DocumentCode
2076713
Title
OzBotTM -haptic augmentation of a teleoperated robotic platform for search and rescue operations
Author
Fielding, Michael ; Mullins, James ; Horan, Ben ; Nahavandi, Saeid
Author_Institution
Deakin Univ. Australia, Geelong
fYear
2007
fDate
27-29 Sept. 2007
Firstpage
1
Lastpage
6
Abstract
A continued increase in computing power, sensor capability, software functionality, immersive interfaces and hardware modularity has given robot designers seemingly endless potential in the area of mobile robotics. While some mobile robotic system designers are focusing on expensive, full-featured platforms, developers are realising the advantages of emerging technology in providing small, low-cost mobile reconnaissance vehicles as expendable teleoperated robotic systems. The OzBotTM mobile reconnaissance platform presents one such system. The design objectives of the OzBotTM platform focus on the development of inexpensive, lightweight carry-case sized robots for search and rescue operations, law enforcement scenarios and hazardous environment inspection. The incorporation of Haptic augmentation provides the teleoperator with improved task immersion for an outdoor search and rescue scenario. Achieved in cooperation with law enforcement agencies within Australia, this paper discusses the performance of the first four revisions of the OzBotTM platform.
Keywords
augmented reality; haptic interfaces; mobile robots; service robots; telerobotics; Australia; OzBot; haptic augmentation; hazardous environment inspection; law enforcement agencies; law enforcement scenarios; lightweight carry-case sized robots; mobile reconnaissance vehicles; mobile robotics; robot designers; search and rescue operations; teleoperated robotic platform; Computer interfaces; Haptic interfaces; Hardware; Inspection; Law enforcement; Mobile computing; Mobile robots; Reconnaissance; Robot sensing systems; Vehicles; IED; OED; OzBot; expendable; haptic gravitational field; mobile Platform; rescue; search;
fLanguage
English
Publisher
ieee
Conference_Titel
Safety, Security and Rescue Robotics, 2007. SSRR 2007. IEEE International Workshop on
Conference_Location
Rome
Print_ISBN
978-1-4244-1568-7
Electronic_ISBN
978-1-4244-1569-4
Type
conf
DOI
10.1109/SSRR.2007.4381272
Filename
4381272
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