147,879 research outputs found
Figure-Ground Separation by Visual Cortex
Office of Naval Research (N00014-95-1-0109, N00014-95-1-0657
Boundary, Brightness, and Depth Interactions During Preattentive Representation and Attentive Recognition of Figure and Ground
This article applies a recent theory of 3-D biological vision, called FACADE Theory, to explain several percepts which Kanizsa pioneered. These include 3-D pop-out of an occluding form in front of an occluded form, leading to completion and recognition of the occluded form; 3-D transparent and opaque percepts of Kanizsa squares, with and without Varin wedges; and interactions between percepts of illusory contours, brightness, and depth in response to 2-D Kanizsa images. These explanations clarify how a partially occluded object representation can be completed for purposes of object recognition, without the completed part of the representation necessarily being seen. The theory traces these percepts to neural mechanisms that compensate for measurement uncertainty and complementarity at individual cortical processing stages by using parallel and hierarchical interactions among several cortical processing stages. These interactions are modelled by a Boundary Contour System (BCS) that generates emergent boundary segmentations and a complementary Feature Contour System (FCS) that fills-in surface representations of brightness, color, and depth. The BCS and FCS interact reciprocally with an Object Recognition System (ORS) that binds BCS boundary and FCS surface representations into attentive object representations. The BCS models the parvocellular LGN→Interblob→Interstripe→V4 cortical processing stream, the FCS models the parvocellular LGN→Blob→Thin Stripe→V4 cortical processing stream, and the ORS models inferotemporal cortex.Air Force Office of Scientific Research (F49620-92-J-0499); Defense Advanced Research Projects Agency (N00014-92-J-4015); Office of Naval Research (N00014-91-J-4100
The macro and the micro
Andreas Gursky is the darling of philosophers and art theorists of all kinds
of traditions and denominations. He has been used as a prime example of the
return of the sublime in contemporary art, as a trailblazer in the use of
the digital manipulation of images in order to represent something abstract
and even as a philosopher of perception who makes some subtle point about
the nature of visual experience. All of these arguments are based on some or
another technological innovation Gursky uses: the size of his photos, their
postproduction (often digital) manipulation and their unusually high
resolution. The aim of this paper is to shift the emphasis from these
arguments on the significance of the new technology in Gursky’s oeuvre to a
much more important role technology plays in his works, namely, in their
aesthetics
Neural Dynamics of 3-D Surface Perception: Figure-Ground Separation and Lightness Perception
This article develops the FACADE theory of three-dimensional (3-D) vision to simulate data concerning how two-dimensional (2-D) pictures give rise to 3-D percepts of occluded and occluding surfaces. The theory suggests how geometrical and contrastive properties of an image can either cooperate or compete when forming the boundary and surface representations that subserve conscious visual percepts. Spatially long-range cooperation and short-range competition work together to separate boundaries of occluding ligures from their occluded neighbors, thereby providing sensitivity to T-junctions without the need to assume that T-junction "detectors" exist. Both boundary and surface representations of occluded objects may be amodaly completed, while the surface representations of unoccluded objects become visible through modal processes. Computer simulations include Bregman-Kanizsa figure-ground separation, Kanizsa stratification, and various lightness percepts, including the Munker-White, Benary cross, and checkerboard percepts.Defense Advanced Research Projects Agency and Office of Naval Research (N00014-95-1-0409); National Science Foundation (IRI 94-01659, IRI 97-20333); Office of Naval Research (N00014-92-J-1309, N00014-95-1-0657
Black holes turn white fast, otherwise stay black: no half measures
Recently, various authors have proposed that the first ultraviolet effect on
the gravitational collapse of massive stars to black holes is the transition
between a black-hole geometry and a white-hole geometry, though their proposals
are radically different in terms of their physical interpretation and
characteristic time scales [1,2]. Several decades ago, it was shown by Eardley
that white holes are highly unstable to the accretion of small amounts of
matter, being rapidly turned into black holes [3]. Studying the crossing of
null shells on geometries describing the black-hole to white-hole transition,
we obtain the conditions for the instability to develop in terms of the
parameters of these geometries. We conclude that transitions with long
characteristic time scales are pathologically unstable: occasional
perturbations away from the perfect vacuum around these compact objects, even
if being imperceptibly small, suffocate the white hole explosion. On the other
hand, geometries with short characteristic time scales are shown to be robust
against perturbations, so that the corresponding processes could take place in
real astrophysical scenarios. This motivates a conjecture about the transition
amplitudes of different decay channels for black holes in a suitable
ultraviolet completion of general relativity.Comment: 24 pages, 3 figures. V2: Minor changes and updated references.
Matches the published versio
Neural Models of Seeing and Thinking
Air Force Office of Scientific Research (F49620-01-1-0397); Office of Naval Research (N00014-01-1-0624
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