DocumentCode
2791919
Title
Effect of cognitive load on tactor location identification in zero-g
Author
Bhargava, Anu ; Scott, Michael ; Traylor, Ryan ; Chung, Roy ; Mrozek, Kimberly ; Wolter, Jonathan ; Tan, Hong Z.
Author_Institution
Haptic Interface Res. Lab., Purdue Univ., West Lafayette, IN, USA
fYear
2005
fDate
18-20 March 2005
Firstpage
56
Lastpage
62
Abstract
A wearable haptic interface has been developed to impart vibrotactile information to its user with the goal of improving situation awareness. The effectiveness of the haptic interface has been evaluated in three experiments aboard the NASA KC-135A reduced gravity aircraft. During the third flight, subjects identified the locations of tactors embedded in the haptic display in a microgravity environment. We report our results on how cognitive load affects one´s ability to identify the locations of vibrotactile stimulations in the altered-gravity environment. Cognitive load was manipulated by requiring subjects to be strapped to the floor of the KC-135 (low cognitive-load condition) or allowing them to float freely in microgravity (high cognitive-load condition). It was found that tactor-location identification was more accurate in the low cognitive-load condition than in the high cognitive-load condition. Our results have implications for the design of multimodal user interfaces in general.
Keywords
aerospace computing; aircraft; cognition; haptic interfaces; zero gravity experiments; NASA KC-135A reduced gravity aircraft; altered-gravity environment; cognitive load; haptic display; microgravity environment; multimodal user interfaces; tactor-location identification; vibrotactile information; vibrotactile stimulation; wearable haptic interface; zero-g; Displays; Earth; Gravity; Haptic interfaces; Human factors; Laboratories; Military aircraft; NASA; Sensor arrays; User interfaces;
fLanguage
English
Publisher
ieee
Conference_Titel
Eurohaptics Conference, 2005 and Symposium on Haptic Interfaces for Virtual Environment and Teleoperator Systems, 2005. World Haptics 2005. First Joint
Print_ISBN
0-7695-2310-2
Type
conf
DOI
10.1109/WHC.2005.46
Filename
1406914
Link To Document