Open AccessModel Adaptation and Posture Estimation of Moving Articulated Object Using Monocular Camera
Author(s) -
Nobutaka Shimada,
Y. Shirai,
Yoshinori Kuno
Publication year - 2000
Publication title -
lecture notes in computer science
Language(s) - English
Resource type - Book series
SCImago Journal Rank - 0.249
H-Index - 400
eISSN - 1611-3349
pISSN - 0302-9743
ISBN - 3-540-67912-X
DOI - 10.1007/10722604_14
Subject(s) - unobservable , computer science , kalman filter , computer vision , artificial intelligence , ambiguity , object (grammar) , constraint (computer aided design) , adaptation (eye) , extended kalman filter , set (abstract data type) , image (mathematics) , sequence (biology) , mathematics , physics , geometry , optics , econometrics , programming language , biology , genetics
This paper presents a method of estimating both 3-D shapes and moving poses of an ar- ticulated object from a monocular image sequence. Instead of using direct depth data, prior loose knowledge about the object, such as possible ranges of joint angles, lengths or widths of parts, and some relationships between them, are referred as system con- straints. This paper first points out that the estimate by Kalman filter essentially con- verge to a wrong state for non-linear unobservable systems. Thus the paper proposes an alternative method based on a set-membership-based estimation including dynam- ics. The method limits the depth ambiguity by considering loose constraint knowledge represented as inequalities and provides the shape recovery of articulated objects. Ef- fectiveness of the framework is shown by experiments.
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