Spatial representation and low vision: Two studies on the content, accuracy and utility of mental representations

Schinazi, Victor R.

doi:10.1016/j.ics.2005.05.163

Cited by 8 publications

(14 citation statements)

References 21 publications

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“…Moreover, comparisons between blind and sighted groups can be problematic if the task inherently favors the visual modality. We will also focus our discussion on meso‐ and macroscale spaces (i.e., spaces that are larger than the observer and navigable), but we will include empirical examples that use microscale spaces in order to infer navigation behavior.…”

Section: Introductionmentioning

confidence: 99%

Spatial navigation by congenitally blind individuals

Schinazi

Thrash

Chebat

2015

WIRES Cognitive Science

165

129

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Spatial navigation in the absence of vision has been investigated from a variety of perspectives and disciplines. These different approaches have progressed our understanding of spatial knowledge acquisition by blind individuals, including their abilities, strategies, and corresponding mental representations. In this review, we propose a framework for investigating differences in spatial knowledge acquisition by blind and sighted people consisting of three longitudinal models (i.e., convergent, cumulative, and persistent). Recent advances in neuroscience and technological devices have provided novel insights into the different neural mechanisms underlying spatial navigation by blind and sighted people and the potential for functional reorganization. Despite these advances, there is still a lack of consensus regarding the extent to which locomotion and wayfinding depend on amodal spatial representations. This challenge largely stems from methodological limitations such as heterogeneity in the blind population and terminological ambiguity related to the concept of cognitive maps. Coupled with an over‐reliance on potential technological solutions, the field has diffused into theoretical and applied branches that do not always communicate. Here, we review research on navigation by congenitally blind individuals with an emphasis on behavioral and neuroscientific evidence, as well as the potential of technological assistance. Throughout the article, we emphasize the need to disentangle strategy choice and performance when discussing the navigation abilities of the blind population. WIREs Cogn Sci 2016, 7:37–58. doi: 10.1002/wcs.1375For further resources related to this article, please visit the WIREs website.

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Section: Introductionmentioning

confidence: 99%

Spatial navigation by congenitally blind individuals

Schinazi

Thrash

Chebat

2015

WIRES Cognitive Science

165

129

View full text Add to dashboard Cite

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“…For our experiment, we selected a city center outdoor environment. Environments for this type of experiment are usually real environments [26,4] rather than artificial (lab) environments, though exceptions are possible [28]. The location of the route was in a quiet area in the city center of Prague, Czech Republic (see Fig.…”

Section: Methodsmentioning

confidence: 99%

Navigation Problems in Blind-to-Blind Pedestrians Tele-assistance Navigation

Balata

Mikovec

Maly

2015

Human-Computer Interaction – INTERACT 2015

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Abstract. We raise a question whether it is possible to build a large-scale navigation system for blind pedestrians where a blind person navigates another blind person remotely by mobile phone. We have conducted an experiment, in which we observed blind people navigating each other in a city center in 19 sessions. We focused on problems in the navigator's attempts to direct the traveler to the destination. We observed 96 problems in total, classified them on the basis of the type of navigator or traveler activity and according to the location in which the problem occurred. Most of the problems occurred during the activities performed by the navigator. We extracted a set of guidelines based on analysis of navigation problems and successful navigation strategies. We have partially mapped the problem of tele-assistance navigation to POMDP based dialogue system.

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“…For our experiment, we selected two routes in city center outdoor environment. Environments for this type of experiment are usually real environments [9], [15] rather than artificial (lab) environments, though exceptions are possible [22]. The location of the routes was in quiet area in the city center of Prague, Czech republic (see Fig.…”

Section: B Apparatusmentioning

confidence: 99%

Automatically Generated Landmark-enhanced Navigation Instructions for Blind Pedestrians

Balata

Mikovec

Bures

et al. 2016

Annals of Computer Science and Information Systems

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Abstract-Visual impairment limits a person mainly in ability to move freely and independently. Even with many navigation aids and tools currently on the market, almost one third of the visually impaired do not travel independently without a guide, and human-prepared landmark-enhanced itineraries of the route are the most useful. We designed a system which based on a specific efficiently collected geographical data generates human-like landmark-enhanced navigation instructions. The studies we conducted (quantitative n = 16, qualitative n = 6) proved usability and efficiency of the system. Further we provide set of design recommendations to increase the usability of the system along with specific examples of usage with particular landmarks.

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Spatial representation and low vision: Two studies on the content, accuracy and utility of mental representations

Cited by 8 publications

References 21 publications

Spatial navigation by congenitally blind individuals

Spatial navigation by congenitally blind individuals

Navigation Problems in Blind-to-Blind Pedestrians Tele-assistance Navigation

Automatically Generated Landmark-enhanced Navigation Instructions for Blind Pedestrians

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