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The Accuracy of Saccadic and Perceptual Decisions in Visual Search (1997)

Stone, Leland S. ; Beutter, B. B. ; Eckstein, Miguel P.

In: Other Sources

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Publication Date: 2019-07-18

Description: Saccadic eye movements during search for a target embedded in noise are suboptimally guided by information about target location. Our goal is to compare the spatial information used to guide the saccades with that used for the perceptual decision. Three observers were asked to determine the location of a bright disk (diameter = 21 min) in white noise (signal-to-noise ratio = 4.2) from among 10 possible locations evenly spaced at 5.9 deg eccentricity. In the first of four conditions, observers used natural eye movements. In the three remaining conditions, observers fixated a central cross at all times. The fixation conditions consisted of three different presentation times (100, 200, 300 msec), each followed by a mask. Eye-position data were collected, with a resolution of (approximately) 0.2 deg. In the natural viewing condition, we measured. the accuracy with respect to the target and the latency of the first saccade. In the fixation conditions, we discarded trials in which observers broke fixation. Perceptual performance was computed for all conditions. Averaged across observers, the first saccade was correct (closest to the target location) for 56 +/- (SD) % of trials (chance = 10 %) and occurred after a latency of 313 +/- 56 msec. Perceptual performance averaged 53 +/- 4, 63 +/- 4, 65 +/- 2 % correct at 100, 200, and 300 msec, respectively. For the signal-to-noise ratio used, at the time of initiation of the first saccade, there is little difference between the amount of information about target location available to the perceptual and saccadic systems.

Keywords: Aerospace Medicine

Type: 1997 European Conference on Visual Perception; Aug 25, 1997 - Aug 29, 1997; Helsinki; Finland

Format: text

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Electronic Resource

Horizontal movement detectors of honeybees: Directionally-selective visual neurons in the lobula and brain (1982)

DeVoe, Robert D. ; Kaiser, Walter ; Ohm, Johann ; [et al.]

Springer

Journal of comparative physiology 147 (1982), S. 155-170

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ISSN: 1432-1351

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary 1. Intracellular recordings have been made from both input (ipsilateral) and output (contralateral) ends of directionally-selective optomotor neurons in the left lobulae of worker honeybees. Optical stimuli were two, monocular, horizontally-moving vertical gratings placed on opposite sides of the bee's head. The eyes could be stimulated separately or together. 2. Horizontal regressive motion-sensitive (HR) cells are strongly excited (and depolarized) by ipsilateral regressive motion. They are moderately excited by contralateral progressive motion but are inhibited by contralateral regressive motion. Ipsilateral progressive motion has little effect (Figs. 1 and 2). The HR cells (HRLeft and HRRight cells) are bilateral, reciprocal neurons which run from one lobula to the other via the anterior optic tracts, the optic tubercles, and the intertubicular tract. They have co-extensive dendrites and terminals in the distal lamellae of the lobulae (Figs. 4–6). HR cells are the bees' optomotor neurons, known hitherto from extracellular recordings. 3. Horizontal progressive-motion sensitive (HP) cells (HPRight and HPLeft cells) are excited and depolarized by ipsilateral progressive motion but are inhibited and hyperpolarized by ipsilateral regressive motion. It is uncertain if there are bilateral influences on HP cells (Figs. 7 and 8). No stained HP cells have been recovered. 4. Other directionally-selective cells with and without spikes have also been stained and reconstructed (Figs. 9 and 10). 5. A model network is proposed between HR and HP cells in which a) HR cells mutually inhibit each other; b) the ipsilateral, input end of each HR cell inhibits the HP cell originating in the same lobula; and c) the contralateral, output terminals of each HP cell excite the HR cell originating in the opposite lobula (Fig. 11 A). It is discussed how the model could explain the observed directional selectivities of cells (Figs. 11B, C and 12). Additionally, the possible role of such a model network in optomotor behavior is considered.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00609840

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Electronic Resource

Perceived visual speed constrained by image segmentation (1996)

Verghese, Preeti ; Stone, Leland S.

[s.l.] : Nature Publishing Group

Nature 381 (1996), S. 161-163

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ISSN: 1476-4687

Source: Nature Archives 1869 - 2009

Topics: Biology , Chemistry and Pharmacology , Medicine , Natural Sciences in General , Physics

Notes: [Auszug] We previously measured the human ability to combine speed information from multiple moving stimuli and showed that whereas increasing the number of stimuli improved speed discrimination, increasing the area of a single stimulus by the same factor did not6 (Fig. 1). These data do not show the ...

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1038/381161a0

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Tracking with the mind’s eye (1999)

Krauzlis, Richard J ; Stone, Leland S

Cell Press

In: Trends in Neurosciences. 1999; 22(12): 544-550. Published 1999 Dec 01. doi: 10.1016/s0166-2236(99)01464-2.

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Publication Date: 1999-12-01

Print ISSN: 0166-2236

Electronic ISSN: 1878-108X

Topics: Biology , Medicine

Published by Cell Press

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Expansion of Direction Space around the Cardinal Axes Revealed by Smooth Pursuit Eye Movements (2005)

Krukowski, Anton E. ; Stone, Leland S.

Cell Press

In: Neuron. 2005; 45(2): 315-323. Published 2005 Jan 01. doi: 10.1016/j.neuron.2005.01.005.

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Publication Date: 2005-01-01

Print ISSN: 0896-6273

Electronic ISSN: 1097-4199

Topics: Biology , Medicine

Published by Cell Press

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Turning a Blind Eye to Cortical Receptive Fields (1996)

Chapman, Barbara ; Stone, Leland S.

Cell Press

In: Neuron. 1996; 16(1): 9-12. Published 1996 Jan 01. doi: 10.1016/s0896-6273(00)80017-3.

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Publication Date: 1996-01-01

Print ISSN: 0896-6273

Electronic ISSN: 1097-4199

Topics: Biology , Medicine

Published by Cell Press

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Perceived visual speed constrained by image segmentation (1996)

Verghese, Preeti ; Stone, Leland S.

Springer Nature

In: Nature. 1996; 381(6578): 161-163. Published 1996 May 01. doi: 10.1038/381161a0.

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Publication Date: 1996-05-01

Print ISSN: 0028-0836

Electronic ISSN: 1476-4687

Topics: Biology , Chemistry and Pharmacology , Medicine , Natural Sciences in General , Physics

Published by Springer Nature

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From following edges to pursuing objects (2002)

Masson, Guillaume S. ; Stone, Leland S.

In: Other Sources

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Publication Date: 2011-08-24

Description: Primates can generate accurate, smooth eye-movement responses to moving target objects of arbitrary shape and size, even in the presence of complex backgrounds and/or the extraneous motion of non-target objects. Most previous studies of pursuit have simply used a spot moving over a featureless background as the target and have thus neglected critical issues associated with the general problem of recovering object motion. Visual psychophysicists and theoreticians have shown that, for arbitrary objects with multiple features at multiple orientations, object-motion estimation for perception is a complex, multi-staged, time-consuming process. To examine the temporal evolution of the motion signal driving pursuit, we recorded the tracking eye movements of human observers to moving line-figure diamonds. We found that pursuit is initially biased in the direction of the vector average of the motions of the diamond's line segments and gradually converges to the true object-motion direction with a time constant of approximately 90 ms. Furthermore, transient blanking of the target during steady-state pursuit induces a decrease in tracking speed, which, unlike pursuit initiation, is subsequently corrected without an initial direction bias. These results are inconsistent with current models in which pursuit is driven by retinal-slip error correction. They demonstrate that pursuit models must be revised to include a more complete visual afferent pathway, which computes, and to some extent latches on to, an accurate estimate of object direction over the first hundred milliseconds or so of motion.

Keywords: Life Sciences (General)

Type: Journal of neurophysiology (ISSN 0022-3077); Volume 88; 5; 2869-73

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Shared motion signals for human perceptual decisions and oculomotor actions (2003)

Krauzlis, Richard J. ; Stone, Leland S.

In: Other Sources

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Publication Date: 2011-08-24

Description: A fundamental question in primate neurobiology is to understand to what extent motor behaviors are driven by shared neural signals that also support conscious perception or by independent subconscious neural signals dedicated to motor control. Although it has clearly been established that cortical areas involved in processing visual motion support both perception and smooth pursuit eye movements, it remains unknown whether the same or different sets of neurons within these structures perform these two functions. Examination of the trial-by-trial variation in human perceptual and pursuit responses during a simultaneous psychophysical and oculomotor task reveals that the direction signals for pursuit and perception are not only similar on average but also co-vary on a trial-by-trial basis, even when performance is at or near chance and the decisions are determined largely by neural noise. We conclude that the neural signal encoding the direction of target motion that drives steady-state pursuit and supports concurrent perceptual judgments emanates from a shared ensemble of cortical neurons.

Keywords: Life Sciences (General)

Type: Journal of vision (Charlottesville, Va.); Volume 3; 11; 725-36

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Human discrimination of visual direction of motion with and without smooth pursuit eye movements (2003)

Brooks, Kevin R. ; Beutter, Brent R. ; Stone, Leland S. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-24

Description: It has long been known that ocular pursuit of a moving target has a major influence on its perceived speed (Aubert, 1886; Fleischl, 1882). However, little is known about the effect of smooth pursuit on the perception of target direction. Here we compare the precision of human visual-direction judgments under two oculomotor conditions (pursuit vs. fixation). We also examine the impact of stimulus duration (200 ms vs. ~800 ms) and absolute direction (cardinal vs. oblique). Our main finding is that direction discrimination thresholds in the fixation and pursuit conditions are indistinguishable. Furthermore, the two oculomotor conditions showed oblique effects of similar magnitudes. These data suggest that the neural direction signals supporting perception are the same with or without pursuit, despite remarkably different retinal stimulation. During fixation, the stimulus information is restricted to large, purely peripheral retinal motion, while during steady-state pursuit, the stimulus information consists of small, unreliable foveal retinal motion and a large efference-copy signal. A parsimonious explanation of our findings is that the signal limiting the precision of direction judgments is a neural estimate of target motion in head-centered (or world-centered) coordinates (i.e., a combined retinal and eye motion signal) as found in the medial superior temporal area (MST), and not simply an estimate of retinal motion as found in the middle temporal area (MT).

Keywords: Life Sciences (General)

Type: Journal of vision (Charlottesville, Va.); Volume 3; 11; 831-40

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