Abstract
Kernel size plays a significant role in the performance of the maximum correntropy Kalman filter (MCC-KF). Kernel size is usually chosen by trail and error. If the kernel size is large, the MCC-KF reduces to the Kalman filter (KF). However, if the kernel size is small, the MCC-KF may diverge, or converge slowly. We propose a novel method for adaptive kernel size selection. We calculate kernel size as a weighted sum of the innovation term and the covariance of the filter-indicated estimation error at each time step. We call this filter the "MCC with adaptive kernel size filter" (MCC-AKF). We analytically prove that the true mean square error (TMSE) of the MCC-AKF is less than or equal to that of the MCC-KF under certain conditions. A simulation example is provided to illustrate the analytical results.
Cite
CITATION STYLE
Fakoorian, S., Izanloo, R., Shamshirgaran, A., & Simon, D. (2019). Maximum Correntropy Criterion Kalman Filter with Adaptive Kernel Size. In Proceedings of the IEEE National Aerospace Electronics Conference, NAECON (Vol. 2019-July, pp. 581–584). Institute of Electrical and Electronics Engineers Inc. https://doi.org/10.1109/NAECON46414.2019.9057886
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