This paper proposes a novel multitarget multi-Bernoulli (MeMBer) random finite set (RFS) posterior density recursion that preserves the cardinality probability mass function (pmf) upon update. The proposed recursion propagates the posterior density of a MeMBer RFS that is parameterized by target existence probabilities and marginal densities, that are assumed independent. At update, the exact posterior is derived via marginalization over a set of global (measurement dependent) hypotheses. However, it is shown that the independent existence probability assumption is violated in the exact posterior. In order to alleviate this problem, an approach inspired by the recently proposed set-joint probabilistic data association (SJPDA) filter is prop...
The multi-target tracking filter under the Bayesian framework has strict requirements on the prior i...
We decompose a probability density function (PDF) of a labelled random finite set (RFS) into a proba...
Random finite sets (RFSs) are natural representations of multi-target states and observations that a...
This paper proposes a novel multitarget multi-Bernoulli (MeMBer) random finite set (RFS) posterior d...
In this paper we address the problem of tracking multiple targets based on raw measurements by means...
The objective of this paper is to approximate the unlabelled posterior random finite set (RFS) densi...
Recent developments in random finite sets (RFSs) have yielded a variety of tracking methods that avo...
An analytic solution to the multi-target Bayes recursion known as the δ-Generalized Labeled Multi-Be...
Abstract—The probability hypothesis density (PHD) and multi-target multi-Bernoulli (MeMBer) filters ...
The cardinality balanced multi-target multi-Bernoulli (CBMeMBer) filter developed recently has been ...
It is shown analytically that the multi-target multi- Bernoulli (MeMBer) recursion, proposed by Mahl...
© 2017 SPIE. The random infinite set (RFS) approach to information fusion addressed target track-lab...
The joint probabilistic data association (JPDA) filter is a popular tracking methodology for problem...
An analytic solution to the multi-target Bayes recursion known as the δ-Generalized Labeled Mu...
We propose, for the superpositional sensor scenario, a hybrid between the multi-Bernoulli filter and...
The multi-target tracking filter under the Bayesian framework has strict requirements on the prior i...
We decompose a probability density function (PDF) of a labelled random finite set (RFS) into a proba...
Random finite sets (RFSs) are natural representations of multi-target states and observations that a...
This paper proposes a novel multitarget multi-Bernoulli (MeMBer) random finite set (RFS) posterior d...
In this paper we address the problem of tracking multiple targets based on raw measurements by means...
The objective of this paper is to approximate the unlabelled posterior random finite set (RFS) densi...
Recent developments in random finite sets (RFSs) have yielded a variety of tracking methods that avo...
An analytic solution to the multi-target Bayes recursion known as the δ-Generalized Labeled Multi-Be...
Abstract—The probability hypothesis density (PHD) and multi-target multi-Bernoulli (MeMBer) filters ...
The cardinality balanced multi-target multi-Bernoulli (CBMeMBer) filter developed recently has been ...
It is shown analytically that the multi-target multi- Bernoulli (MeMBer) recursion, proposed by Mahl...
© 2017 SPIE. The random infinite set (RFS) approach to information fusion addressed target track-lab...
The joint probabilistic data association (JPDA) filter is a popular tracking methodology for problem...
An analytic solution to the multi-target Bayes recursion known as the δ-Generalized Labeled Mu...
We propose, for the superpositional sensor scenario, a hybrid between the multi-Bernoulli filter and...
The multi-target tracking filter under the Bayesian framework has strict requirements on the prior i...
We decompose a probability density function (PDF) of a labelled random finite set (RFS) into a proba...
Random finite sets (RFSs) are natural representations of multi-target states and observations that a...