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Learning to discriminate complex movements: Biological versus artifical trajectories
J Jastorff, Zoe Kourtzi, M Giese
Psychology
Research output
:
Contribution to journal
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Article
53
Citations (Scopus)
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Dive into the research topics of 'Learning to discriminate complex movements: Biological versus artifical trajectories'. Together they form a unique fingerprint.
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Keyphrases
Complex Motion
100%
Biologically Relevant
100%
Body Shape
66%
Motion Pattern
66%
Articulated Shapes
66%
Human Movement
66%
Social Communication
33%
Human Body
33%
Second Class
33%
One-group
33%
Discrimination Power
33%
Orientation Dependence
33%
Animal Bodies
33%
Visual Expertise
33%
Learning Process
33%
Visual System
33%
Human Observer
33%
Local Motion
33%
Motion Information
33%
Visual Function
33%
Visual Motion
33%
General Capabilities
33%
Learning Speed
33%
Movement Patterns
33%
Body Action
33%
Visual Learning
33%
Body Movement
33%
Learning Accuracy
33%
Complex Bodies
33%
Movement Recognition
33%
Skeleton Model
33%
Stimuli Generation
33%
Biological Motion Perception
33%
Computer Science
Motion Pattern
100%
Motion Information
50%
Morphing
50%
Learning Process
50%
Social Communication
50%
Neuroscience
Motion Perception
100%
Psychology
Motion Perception
100%