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An experimental investigation of brightness constancy,MacLeod, Robert Brodie, January 1932 (has links)
Thesis (Ph. D.)--Columbia University, 1932. / Vita. Published also as Archives of psychology, no. 135. Bibliography: p. 100-102.
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Colour constancy and its applications in machine visionForsyth, D. A. January 1988 (has links)
No description available.
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Psychophysics of peripheral color perception in relation to methodology.Pigg, Leroy Dale January 1955 (has links)
No description available.
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Combining vision verification with a high level robot programming languageYin, Baolin January 1984 (has links)
This thesis describes work on using vision verification within an object level language for describing robot assembly (RAPT). The motivation for this thesis is provided by two problems. The first is how to enhance a high level robot programming language so that it can encompass vision commands to locate workpieces of an assembly. The second is how to find a way of making full use of sensory information to update the robot system's knowledge about the environment. The work described in this thesis consists of three parts: (1) adding vision commands into the RAPT input language so that the user can specify vision verification tasks; (2) implementing a symbolic geometrical reasoning system so that vision data can be reasoned about symbolically at compile time in order to speed up run time operations; (3) providing a framework which enables the RAPT system to make full use of the sensory information. The vision commands allow partial information about positions to be combined with sensory information in a general way, and the symbolic reasoning system allows much of the reasoning work about vision information to be done before the actual information is obtained. The framework combines a verification vision facility with an object level language in an intelligent way so that all ramifications of the effects of sensory data are taken account of. The heart of the framework is the modifying factor array. The position of each object is expressed as the product of two parts: the planned position and the difference between this and "he actual one. This difference, referred to as the modifying factor of an object, is stored in the modifying factor array. The planned position is described by the user in the usual way in a RAPT program and its value is inferred by the RAPT reasoning system. Modifying factors of objects whose positions are directly verified are defined at compile time as symbolic expressions containing variables whose value will become known at run time. The modifying factors of other objects (not directly verified) may be dependent upon positions of objects which are verified. At compile time the framework reasons about the influence of the sensory information on the objects which are not verified directly by the vision system, and establishes connections among modifying factors of objects in each situation. This framework makes the representation of the influence of vision information on the robot's knowledge of the environment compact and simple. All the programming has been done. It has been tested with simulated data and works successfully.
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A simulated shape recognition system using feature extraction /Pan, Wendy. January 1989 (has links)
Thesis (M.S.)--Rochester Institute of Technology, 1989. / Includes bibliographical references (leaves 96-98).
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Visual perception of gradients. A psychophysical study of the mechanisms of detection and discrimination of achromatic and chromatic gradients.Garcia-Suarez, Luis January 2009 (has links)
No description available.
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Implementation and evaluation of a general aviation synthetic vision display systemBurch, Douglas Paul January 2004 (has links)
No description available.
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Large crowding zones in peripheral vision for briefly presented stimuliTripathy, Srimant P., Cavanagh, P., Bedell, H.E. 12 1900 (has links)
Yes / When a target is flanked by distractors, it becomes more
difficult to identify. In the periphery, this crowding effect
extends over a wide range of target-flanker separations,
called the spatial extent of interaction (EoI). A recent
study showed that the EoI dramatically increases in size
for short presentation durations (Chung & Mansfield,
2009). Here we investigate this duration-EoI relation in
greater detail and show that (a) it holds even when
visibility of the unflanked target is equated for different
durations, (b) the function saturates for durations
shorter than 30 to 80 ms, and (c) the largest EoIs
represent a critical spacing greater than 50% of
eccentricity. We also investigated the effect of same or
different polarity for targets and flankers across different
presentation durations. We found that EoIs for target
and flankers having opposite polarity (one white, the
other black) show the same temporal pattern as for
same polarity stimuli, but are smaller at all durations by
29% to 44%. The observed saturation of the EoI for shortduration
stimuli suggests that crowding follows the locus
of temporal integration. Overall, the results constrain
theories that map crowding zones to fixed spatial
extents or to lateral connections of fixed length in the
cortex. / This study was supported by the ERC POSITION 324070 (PC) and a visiting professorship to Anglia Ruskin University from the Leverhulme Trust (HEB).
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An intelligent sample changerAngelikaki, C. January 1988 (has links)
No description available.
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3-D object classification using space-time coded light projectionAlshawish, H. M. M. January 1997 (has links)
No description available.
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