Haptic detection of sine-wave gratings
Publication date
2005
Authors
Louw, S.
Kappers, A.M.L.
Koenderink, J.J.
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Document Type
Article
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Abstract
We studied human haptic perception of sine-wave gratings. In the first experiment we
measured the dependence of amplitude detection thresholds on the number of cycles and on the
wavelength of the gratings. In haptic perception of sine-wave gratings, the results are in agreement
with neural summation. The rate at which detection thresholds decrease with increasing number
of cycles is much higher than can be accounted for by probability summation alone. Further,
neural summation mechanisms describe the detection thresholds accurately over the whole spatial
range probed in the experiment, that is wavelengths from 14 mm up to 225 mm. Earlier, we
found a power-law dependence of thresholds on the spatial width of Gaussian profiles (Louw
et al, 2000 Experimental Brain Research 132 369 ^ 374). The current results extend these findings;
the power-law dependence holds not only for Gaussian profiles, but also for a broad range of
sine-wave gratings with the number of cycles varying between 1 and 8. Haptic perception involves
tactual scanning combined with an active, dynamic exploration of the environment.We measured
characteristics of the velocity and force with which stimuli were scanned while performing a
psychophysical task. One particularly surprising finding was that, without being instructed,
participants maintained an almost constant scanning velocity during each 45-min session. A
constant velocity in successive trials of the experiment might facilitate or even be necessary for
discrimination. Further, a large systematic dependence of velocity on scanning length was found.
An eightfold increase in scanning length resulted in about a fourfold increase in scanning
velocity. A second experiment was conducted to study the influence of scanning velocity on
psychophysical detection thresholds. This was done by systematically imposing specific scanning
velocities to the participants while the thresholds were measured. The main result of the second
experiment was that psychophysical detection thresholds are constant over a relatively broad
range of scanning velocities.