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Journal of Motor Behavior Volume 49, 2017 - Issue 2
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Research Article

Targeted Paced and Unpaced Movements in the Transverse and Sagittal Planes

Errol R. HoffmannDepartment of Mechanical Engineering, University of Melbourne, AustraliaCorrespondence[email protected]
&
Ilyas H. SheikhDepartment of Mechanical Engineering, University of Melbourne, Australia
Pages 200-217 | Received 16 Sep 2015, Accepted 12 Mar 2016, Published online: 03 Sep 2016

REFERENCES

  • Accot, J., & Zhai, S. (1997). Beyond Fitts' law: Models for trajectory based HCI tasks. Proceedings on Human Factors in Computing Systems, 295–302.
  • Bainbridge, L., & Sanders, M. (1972). The generality of Fitts' law. Journal of Experimental Psychology, 96, 130–133.
  • Bard, C., & Hay, L. (1990). Timing and accuracy of visually-directed movements in children: Control of direction and amplitude components. Journal of Experimental Child Psychology, 50, 102–118.
  • Beggs, W. D. A., & Howarth, C. I. (1971). The movement of the hand towards a target. Quarterly Journal of Psychology, 24, 448–453.
  • Beggs, W. D. A., & Howarth, C. I. (1972a). The accuracy of aiming at a target. Some further evidence for theory of intermittent control. Acta Psychologica, 36, 171–177.
  • Beggs, W. D. A., & Howarth, C. I. (1972b). The movement of the hand towards a target. Quarterly Journal of Experimental Psychology, 24, 448–453.
  • Blouin, J., Teasdale, N., Bard, C., & Fleury, M. (1993). Directional control of rapid arm movements: The role of the kinetic visual feedback system. Canadian Journal of Experimental Psychology, 47, 678–696.
  • Carlton, L. G. (1979). Control processes in the production of discrete aiming responses. Journal of Human Movement Studies, 5, 115–124.
  • Carlton, L. G. (1980). Movement control characteristics of aiming responses. Ergonomics, 23, 1019–1032.
  • Chen, Y, Hoffmann, E. R., & Goonetellike, R. S. (2015). Structure of hand/mouse movements. IEEEE Transactions on Human-Machine Systems, 45, 790–798.
  • Cluff, T., Crevecoeur, F., & Scott, S. H. (2015). A perspective on multisensory integration and rapid perturbation. Vision Research, 110, 215–222.
  • Elliott, D., Hansen, S., Grierson, L. E. M., Lyons, J., Bennett, S. J., & Hayes, S. J. (2010). Goal-directed aiming: Two components but multiple processes. Psychological Bulletin, 136, 1023–1044.
  • Fitts, P. M. (1954). The information capacity of the human motor system in controlling the amplitude of movement. Journal of Experimental Psychology, 47, 381–391.
  • Fitts, P. M., & Peterson, J. R. (1964). Information capacity of discrete motor responses. Journal of Experimental Psychology, 67, 103–112.
  • Gan, K.-C., & Hoffmann, E. R. (1988). Geometrical conditions for ballistic and visually controlled movements. Ergonomics, 31, 829–839.
  • Gordon, J., Ghilardi, M. F., & Ghez, C. (1994). Accuracy of planar reaching movements. Experimental Brain Research, 99, 97–111.
  • Hoffmann, E. R. (1991). Capture of moving targets: a modification of Fitts' law. Ergonomics, 34, 211–220.
  • Hoffmann, E. R. (1992). Fitts' law with transmission delay. Ergonomics, 35, 37–48.
  • Hoffmann, E. R. (2011). Capture of shrinking targets. Ergonomics, 54(6), 519–530.
  • Hoffmann, E. R. (2012). Contribution of pre-Fitts researchers to goal-directed aiming studies. Journal of Motor Behavior, 44, 27–46.
  • Hoffmann, E. R. (2013). Which version/variation of Fitts' law? A critique of information-theory models. Journal of Motor Behavior, 45, 205–215.
  • Hoffmann, E. R., Chan, A. H. S., & Dizmen, C. (2013). Capture of shrinking targets with realistic shrink patterns. Ergonomics, 56(11), 1766–1776.
  • Hoffmann, E. R. (2016). Fitts' law in two or less submovements? Journal of Motor Behavior. doi:10.1080/00222895.2015.1092939
  • Hoffmann, E. R., Drury, C. G., & Romanowski, C. J. (2011). Performance in one-, two- and three-dimensional terminal aiming tasks. Ergonomics, 54, 1175–1185.
  • Hoffmann, E. R., & Sheikh, I. H. (1994). Effect of varying target height in a Fitts movement task. Ergonomics, 36, 1071–1088.
  • Howarth, C. I., & Beggs, W. D. A. (1981). Discrete movements. In Ed. D. Holding, Human Skills. Chichester, England: John Wiley and Sons.
  • Howarth, C. I., & Beggs, W. D. A. (1985). The control of simple movements by multisensory information. In H. Heuer, U. Kleinbeck, & K.-H. Schmidt (Eds.), Motor behaviour, programming, control and acquisition. Berlin, Germany: Springer-Verlag.
  • Howarth, C. I., Beggs, W. D. A., & Bowden, J. M. (1971). The relationship between speed and accuracy of movement aimed at a target. Acta Psychologica, 35, 207–218.
  • Johnson, W. W., & Hart, S. G. (1987). Step tracking shrinking targets. Proceedings of the 31st Annual Meeting of the Human Factors Society, 248–252.
  • Kerr, B. A., & Langolf, G. D. (1977). Speed of aiming movements. Quarterly Journal of Experimental Psychology, 29, 475–481.
  • Lin, R. F., & Drury, C. G. (2013). Verification of models for ballistic movement time and endpoint variability. Ergonomics, 56, 623–636.
  • Lin, R. F., & Hsu, C.-H. (2014). Measuring individual corrective reaction time using the intermittent illumination model. Ergonomics, 57, 1337–1352.
  • Lin, R. F., & Tsai, Y.-C. (2014). The use of ballistic movement as an additional method to assess performance of computer mice. International Journal of Industrial Ergonomics, 45, 71–81.
  • Liu, Y., & Wickens, C. D. (1987). Mental workload and cognitive task automation: an evaluation of subjective time and estimation metrics. University of Illinois at Urbana-Champaign, Engineering Psychology Research Laboratory, Report EPRL-87-02.
  • Michon, J. A. (1966). Tapping regularity as a measure of perceptual motor load. Ergonomics, 9, 401–412.
  • Sarlegna, F. R., & Blouin, J. (2010). Visual guidance of arm reaching: Online adjustments of movement direction are impaired by amplitude control. Journal of Vision, 10, 1–12.
  • Schmidt, R. A., Zelaznik, H., Hawkins, B., Frank, J. S., & Quinn, J. T. Jr. (1979). Motor-output variability: A theory for the accuracy of rapid motor acts. Psychological Review, 86, 415–451.
  • Schmidt, R. A., Sherwood, D., Zelaznik, H. N., & Lelkind, B. (1985). Speed-accuracy trade-offs in motor behavior: Theories of impulse variability. In U. Kelinbeck, H. Heuer, & K.-H. Schmidt (Eds.), Motor behavior: Programming, control and Acquisition (pp 79–123). Berlin, Germany: Springer-Verlag.
  • Sheikh, I., & Hoffmann, E. R. (1994). Effect of target shape on movement times in a Fitts' task. Ergonomics, 1994, 1533–1547.
  • Smeets, J. B. J., Oostwoud Wijdenes, L., & Brenner, E. (2016). Movement adjustments have short latencies because there is no need to detect anything. Motor Control, 20, 137–148.
  • Vindras, P., Desmurget, M., & Viviani, P. (2005). Error parsing in visuomotor pointing reveals independent processing of amplitude and direction. Journal of Neurophysiology, 94, 1212–1224.
  • Welford, A. T. (1968). Fundamentals of skill. London, England: Methuen.
  • Woodworth, R. S. (1899). The accuracy of voluntary movement. Psychological Review, 3, 1–119.
  • Wright, C. E., & Meyer, D. E. (1983). Conditions for a linear speed-accuracy trade-off in aimed movements. Quarterly Journal of Experimental Psychology, 35A, 279–296.
  • Zelaznik, H. N., Hawkins, B., & Kissleburgh, L. (1987). The effects of movement distance and movement time on visual feedback processing in aimed hand movements. Acta Psychologica, 65, 181–191.
  • Zelaznik, H. N., Mone, S., McCabe, G. P., & Thaman, C. (1988). Role of temporal and spatial precision in determining the nature of the speed-accuracy trade-off in aimed-hand movements. Journal of Experimental Psychology: Human Perception and Performance, 14, 221–230.
  • Zelaznik, H. N., Schmidt, R. A., & Gielen, S. C. A. M. (1986). Kinematic properties of rapid hand movements. Journal of Motor Behavior, 18, 353–372.
  • Zelaznik, H. N., Shapiro, D. C., & McColsky, D. (1981). Effects of a secondary task on the accuracy of single aiming movements. Journal of Experimental Psychology: Human perception and Performance, 7, 1007–1018.

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