Comparing Computer Input Devices Using Kinematic Variables

Jeremy Slocum, Alex Chaparro, Daniel McConnell, Michael Bohan

Research output: Contribution to conferencePresentation

Abstract

Throughput (TP) is a global measure of input device efficiency but provides little information about user’s movement behavior when interacting with a device. Psychomotor models of movement provide a framework from which to develop new “during” movement variables that can be used to explain why efficiency differences occur. Data from a previous study examining the usability of a mouse, trackball and RollerMouse™ was re-examined using TP and the kinematic variables peak velocity of the primary movement (PV) and proportion of total
distance traveled in primary phase (%PMD). Partial correlation analysis found %PMD and PV to be significantly related to TP and negatively related with each other, suggesting a “speed/accuracy” tradeoff. Further analysis confirmed the variables were useful in discriminating between devices and found that the most efficient device was less constrained by the “speed/accuracy” tradeoff. It was concluded that kinematic variables offer a useful way of understanding efficiency differences between devices.
Original languageAmerican English
StatePublished - Sep 2005
Externally publishedYes
Event49th Annual Meeting of the Human Factors and Ergonomics Society - Orlando, FL
Duration: Sep 1 2005 → …

Conference

Conference49th Annual Meeting of the Human Factors and Ergonomics Society
Period9/1/05 → …

Keywords

  • computer input devices
  • psychomotor models
  • throughput measurement

Disciplines

  • Computer Sciences
  • Graphics and Human Computer Interfaces
  • Human Factors Psychology

Cite this