A Bayesian Framework for Figure-Ground Interpretation

Figure/ground assignment, in which the visual image is divided into nearer (figural) andfarther (ground) surfaces, is an essential step in visual processing, but its underlying computational mechanisms are poorly understood. Figural assignment (often referred to as border ownership) can vary along a contour, suggesting a spatially distributed process whereby local and global cues are combined to yield local estimates of border ownership. In this paper we model figure/ground estimation ina Bayesian belief network, attempting to capture the propagation of border ownership across the image as local cues (contour curvature and T-junctions) interact withmore global cues to yield a figure/ground assignment. Our network includes as a nonlocal factor skeletal (medial axis) structure, under the hypothesis that medial structure "draws" border ownership so that borders are owned by the skeletal hypothesis that best explains them. We also briefly present a psychophysical experimentin which we measured local border ownership along a contour at various distances from an inducing cue (a T-junction).