V-07
The Haptic Lens - A Tactile Sensor
Authors: Peter Presti
Affiliation: Interactive Media Technology Center, Georgia Institute of Technology,
Atlanta, GA
Abstract
The Haptic Lens is a low-cost hardware and software device to enable the real-time
visualization of the haptic sense of pressure. The device and supporting PC-based
software enable the visualization and documentation of tactile input for applications
such as robotic end-effectors, medical palpation, 3D digitizer, and a novel 3D clay
input device for modeling.
The sensor is actually a low-resolution 3D surface digitizer. It consists of an easily
compressible translucent gray elastomer bounded on one side by an opaque white deformable
membrane and on the other side by a clear rigid faceplate. Pressing an object against
the white membrane while observing it through the elastomer, one observes a black
and white image representing a 3D range or depth map of the applied surface under
a specific pressure. The closer the white membrane is pressed to the face plate,
the less gray elastomer the light has to pass through, the less attenuation to the
image of the white membrane, and hence, the lighter that part will appear. Using
a video camera and even illumination, a real-time digitized range image representing
the 3D surface in contact with the membrane is produced. This is then converted to
a real-time rendered 3D surface with special software.
References
Michael Sinclair, Peter Presti, Scott Robertson, "The Haptic Lens", Interactive
Media Technology Center, Georgia Institute of Technology, Siggraph '97: Aug 2-7,
1997, Los Angeles, CA
Sinclair; Michael J., "Video based 3D tactile reconstruction input device
having a deformable membrane", U.S. Patent #5459329, Issued Oct. 17, 1995
Peter Presti
peter.presti@oip.gatech.edu