Movement time for motion-impaired users assisted by force-feedback
Effects of movement amplitude, target width, and gravity well width
Faustina Hwang (University of Cambridge)
S. Keates (IBM Thomas J. Watson Research Centre)
Pat Langdon (University of Cambridge)
P.J. John Clarkson (University of Cambridge)
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Abstract
This paper presents a study investigating how the performance of motion-impaired computer users in "point and click" tasks varies with target distance (A), target width (W), and force-feedback gravity well width (GWW). Six motion-impaired users performed "point and click" tasks across a range of values for A, W, and GWW. Times were observed to increase with A, and to decrease with W. Times also improved with GWW, and, with the addition of a gravity well, a greater improvement was observed for smaller targets than for bigger ones. It was found that Fitts' Law gave a good description of behaviour for each value of GWW, and that gravity wells reduced the effect of task difficulty on performance. A model based on Fitts' Law is proposed, which incorporates the effect of GWW on movement time. The model accounts for 88.8% of the variance in the observed data.
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