Regular ArticleCognitive and gender factors influencing navigation in a virtual environment
References (62)
- et al.
Constructional apraxia in patients with discrete missile wounds of the brain
Cortex
(1976) - et al.
Prototypes, location and associative networks (PLAN): towards a unified theory of cognitive mapping
Cognitive Science
(1995) - et al.
Electrocortical indices of hemispheric utilization
The effects of arithmetic task difficulty and performance level on EEG alpha asymmetry
Neuropsychologia
(1985)- et al.
Two types of image generation: evidence for left and right hemisphere processes
Neuropsychologia
(1995) - et al.
Males and females use different distal cues in a virtual environment navigation task
Cognitive Brain Research
(1998) - et al.
Differences in spatial knowledge acquired from maps and navigation
Cognitive Psychology
(1982) - et al.
What does virtual reality NEED?: Human factors issues in the design of three-dimensional computer environments
International Journal of Human Computer Studies
(1996) - et al.
Virtual spaces and real world places: transfer of route knowledge
International Journal of Human–Computer Studies
(1996) - et al.
The parahippocampus subserves topographical learning in man
Cerebral Cortex
(1996)
Styles and methods of structuring a city
Environment and Behaviour
The logical and extrinsic sources of modularity
The effectiveness of virtual reality for administering spatial navigation training to firefighers
Presence, Teleoperators and Virtual Environments
Personal correlates of sense of direction and geographical orientation
Journal of Personality and Social Psychology
The Psychology of Place
The influence of age, gender and cues on computer-simulated topographic memory
Developmental Neuropsychology
Asymmetrical brain electrical activity discriminates between psychometrically-matched verbal and spatial cognitive tasks
Psychophysiology
Selective lateralization of cognitive style related to occupation as determined by EEG alpha asymmetry
Psychophysiology
Image velocity magnitudes and perception of heading
Journal of Experimental Psychology: Human Perception and Performance
Navigation of a small mammal by dead reckoning and local cues
Current Directions in Psychological Science
Environmental cognition
Psychological Bulletin
Lateral specialization of cognitive mode: an EEG study
Psychophysiology
The Perception of the Visual World
Understanding Vision
Visual Cognition: Computational, Experimental and Neuropsychological Perspectives
Report of the committee on methods of clinical examination in electroencephalography
Electroencephalography and Clinical Neurophysiology
Design and Analysis: A Researchers Handbook
Sex differences and the brain
Scientific American
Fundamentals of Human Neuropsychology
Seeing and imaging in the cerebral hemispheres: a computational approach
Psychological Review
Cited by (108)
Graphical features of interactive dashboards have little influence on engineering students performing a design task
2023, International Journal of Human Computer StudiesInvestigation of visual and game-playing performance under different genders, display and operation interfaces
2023, International Journal of Industrial ErgonomicsHow age relates to spatial navigation performance: Functional and methodological considerations
2020, Ageing Research ReviewsMaking the usage of guidance systems in pedestrian infrastructures measurable using the virtual environment DAVE
2018, Transportation Research Part F: Traffic Psychology and BehaviourCitation Excerpt :These findings are confirmed by Rebillat et al. (2012), who showed that distances perceived in the VE are systematically overestimated for rendered distance closer than the position of the audio-visual rendering system and underestimated only for farther distances. Distance estimations can also be significantly improved if the participants are able to receive additional motion cues (Cutmore et al., 2000), such as through optical flow including rich detail (Cubukcu, 2011; Hu et al., 2002; Sigurdarson et al., 2012, e.g., landmarks, segmentation or photorealistic rendering) or by physical movements (Ruddle & Lessels, 2006, walking). Experiments using only kinesthetic feedback (moving legs without actually changing position) proved to be beneficial in rotation tests (Bakker et al., 1998; Hu et al., 2002); however, the effect on distance estimations still needs to be explored because the findings show that walking-in-place (WIP) locomotion is accompanied by a perceptual distortion of the speed of optic flow, resulting in varying experiences concerning the “naturalness” of walking speeds and perceived distances (Nilsson, Serafin, & Nordahl, 2014).