Title :
Reducing “Structure from Motion”: a general framework for dynamic vision. 2. Implementation and experimental assessment
Author :
Soatto, Stefano ; Perona, Pietro
Author_Institution :
Dept. of Electr. Eng., Washington Univ., St. Louis, MO, USA
fDate :
9/1/1998 12:00:00 AM
Abstract :
For pt.1 see ibid., p.933-42 (1998). A number of methods have been proposed in the literature for estimating scene-structure and ego-motion from a sequence of images using dynamical models. Despite the fact that all methods may be derived from a “natural” dynamical model within a unified framework, from an engineering perspective there are a number of trade-offs that lead to different strategies depending upon the applications and the goals one is targeting. We want to characterize and compare the properties of each model such that the engineer may choose the one best suited to the specific application. We analyze the properties of filters derived from each dynamical model under a variety of experimental conditions, assess the accuracy of the estimates, their robustness to measurement noise, sensitivity to initial conditions and visual angle, effects of the bas-relief ambiguity and occlusions, dependence upon the number of image measurements and their sampling rate
Keywords :
image reconstruction; image sequences; motion estimation; recursive estimation; bas-relief ambiguity; dynamic vision; dynamical models; ego-motion estimation; filter properties; image reconstruction; image sequence; initial condition sensitivity; measurement noise robustness; occlusions; sampling rate; scene-structure estimation; structure-from-motion recovery; visual angle sensitivity; Computer vision; Filters; Image motion analysis; Layout; Motion estimation; Navigation; Noise measurement; Noise robustness; Optical sensors; Recursive estimation;
Journal_Title :
Pattern Analysis and Machine Intelligence, IEEE Transactions on
