148 / 2019-12-15 09:11:00
A Novel Kalman Filter with Adaptive Measurement Bias Estimate for DVL/SINS Integrated Navigation
Integrated Navigation; biassed measurement noise; Kalman filter; Normal inverse Wishart; variational Bayesian
摘要待审
Yulong Huang / Harbin Engineering University, China
In this brief, a novel adaptive Kalman filter with adaptive estimate for measurement bias is proposed to handle the filtering problem with biassed measurement noise, which may be encountered in the application of DVL/SINS integrated navigation. The Variational Bayesian (VB) method is used in the proposed filter, and the one-step prediction probability density function (PDF) is modelled as a Gaussisan with zero mean vector, and the measurement noise mean vector and measurement noise covariance matrix joint PDF is modelled as a Normal-inverse-Wishart (NIW) distribution. Based on the established hierarchical Gaussian model, the estimated state vector, the measurement noise bias vector as well as the measurement noise covariance matrix are corporately estimated. As compared with existing VB-based adaptive Kalman filter (VBAKF), the proposed filer has the better precision in the last simulation.
重要日期
  • 会议日期

    06月08日

    2020

    06月11日

    2020

  • 01月12日 2020

    初稿截稿日期

  • 04月15日 2020

    提前注册日期

  • 12月31日 2020

    注册截止日期

主办单位
IEEE Signal Processing Society
承办单位
Zhejiang University
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