The effect of a temporary absence of target velocity information on visual tracking

  • Patricia M. Cisarik Southern College of Optometry
  • Sanjeev Kasthurirangan Abbott Medical Optics
  • Frank E. Visco Jr. University of Houston College of Optometry
  • Harold E. Bedell University of Houston College of Optometry
  • Scott B. Stevenson University of Houston College of Optometry
  • Avesh Raghunandan Ferris State University, Michigan
Keywords: saccade, pursuit, velocity, latency, position error, visual gap

Abstract

Experiments with the Rashbass ‘step-ramp’ paradigm have revealed that the initial catchup saccade that occurs near pursuit onset uses target velocity as well as position information in its programming. Information about both position and motion also influences smooth pursuit. To investigate the timing of velocity sampling near the initiation of saccades and smooth pursuit, we analyzed the eye movements made in nine ‘step-ramp’ conditions, produced by combining –2, 0 and +2 deg steps with –8, 0 and +8 deg/s ramps. Each trial had either no temporal gap or a 50-ms gap during which the laser target was extinguished, beginning 25, 50, 75 or 100 ms after the step. Six subjects repeated each of the resulting 45 conditions 25 times. With no temporal gap, saccades were larger in the step-ramp-away’ than the ‘step-only’ condition, confirming that saccade programming incorporates ramp velocity information. A temporal gap had no effect on the accuracy of saccades on ‘step-only’ trials, but often caused undershoots in ‘step-ramp’ trials. A 50-ms gap within the first 100 ms also increased the latency of the initial saccade. Although initial pursuit velocity was unaffected by a temporal gap, a gap that started at 25 ms reliably delayed pursuit onset for ramp motion of the target toward the fovea. Later gaps had a minimal effect on initial pursuit latency. The similar timing of the temporal gaps in target motion information that affect the initiation of saccades and pursuit provides further behavioral evidence that the two types of eye movements share pre-motor neural mechanisms.
Published
2010-10-18
How to Cite
Cisarik, P. M., Kasthurirangan, S., Jr., F. E. V., Bedell, H. E., Stevenson, S. B., & Raghunandan, A. (2010). The effect of a temporary absence of target velocity information on visual tracking. Journal of Eye Movement Research, 3(4). https://doi.org/10.16910/jemr.3.4.4
Section
Articles

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