制]
带不确定方差乘性和加性噪声系统鲁棒加权 融合稳态Kalman估值器
Robust weighted fusion steady-state Kalman estimators for systems with uncertain-variance multiplicative and additive noises
摘要点击 3112  全文点击 1332  投稿时间:2017-03-23  修订日期:2017-11-09
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DOI编号  10.7641/CTA.2017.70186
  2018,35(4):547-556
中文关键词  乘性噪声  不确定噪声方差  加权融合  极大极小鲁棒Kalman估值器  Lyapunov方程方法  虚拟噪声方法
英文关键词  multiplicative noise  uncertain noise variances  weighted fusion  mini-max robust Kalman estimator  Lyapunov equation approach  fictious noise approach
基金项目  国家自然科学基金项目(60874063, 60374026, 61503125, 61703147), 吉林省教育厅科学技术研究“十二五”规划课题(2017390)资助.
作者单位E-mail
杨智博 黑龙江大学/北华大学 dengzili789@163.com 
邓自立* 黑龙江大学 dzl@hlju.edu.cn 
中文摘要
      本文研究带不确定方差乘性和加性噪声和带状态相依及噪声相依乘性噪声的多传感器系统鲁棒加权融合 估计问题. 通过引入虚拟噪声补偿乘性噪声的不确定性, 将原系统化为带确定参数和不确定加性噪声方差的系统, 进而利用Lyapunov方程方法提出在统一框架下的按对角阵加权融合极大极小鲁棒稳态Kalman估值器(预报器、滤 波器和平滑器), 其中基于预报器设计滤波器和平滑器, 并给出每个融合器的实际估值误差方差的最小上界. 证明了 融合器的鲁棒精度高于每个局部估值器的鲁棒精度. 应用于不间断电源(uninterruptible power system, UPS)系统鲁 棒融合滤波的仿真例子说明了所提结果的正确性和有效性.
英文摘要
      The robust weighted fusion estimation problem is studied for the multi-sensor systems with uncertain-variance multiplicative and additive noises and with state-dependent and noise-dependent multiplicative noises in this paper. By introducing the fictitious noises to compensate the uncertainties of multiplicative noises, the original system is converted into one with deterministic parameters and uncertain additive noise variances. By the Lyapunov equation approach, the unified mini-max robust fusion steady-state Kalman estimators (predictor, filter and smoother) weighted by diagonal matrices are presented, where the filter and smoother are designed based on the predictor, and the minimal upper bound of actual estimation error variances of each fuser is given. It is proved that the robust accuracies of fusers are higher than that of each local estimator. A simulation example applied to robust fusion filtering of uninterruptible power system (UPS) shows the correctness and effectiveness of the proposed results