Optimal Linear Estimators for Systems With Finite-Step Correlated Noises and Packet Dropout Compensations

Shuli Sun; Tian Tian; Honglei Lin

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Optimal Linear Estimators for Systems With Finite-Step Correlated Noises and Packet Dropout Compensations

机译：具有有限步相关噪声和丢包补偿的系统的最佳线性估计器

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摘要

This paper is concerned with the optimal estimation problem for discrete-time stochastic systems with finite-step auto- and cross-correlated noises and multiple packet dropouts induced by the unreliable networks. When a packet transmitted from the sensor to the data processing center is lost, its predictor is used as the compensation. The optimal linear estimators including filter, predictor and smoother that depend on the packet arriving rate are proposed in the linear minimum variance sense via an innovative analysis approach. They are computed in terms of the solutions of some auto- and cross-covariance matrices. A tracking system example is given to demonstrate the effectiveness of the proposed algorithms.

机译：本文涉及离散时间随机系统的最优估计问题，该系统具有有限步的自相关和互相关噪声，并且由于不可靠的网络而导致多个数据包丢失。当从传感器传输到数据处理中心的数据包丢失时，将其预测值用作补偿。通过一种创新的分析方法，在线性最小方差意义上提出了取决于包到达率的最优线性估计器，包括滤波器，预测器和平滑器。它们是根据一些自协方差和互协方差矩阵的解来计算的。给出了一个跟踪系统的例子来证明所提算法的有效性。

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来源
《IEEE Transactions on Signal Processing》 |2016年第21期|5672-5681|共10页
作者
Shuli Sun; Tian Tian; Honglei Lin;
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作者单位

School of Electrical Engineering, Heilongjiang University, Harbin, China;

School of Electrical Engineering, Heilongjiang University, Harbin, China;

School of Electrical Engineering, Heilongjiang University, Harbin, China;

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正文语种 eng
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关键词
Noise measurement; Covariance matrices; Loss measurement; Estimation error; Data processing; Signal processing algorithms; Technological innovation;

机译：噪声测量;协方差矩阵;损耗测量;估计误差;数据处理;信号处理算法;技术创新;

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3. Robust time-varying Kalman estimators for systems with packet dropouts and uncertain-variance multiplicative and linearly correlated additive white noises [J] . Yang Chunshan, Deng Zili International Journal of Adaptive Control and Signal Processing . 2018,第1期

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6. Multi-packet transmission aero-engine DCS neural network sliding mode control based on multi-kernel LS-SVM packet dropout online compensation [O] . Li Guangfu, Wang Xu, Ren Jia, 2020

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8. Optimal Projection Equations for Discrete-Time Fixed-Order Dynamic Compensation of Linear Systems with Multiplicative White Noise [R] . Bernstein, D. S., Haddad, W. M. 1987

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Optimal Linear Estimators for Systems With Finite-Step Correlated Noises and Packet Dropout Compensations

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