The following is not vision, but perhaps some vision people might be
willing to consider other sensory modalities; the focus here is not
the modality but short-term memory, and temporal patterns.
POSTDOCTORAL OPPORTUNITIES: COMPUTATIONAL AND PSYCHOPHYSICAL
APPROACHES TO SHORT-TERM MEMORY AND TEMPORAL PATTERN REPRESENTATION
Postdoctoral positions are available in Carlos Brody's research group
at Cold Spring Harbor Laboratory. (see
http://www.cshl.org/labs/brody). Applicants should have an interest in
quantitative approaches to psychology and neuroscience, and should
have, or be near completing, a Ph.D. in Experimental Psychology,
Neuroscience, or in a quantitative field (e.g. Physics, Math,
Engineering).
Successful applicants will be expected to lead, after any appropriate
guidance and/or necessary self-education, the group's research efforts
in one of the two projects listed below. Those who in addition wish to
develop and pursue their own, independent, self-originated, line(s) of
research will be encouraged to do so: the lab seeks an atmosphere of
vigorous discussion and creative independence. Applications from
self-guided, motivated, and independent-minded scientists are
particularly welcome.
Applicants should send a CV, the names of three references, and a
summary of research interests and experience to: Carlos Brody, 1
Bungtown Road, Freeman Building, Cold Spring Harbor, NY 11724,
USA. The positions are open immediately; salaries are on the NIH pay
scale.
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Projects:
1) Psychophysics and neurocomputational modeling of working memory.
The psychophysical study of short-term memory has a long
history. During most of this history, however, no biophysical
neural-network level models of short-term memory existed: only
during the 90's have these come into existence. They are now the
focus of much research. Our lab is actively engaged in this
research, particularly with reference to memories of
continuous-valued parameters (e.g. our previous work on such
memories, Romo et al. Nature 1999). Most of the recent
neurocomputational models depend on assumptions (e.g., the
attractors are continuous), or make predictions (e.g., in
continuous attractors, noise should be diffusive), that can be
tested psychophysically. We are carrying out such tests in human
experiments, using the auditory modality (short-term memory of pure
tone frequencies). In collaboration with monkey neurophysiologists,
our goal is to reveal answers about the neural basis of short-term
memory through a combination of computational,
electrophysiological, and psychophysical techniques.
2) Encoding and representation of time.
How are temporal patterns represented in the brain? And how are they
recognized? These are wide open, crucially important, but little
studied questions. In collaboration with the Romo awake monkey
group, we are addressing these questions by requiring subjects
(both monkey and human) to discriminate between two sequential
"Morse-code style" patterns of mechanical pulses, applied to the
tip of a finger. This simple but direct approach allows us to
study patterns defined in purely temporal terms. Our group at CSHL
will be carrying out human psychophysics experiments that will help
guide and supplement the monkey neurophysiology experiments. We
will also be heavily involved in the data analysis of the monkey
experiments, and our eventual goal will be to build computational
models that explain our combined results.
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