The structure from motion problem has been extensively studied in the field of computer vision. Yet, the bulk of the existing work assumes that the scene contains only a single moving object. The more realistic case where an unknown number of objects move in the scene has received little attention, especially for its theoretical treatment. We present a new method for separating and recovering the motion and shape of multiple independently moving objects in a sequence of images. The method does not require prior knowledge of the number of objects, nor is dependent on any grouping of features into an object at the image level. For this purpose, we introduce a mathematical construct of object shapes, called the shape interaction matrix, which is invariant to both the object motions and the selection of coordinate systems. This invariant structure is computable solely from the observed trajectories of image features without grouping them into individual objects. Once the structure is computed, it allows for segmenting features into objects by the process of transforming it into a canonical form, as well as recovering the shape and motion of each object.<>
A multi-body factorization method for motion analysis
01.01.1995
658039 byte
Aufsatz (Konferenz)
Elektronische Ressource
Englisch
A Multi-Body Factorization Method for Motion Analysis
British Library Conference Proceedings | 1995
|Multi-body Factorization with Uncertainty: Revisiting Motion Consistency
British Library Online Contents | 2006
|Articulated structure from motion by factorization
IEEE | 2005
|A Motion Capturing Technique Employing Factorization
British Library Online Contents | 2000
|A Factorization Method for Structure from Planar Motion
IEEE | 2005
|