Sensors, Vol. 19, Pages 4031: DOA Tracking Based on Unscented Transform Multi-Bernoulli Filter in Impulse Noise Environment

Sensors, Vol. 19, Pages 4031: DOA Tracking Based on Unscented Transform Multi-Bernoulli Filter in Impulse Noise Environment Sensors doi: 10.3390/s19184031 Authors: Wu Zhao Dong Xue Cai Aiming at the problem of multiple-source direction of arrival (DOA) tracking in impulse noise, this paper models the impulse noise by using the symmetric α stable (SαS) distribution, and proposes a DOA tracking algorithm based on the Unscented Transform Multi-target Multi-Bernoulli (UT-MeMBer) filter framework. In order to overcome the problem of particle decay in particle filtering, UT is adopted to select a group of sigma points with different weights to make them close to the posterior probability density of the state. Since the α stable distribution does not have finite covariance, the Fractional Lower Order Moment (FLOM) matrix of the received array data is employed to replace the covariance matrix to formulate a MUSIC spatial spectra in the MeMBer filter. Further exponential weighting is used to enhance the weight of particles at high likelihood area and obtain a better resampling. Compared with the PASTD algorithm and the MeMBer DOA filter algorithm, the simulation results show that the proposed algorithm can more effectively solve the issue that the DOA and number of target are time-varying. In addition, we present the Sequential Monte Carlo (SMC) implementation of the UT-MeMBer algorithm.
Source: Sensors - Category: Biotechnology Authors: Tags: Article Source Type: research