JRM Vol.15 No.3 pp. 286-292
doi: 10.20965/jrm.2003.p0286


Hand Shape Recognition using Higher Order Local Autocorrelation Features in Log Polar Coordinate Space

Satoru Odo*, and Kiyoshi Hoshino**

*Faculty of Engineering, University of the Ryukyus, 1 Senbaru, Nishihara-cho, Nakagami-gun, Okinawa, 903-0213 Japan

**Institute of Engineering Mechanics and Systems, University of Tsukuba, Tsukuba, lbaraki 305-8573 Japan

December 8, 2002
May 4, 2003
June 20, 2003
monocular camera, log-polar mapping, higher order local autocorrelation feature, multiple regression analysis, gesture recognition
The friendly communication can be more promoted between the human and computer if the function of gesture recognition is implemented to the computer system as the input interface along with the keyboards and mice. We propose a mouse-like function for estimating hand shape from input images with a monocular camera, with which a computer user feels no restraint or awkwardness. Our system involves conversion of sequential images from Cartesian coordinates to log-polar coordinates. Temporal and spatial subtractions and color information are used to extract the hand region. The origin of log-polar coordinates is chosen as the center of the acquired image, but once the hand has been extracted, the estimated centroid position of the hand region in the next frame, obtained from the current hand position and speed, is used as the origin to convert. Recognition of the hand shape is carried out by multiple regression analysis using higher order local autocorrelation features of log-polar coordinate space. Mouse-like functions are realized according to the hand shape and motion trajectory. Compared to conventional Cartesian coordinates, conversion to log-polar coordinates enables us to reduce image date and computation time, remove the variability by the scaling, and improve antinoise characteristics.
Cite this article as:
S. Odo and K. Hoshino, “Hand Shape Recognition using Higher Order Local Autocorrelation Features in Log Polar Coordinate Space,” J. Robot. Mechatron., Vol.15 No.3, pp. 286-292, 2003.
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Last updated on Apr. 22, 2024