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Rudiger von der Heydt, Ph.D.

Professor of Neuroscience

The Zanvyl Krieger Mind/Brain Institute
Telephone Number: (410) 516-6416
Fax Number: (410) 516-8648
The Zanvyl Krieger Mind/Brain Institute
Johns Hopkins University, 3400 N. Charles St., Baltimore, MD 21218
Room: 251 Krieger Hall, Mind/Brain Institute

von.der.Heydt@jhu.edu

 


Neurophysiology of the Visual System

The visual sense, as much as the sense of touch, is a spatial sense. We see the world three-dimensional even though vision is based on just two-dimensional images, the optical projections on the retinae. In perception we can segregate figure and ground although objects often occlude one another so that foreground and background structures are cluttered up in the image. Perception decomposes a scene into objects and represents them in their proper dimensions in spite of varying image size and perspective distortion, and in their proper colors in spite of changing illumination. While the interpretation of images is technically very difficult, the visual system performs its task with great ease, so that we hardly become aware of it.

  The investigation of the neural processes underlying visual perception is the theme of research of this laboratory. The methods are micro-electrode recording from cells of the visual cortex in awake behaving monkeys, psychophysical experiments in humans and monkeys, and mathematical modeling. We are currently working on two main projects. One relates to the mechanisms of 3D form perception from binocular and monocular cues, the other to the coding of features as parts of objects. We use subjective perceptual phenomena as tools in relating the neural signals to the hypothetical representations and processes underlying perception. For example, the changing depth of an ambiguous display, such as the Necker cube, can be used to probe for the neural mechanisms of depth perception, the tendency in figure/ground displays to perceive contours as part of the figure (rather than the ground) can be used to probe for mechanisms of object-related feature representation.

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