Mark May
Helmut Schmidt University
22 Papers
114 Citations
Mark May is an academic researcher from Helmut Schmidt University. The author has contributed to research in topics: Spatial cognition & Perspective (graphical). The author has an hindex of 12, co-authored 22 publications. Previous affiliations of Mark May include National Experimental University of the Armed Forces.
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Papers
Stress- and treatment-induced elevations of cortisol levels associated with impaired declarative memory in healthy adults.
TL;DR: Elevated free cortisol levels are associated with impaired memory function in healthy adults, and subjects who received cortisol showed impairment in the declarative memory and spatial thinking tasks but not in the procedural memory task.
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Neural Correlates of First-Person Perspective as One Constituent of Human Self-Consciousness
TL;DR: The data suggest that in addition to joint neural mechanisms, for example, due to visuospatial processing and decision making, 3PP and 1PP rely on differential neural processes.
KRITON: a knowledge-acquisition tool for expert systems
Joachim Diederich,Ingo Ruhmann,Mark May +2 more
- 01 Jan 1987
TL;DR: A hybrid system for automatic knowledge acquisition for expert systems that integrates artificial intelligence and cognitive science methods to construct knowledge bases employing different knowledge representation formalisms is presented.
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Path integration while ignoring irrelevant movement.
Mark May,Roberta L. Klatzky +1 more
TL;DR: An encoding-error model fit to the data indicated that backward movement produced downward rescaling, whereas movement that led to implied rotation (rightward on 2nd leg) produced distortions of shape and scale.
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Visuospatial perspective taking in a dynamic environment: perceiving moving objects from a first-person-perspective induces a disposition to act.
H. Kockler,Lukas Scheef,Ralf Tepest,Nicole David,Bettina H. Bewernick,Albert Newen,H. H. Schild,Mark May,Kai Vogeley +8 more
TL;DR: This work used dynamic virtual stimuli and fMRI to investigate at the neural level whether motion perception interacts with spatial perspective taking in a life-like design and showed a significant interaction of STIMULUS TYPE and PERSPECTIVE with significantly increased activation in right posterior intraparietal sulcus for 1PPDYN condition.
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