Novel N ‐scan GM‐PHD‐based approach for multi‐target tracking

Abstract: The GM-PHD-based filter has been proposed as an alternative of the PHD filter to estimate the first-order moment of the multi-target posterior density. The GM-PHD filter utilises a weighted summation of Gaussian components to estimate the target states. This filter and its recent variants perform state extraction of the targets based on the target weights. However, due to different uncertainties such as noisy observation, miss-detection, clutter or occlusion, the weight of a target is decreased and the estimat… Show more

“…have been of significant interest due to their superior performance in terms of accuracy of cardinality and state estimation of multiple targets with their trajectories. Vo–Vo filter [2, 5] provides a closed‐form solution to the optimal Bayesian filter, and has shown to outperform the well‐known probability hypothesis density (PHD) filter [6, 7] and its cardinalised version, CPHD filter [8], and the multi‐Berboulli (MB) filter [9] in challenging multi‐target tracking scenarios.…”

Distributed multi‐sensor fusion using generalised multi‐Bernoulli densities

“…have been of significant interest due to their superior performance in terms of accuracy of cardinality and state estimation of multiple targets with their trajectories. Vo–Vo filter [2, 5] provides a closed‐form solution to the optimal Bayesian filter, and has shown to outperform the well‐known probability hypothesis density (PHD) filter [6, 7] and its cardinalised version, CPHD filter [8], and the multi‐Berboulli (MB) filter [9] in challenging multi‐target tracking scenarios.…”

Distributed multi‐sensor fusion using generalised multi‐Bernoulli densities

A novel SMC-PHD filter for multi-target tracking without clustering

Improved GM-PHD filter based on threshold separation clusterer for space-based starry-sky background weak point target tracking