DocumentCode
2678238
Title
Drishti: an integrated indoor/outdoor blind navigation system and service
Author
Ran, Lisa ; Helal, Sumi ; Moore, Steve
Author_Institution
Dept. of Comput. & Inf. Sci. & Eng., Florida Univ., Gainesville, FL, USA
fYear
2004
fDate
14-17 March 2004
Firstpage
23
Lastpage
30
Abstract
There are many navigation systems for visually impaired people but few can provide dynamic interactions and adaptability to changes. None of these systems work seamlessly both indoors and outdoors. Drishti uses a precise position measurement system, a wireless connection, a wearable computer, and a vocal communication interface to guide blind users and help them travel in familiar and unfamiliar environments independently and safely. Outdoors, it uses DGPS as its location system to keep the user as close as possible to the central line of sidewalks of campus and downtown areas; it provides the user with an optimal route by means of its dynamic routing and rerouting ability. The user can switch the system from an outdoor to an indoor environment with a simple vocal command. An OEM ultrasound positioning system is used to provide precise indoor location measurements. Experiments show an in-door accuracy of 22 cm. The user can get vocal prompts to avoid possible obstacles and step-by-step walking guidance to move about in an indoor environment. This paper describes the Drishti system and focuses on the indoor navigation design and lessons learned in integrating the indoor with the outdoor system.
Keywords
Global Positioning System; handicapped aids; mobile computing; navigation; position measurement; user interfaces; wearable computers; DGPS; Drishti system; OEM ultrasound positioning system; blind navigation system; blind users; dynamic routing; indoor environment; indoor location measurements; indoor navigation design; location system; optimal route; outdoor system; precise position measurement system; step-by-step walking guidance; visually impaired people; vocal command; vocal communication interface; vocal prompts; wearable computer; wireless connection; Global Positioning System; Indoor environments; Legged locomotion; Navigation; Position measurement; Routing; Switches; Ultrasonic imaging; Ultrasonic variables measurement; Wearable computers;
fLanguage
English
Publisher
ieee
Conference_Titel
Pervasive Computing and Communications, 2004. PerCom 2004. Proceedings of the Second IEEE Annual Conference on
Print_ISBN
0-7695-2090-1
Type
conf
DOI
10.1109/PERCOM.2004.1276842
Filename
1276842
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