In this paper we propose a novel solution to the labeled multi-target tracking problem. The method presented is specially effective in scenarios where the targets have once moved in close proximity. When this is the case, disregarding the labeling uncertainty present in a solution (after the targets split) may lead to a wrong decision by the end user. We take a closer look at the main cause of the labeling problem. By modeling the possible crosses between the targets, we define some relevant labeled point estimates. We extend the concept of crossing objects, which is obvious in one dimension, to scenarios where the objects move in multiple dimensions. Moreover, we provide a measure of uncertainty associated to the proposed solution to tackl...
When tracking multiple targets in crowded scenarios, modeling mutual exclusion between distinct targ...
Abstract—The task of tracking multiple targets is often addressed with the so-called tracking-by-det...
In this paper we present a method for the tracking of interacting targets disregarding whether or no...
In this paper we propose a novel solution to the labeled multi-target tracking problem. The method p...
The Multiple Object Tracking problem for a known and constant number of closely-spaced objects in a ...
In multitarget tracking, the problem of track labeling (assigning labels to tracks) is an ongoing re...
In Multi-Target Tracking (MTT), the problem of assigning labels to tracks (track labelling) is vastl...
In multitarget tracking, the problem of track labeling (assigning labels to tracks) is an ongoing re...
In multi-target tracking (MTT), the problem of assigning labels to tracks (track labelling) is vastl...
In mulit-target tracking and labelling (MTTL), mixed labelling corresponds to a situation where ther...
In multi-target tracking (MTT), we are often interested not only in finding the position of the mult...
In multi-target tracking (MTT), the problem of assigning labels to tracks (track labelling) is vastl...
In this article, we propose a metric on the space of finite sets of trajectories for assessing multi...
We present a principled model for occlusion reasoning in complex scenarios with frequent inter-objec...
Current state of the art multi-target tracking (MTT) exists in an "either/or" situation. Either a gr...
When tracking multiple targets in crowded scenarios, modeling mutual exclusion between distinct targ...
Abstract—The task of tracking multiple targets is often addressed with the so-called tracking-by-det...
In this paper we present a method for the tracking of interacting targets disregarding whether or no...
In this paper we propose a novel solution to the labeled multi-target tracking problem. The method p...
The Multiple Object Tracking problem for a known and constant number of closely-spaced objects in a ...
In multitarget tracking, the problem of track labeling (assigning labels to tracks) is an ongoing re...
In Multi-Target Tracking (MTT), the problem of assigning labels to tracks (track labelling) is vastl...
In multitarget tracking, the problem of track labeling (assigning labels to tracks) is an ongoing re...
In multi-target tracking (MTT), the problem of assigning labels to tracks (track labelling) is vastl...
In mulit-target tracking and labelling (MTTL), mixed labelling corresponds to a situation where ther...
In multi-target tracking (MTT), we are often interested not only in finding the position of the mult...
In multi-target tracking (MTT), the problem of assigning labels to tracks (track labelling) is vastl...
In this article, we propose a metric on the space of finite sets of trajectories for assessing multi...
We present a principled model for occlusion reasoning in complex scenarios with frequent inter-objec...
Current state of the art multi-target tracking (MTT) exists in an "either/or" situation. Either a gr...
When tracking multiple targets in crowded scenarios, modeling mutual exclusion between distinct targ...
Abstract—The task of tracking multiple targets is often addressed with the so-called tracking-by-det...
In this paper we present a method for the tracking of interacting targets disregarding whether or no...