DocumentCode
1818142
Title
hMouse: Head Tracking Driven Virtual Computer Mouse
Author
Fu, Yun ; Huang, Thomas S.
Author_Institution
Beckman Inst. for Adv. Sci. & Technol., Illinois Univ., Urbana, IL
fYear
2007
fDate
Feb. 2007
Firstpage
30
Lastpage
30
Abstract
A novel head tracking driven camera mouse system, called "hMouse", is developed for manipulating hand-free perceptual user interfaces. The system consists of a robust real-time head tracker, a head pose/motion estimator, and a virtual mouse control module. For the hMouse tracker, we propose a 2D detection/tracking complementary switching strategy with an interactive loop. Based on the reliable tracking results, hMouse calculates the user\´s head roll, tilt, yaw, scaling, horizontal, and vertical motion for further mouse control. Cursor position is navigated and fine tuned by calculating the relative position of tracking window in image space and the user\´s head tilt or yaw rotation. After mouse cursor is navigated to the desired location, head roll rotation triggers virtual mouse button clicks. Experimental results demonstrate that hMouse succeeds under the circumstances of user jumping, extreme movement, large degree rotation, turning around, hand/object occlusion, part face out of camera shooting region, and multiuser occlusion. It provides alternative solutions for convenient device control, which encourages the application of interactive computer games, machine guidance, robot control, and machine access for disabilities and elders
Keywords
computer vision; motion estimation; mouse controllers (computers); user interfaces; 2D detection complementary switching strategy; 2D tracking complementary switching strategy; camera mouse system; convenient device control; hMouse; hand free perceptual user interfaces; handicapped machine access; head motion estimator; head pose estimator; head tracking; interactive computer games; machine guidance; real time head tracker; robot control; virtual computer mouse; virtual mouse control module; Cameras; Magnetic heads; Mice; Motion control; Motion estimation; Navigation; Real time systems; Robust control; Tracking loops; User interfaces;
fLanguage
English
Publisher
ieee
Conference_Titel
Applications of Computer Vision, 2007. WACV '07. IEEE Workshop on
Conference_Location
Austin, TX
ISSN
1550-5790
Print_ISBN
0-7695-2794-9
Electronic_ISBN
1550-5790
Type
conf
DOI
10.1109/WACV.2007.29
Filename
4118759
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