Multiple-target tracking in human and machine vision

Multiple-target tracking in human and machine vision

Humans are able to track multiple objects at any given time in their daily activities-for example, we can drive a car while monitoring obstacles, pedestrians, and other vehicles. Several past studies have examined how humans track targets simultaneously and what underlying behavioral and neural mech...

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Veröffentlicht in:PLoS computational biology 2020-04, Vol.16 (4), p.e1007698-e1007698
Hauptverfasser: Kamkar, Shiva, Ghezloo, Fatemeh, Moghaddam, Hamid Abrishami, Borji, Ali, Lashgari, Reza
Format: Artikel
Sprache:eng
Schlagworte:
Algorithms
Analysis
Artificial intelligence
Biology and Life Sciences
Brain research
Comparative analysis
Computer and Information Sciences
Computer engineering
Computer vision
Computers
Embedded systems
Engineering research
Human performance
Immune system
Laboratories
Machine vision
Medical research
Memory
Methods
Motion capture
Multiple target tracking
Multitasking (Human behavior)
Nervous system
Neural networks
Neurosciences
Pedestrians
Physical Sciences
Research and Analysis Methods
Researchers
Review
Social Sciences
Studies
Video data
Vision
Vision systems
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Zusammenfassung:Humans are able to track multiple objects at any given time in their daily activities-for example, we can drive a car while monitoring obstacles, pedestrians, and other vehicles. Several past studies have examined how humans track targets simultaneously and what underlying behavioral and neural mechanisms they use. At the same time, computer-vision researchers have proposed different algorithms to track multiple targets automatically. These algorithms are useful for video surveillance, team-sport analysis, video analysis, video summarization, and human-computer interaction. Although there are several efficient biologically inspired algorithms in artificial intelligence, the human multiple-target tracking (MTT) ability is rarely imitated in computer-vision algorithms. In this paper, we review MTT studies in neuroscience and biologically inspired MTT methods in computer vision and discuss the ways in which they can be seen as complementary.
ISSN:1553-7358
1553-734X
1553-7358
DOI:10.1371/journal.pcbi.1007698