Roger E. Graves
University of Victoria
47 Papers
1.1K Citations
Roger E. Graves is an academic researcher from University of Victoria. The author has contributed to research in topics: Dichotic listening & Laterality. The author has an hindex of 27, co-authored 47 publications.
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Papers
Loose but normal: a semantic association study.
TL;DR: It is conjecture that for normal subjects high on MI “loose associations” may not be loose after all, and that the tendency to link uncommon, nonobvious, percepts may not only be the basis of paranormal and paranoid ideas of reference, but also a prerequisite of creative thinking.
Are Creativity and Schizotypy Products of a Right Hemisphere Bias
Sara Weinstein,Roger E. Graves +1 more
TL;DR: Dichotic listening results revealed a strong association of better right hemisphere (left ear) localization ability and creativity, consistent with individual differences in creativity and schizotypy being partly related to a response criterion favoring right hemisphere, possibly nonconscious, processing.
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Pervasive influence of semantics in letter and category fluency: A multidimensional approach
TL;DR: The results indicate that semantic facilitation is pervasive in word retrieval processes, even in the letter-fluency task, and suggest that the traditional view of letter fluency as a purely phonemically based task should be revised.
110
Community integration following multidisciplinary rehabilitation for traumatic brain injury
TL;DR: Overall, multidisciplinary rehabilitation appeared to increase personal independence and multivariate analysis can reveal the relative importance of multiple predictors of outcome.
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- INSTRUMENTATION & TECHNIQUES Suitability of the IBM XT, AT, and PS/2 keyboard, mouse, and game port as response devices in reaction time paradigms
Sidney J. Segalowitz,Roger E. Graves +1 more
- 01 Jan 1990
TL;DR: The IBM PC keyboard is a convenient response panel for subjects in a reaction time task when the stimuli are presented on the same machine However, there is a mean delay of about 10 msec and a random error of ±75 msec (±5 msec on the AT or PS/2) as discussed by the authors.
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