Title :
Negative Information for Occlusion Reasoning in Dynamic Extended Multiobject Tracking
Author :
Wyffels, Kevin ; Campbell, Mark
Author_Institution :
Sibley Sch. of Mech. & Aerosp. Eng., Cornell Univ., Ithaca, NY, USA
Abstract :
A novel approach to utilize negative information to improve the precision and accuracy of extended multiobject tracking is presented. The parameterized probability density of object tracks undetected in sensor data is updated via inferences about the conditions necessary to result in occlusion of the undetected object. Negative information is also leveraged to inform track existence and data association, both of which contribute to a more sensible belief of the local dynamic scene. Simulation and experimental results are presented from autonomous driving scenarios, demonstrating that the use of negative information leads to a more complete, accurate, precise, and intuitive belief of the local scene, enabling high-level tasks that would otherwise be impractical.
Keywords :
inference mechanisms; mobile robots; object tracking; probability; robot vision; sensor fusion; autonomous driving scenarios; data association; dynamic extended multiobject tracking; high-level tasks; local dynamic scene; negative information; object tracking; occlusion reasoning; parameterized probability density; sensor data; Accuracy; Cognition; Computational modeling; Media; Robot sensing systems; Uncertainty; Extended objects; multiobject tracking; negative information; occlusion reasoning; robot perception; sensor fusion;
Journal_Title :
Robotics, IEEE Transactions on
DOI :
10.1109/TRO.2015.2409413
