Your search keyword '"Pastukhov, Alexander"' showing total 8 results

1. Shape specificity of neural persistence for the kinetic-depth effect matches perceptual adaptation but not sensory memory.

Author

Pastukhov A, Burkel K, and Carbon CC

Subjects

Adaptation, Physiological, Attention, Humans, Photic Stimulation, Rotation, Visual Perception, Memory, Motion Perception

Abstract

When multistable displays-stimuli that are compatible with several comparably likely perceptual interpretations-are presented intermittently, the perceptual state at the stimulus onset shows a complex dependence on the duration of the preceding blank interval. Specifically, perception is maximally destabilized for interruptions that are approximately 500 ms long, but it is stabilized by the use of shorter or longer blank intervals. This nonmonotonic dependence of perceptual stability on the blank interval duration raises questions about a number of history effects that are involved and about their nature, including the underlying neural representations. One way to characterize history effects is by looking at their specificity to the change of display properties. Here we measured the shape specificity for perception of the kinetic-depth effect when interruptions were brief (50 ms). For this time interval, perception is thought to be stabilized by neural persistence, a lingering trace of the prior neural activity. We found that perceptual stability depended on the shapes of the objects presented both before and after the break, but not on the similarity between the objects. These results matched earlier reports of the shape specificity of neural adaptation (destabilizing aftereffect for blanks 200-800 ms long). However, our results were markedly different from the shape specificity of sensory memory of multistable perception (a stabilizing effect for blanks > 800-1,000 ms). We concluded that whereas neural persistence and adaptation both act on the same motion-selective neural representation, sensory memory depends on another, possibly partially overlapping, shape-selective neural ensemble.

Published

2020

2. Perception and the strongest sensory memory trace of multi-stable displays both form shortly after the stimulus onset.

Author

Pastukhov A

Subjects

Humans, Pilot Projects, Vision, Ocular physiology, Visual Perception physiology, Memory physiology, Motion Perception physiology, Orientation physiology, Photic Stimulation methods, Rotation

Abstract

We investigated the relation between perception and sensory memory of multi-stable structure-from-motion displays. The latter is an implicit visual memory that reflects a recent history of perceptual dominance and influences only the initial perception of multi-stable displays. First, we established the earliest time point when the direction of an illusory rotation can be reversed after the display onset (29-114 ms). Because our display manipulation did not bias perception towards a specific direction of illusory rotation but only signaled the change in motion, this means that the perceptual dominance was established no later than 29-114 ms after the stimulus onset. Second, we used orientation-selectivity of sensory memory to establish which display orientation produced the strongest memory trace and when this orientation was presented during the preceding prime interval (80-140 ms). Surprisingly, both estimates point towards the time interval immediately after the display onset, indicating that both perception and sensory memory form at approximately the same time. This suggests a tighter integration between perception and sensory memory than previously thought, warrants a reconsideration of its role in visual perception, and indicates that sensory memory could be a unique behavioral correlate of the earlier perceptual inference that can be studied post hoc.

Published

2016

3. Sensory memory of illusory depth in structure-from-motion.

Author

Pastukhov A, Lissner A, Füllekrug J, and Braun J

Subjects

Adaptation, Physiological, Analysis of Variance, Data Display, Healthy Volunteers, Humans, Motion, Rotation, User-Computer Interface, Depth Perception physiology, Figural Aftereffect physiology, Illusions physiology, Memory physiology, Motion Perception physiology, Vision Disparity physiology

Abstract

When multistable displays (stimuli consistent with two or more equally plausible perceptual interpretations) are presented intermittently, their perceptions are stabilized by sensory memory. Independent memory traces are generated not only for different types of multistable displays (Maier, Wilke, Logothetis, & Leopold, Current Biology 13:1076-1085, 2003), but also for different ambiguous features of binocular rivalry (Pearson & Clifford, Journal of Vision 4:196-202, 2004). In the present study, we examined whether a similar independence of sensory memories is observed in structure-from-motion (SFM), a multistable display with two ambiguous properties. In SFM, a 2-D planar motion creates a vivid impression of a rotating 3-D volume. Both the illusory rotation and illusory depth (i.e., how close parts of an object appear to the observer) of an SFM object are ambiguous. We dissociated the sensory memories of these two ambiguous properties by using an intermittent presentation in combination with a forced-ambiguous-switch paradigm (Pastukhov, Vonau, & Braun, PLoS ONE 7:e37734, 2012). We demonstrated that the illusory depth of SFM generates a sensory memory trace that is independent from that of illusory rotation. Despite this independence, the specificities levels of the sensory memories were identical for illusory depth and illusory rotation. The history effect was weakened by a change in the volumetric property of a shape (whether it was a hollow band or a filled drum volume), but not by changes in color or size. We discuss how these new results constrain models of sensory memory and SFM processing.

Published

2014

4. Sensory memory of structure-from-motion is shape-specific.

Author

Pastukhov A, Füllekrug J, and Braun J

Subjects

Adaptation, Physiological physiology, Adult, Depth Perception physiology, Female, Form Perception physiology, Humans, Male, Motion, Motion Perception physiology, Observer Variation, Optical Illusions physiology, Photic Stimulation methods, Probability, Repetition Priming physiology, Rotation, Memory physiology, Pattern Recognition, Visual physiology, Visual Perception physiology

Abstract

Perceptual priming can stabilize the phenomenal appearance of multistable visual displays (Leopold, Wilke, Maier, & Logothetis, Nature Neuroscience, 5, 605-609, 2002). Prior exposure to such displays induces a sensory memory of their appearance, which persists over long intervals and intervening stimulation, and which facilitates renewed perception of the same appearance. Here, we investigated perceptual priming for the apparent rotation in depth of ambiguous structure-from-motion (SFM) displays. Specifically, we generated SFM objects with different three-dimensional shapes and presented them in random order and with intervening blank periods. To assess perceptual priming, we established the probability that a perceived direction of rotation would persist between successive objects. In general, persistence was greatest between identical objects, intermediate between similar objects, and negligible between dissimilar objects. These results demonstrate unequivocally that sensory memory for apparent rotation is specific to three-dimensional shape, contrary to previous reports (e.g., Maier, Wilke, Logothetis, & Leopold, Current Biology, 13, 1076-1085, 2003). Because persistence did not depend on presentation order for any pair of objects, it provides a commutative measure for the similarity of object shapes. However, it is not clear exactly which features or aspects of object shape determine similarity. At least, we did not find simple, low-level features (such as volume overlap, heterogeneity, or rotational symmetry) that could have accounted for all observations. Accordingly, it seems that sensory memory of SFM (which underlies priming of ambiguous rotation) engages higher-level representations of object surface and shape.

Published

2013

5. Structure-from-motion: dissociating perception, neural persistence, and sensory memory of illusory depth and illusory rotation.

Author

Pastukhov A and Braun J

Subjects

Female, Humans, Male, Rotation, Sensation physiology, Depth Perception physiology, Illusions physiology, Memory physiology, Motion Perception physiology

Abstract

In the structure-from-motion paradigm, physical motion on a screen produces the vivid illusion of an object rotating in depth. Here, we show how to dissociate illusory depth and illusory rotation in a structure-from-motion stimulus using a rotationally asymmetric shape and reversals of physical motion. Reversals of physical motion create a conflict between the original illusory states and the new physical motion: Either illusory depth remains constant and illusory rotation reverses, or illusory rotation stays the same and illusory depth reverses. When physical motion reverses after the interruption in presentation, we find that illusory rotation tends to remain constant for long blank durations (T (blank) ≥ 0.5 s), but illusory depth is stabilized if interruptions are short (T (blank) ≤ 0.1 s). The stability of illusory depth over brief interruptions is consistent with the effect of neural persistence. When this is curtailed using a mask, stability of ambiguous vision (for either illusory depth or illusory rotation) is disrupted. We also examined the selectivity of the neural persistence of illusory depth. We found that it relies on a static representation of an interpolated illusory object, since changes to low-level display properties had little detrimental effect. We discuss our findings with respect to other types of history dependence in multistable displays (sensory stabilization memory, neural fatigue, etc.). Our results suggest that when brief interruptions are used during the presentation of multistable displays, switches in perception are likely to rely on the same neural mechanisms as spontaneous switches, rather than switches due to the initial percept choice at the stimulus onset.

Published

2013

6. Out of sight, out of mind: Occlusion and eye closure destabilize moving bistable structure-from-motion displays.

Author

Pastukhov, Alexander, Prasch, Johanna, and Carbon, Claus-Christian

Subjects

*BRAIN, *MEMORY, *AMBIGUITY, *SENSORY perception, PERSISTENCE

Abstract

Our brain constantly tries to anticipate the future by using a variety of memory mechanisms. Interestingly, studies using the intermittent presentation of multistable displays have shown little perceptual persistence for interruptions longer than a few hundred milliseconds. Here we examined whether we can facilitate the perceptual stability of bistable displays following a period of invisibility by employing a physically plausible and ecologically valid occlusion event sequence, as opposed to the typical intermittent presentation, with sudden onsets and offsets. To this end, we presented a bistable rotating structure-from-motion display that was moving along a linear horizontal trajectory on the screen and either was temporarily occluded by another object (a cardboard strip in Exp. 1, a computer-generated image in Exp. 2) or became invisible due to eye closure (Exp. 3). We report that a bistable rotation direction reliably persisted following occlusion or interruption only (1) if the pre- and postinterruption locations overlapped spatially (an occluder with apertures in Exp. 2 or brief, spontaneous blinks in Exp. 3) or (2) if an object’s size allowed for the efficient grouping of dots on both sides of the occluding object (large objects in Exp. 1). In contrast, we observed no persistence whenever the pre- and postinterruption locations were nonoverlapping (large solid occluding objects in Exps. 1 and 2 and long, prompted blinks in Exp. 3). We report that the bistable rotation direction of a moving object persisted only for spatially overlapping neural representations, and that persistence was not facilitated by a physically plausible and ecologically valid occlusion event. [ABSTRACT FROM AUTHOR]

Published

2018

7. Transformation priming helps to disambiguate sudden changes of sensory inputs.

Author

Pastukhov, Alexander, Vivian-Griffiths, Solveiga, and Braun, Jochen

Subjects

*PRIMING (Psychology), *VECTION, *VISUAL perception, *POLARITY (Philosophy), *COLLISIONS (Physics), *ATTENTION, *MEMORY, *SENSORY perception

Abstract

Retinal input is riddled with abrupt transients due to self-motion, changes in illumination, object-motion, etc. Our visual system must correctly interpret each of these changes to keep visual perception consistent and sensitive. This poses an enormous challenge, as many transients are highly ambiguous in that they are consistent with many alternative physical transformations. Here we investigated inter-trial effects in three situations with sudden and ambiguous transients, each presenting two alternative appearances (rotation-reversing structure-from-motion, polarity-reversing shape-from-shading, and streaming-bouncing object collisions). In every situation, we observed priming of transformations as the outcome perceived in earlier trials tended to repeat in subsequent trials and this repetition was contingent on perceptual experience. The observed priming was specific to transformations and did not originate in priming of perceptual states preceding a transient. Moreover, transformation priming was independent of attention and specific to low level stimulus attributes. In summary, we show how "transformation priors" and experience-driven updating of such priors helps to disambiguate sudden changes of sensory inputs. We discuss how dynamic transformation priors can be instantiated as "transition energies" in an "energy landscape" model of the visual perception. [ABSTRACT FROM AUTHOR]

Published

2015

8. Dynamical insights on the history-dependence during continuous presentation of rivaling stimuli.

Author

Garcia, Pedro, Deco, Gustavo, Pastukhov, Alexander, Braun, Jochen, and Guillamon, Toni

Subjects

MEMORY, VISUAL perception, BINOCULAR rivalry, MATHEMATICAL convolutions, NOISE, DYNAMICS

Abstract

The presence of memory effects in perception of interruptedly presented multi-stable images is well established. A recent work that studied different kind of rivalling stimuli (binocular rivalry, kinetic-depth effect and Necker cube) has firmly demonstrated that consecutive dominance phases reported during continuous presentation are neither statistically independent. It is based on a novel concept that defines a cumulative history H for each reported percept persisting for a time interval T in a given session, as the exponential convolution, with time constant τdecay, of the previous perceptual trace. A non-monotonic profile for the H-T correlations for each τdecay is then found, with a significant maximum of 0.2-0.5 at 0.3< τdecay/Tdom <1 (Tdom - average dominance duration). Amazingly, when the respective cumulative histories of both percepts were balanced, transition durations and the likelihood of return (failed) transitions peaked. Such additional influence, coupled with the modest degree of the history dependence for the dominance phases, seems to reveal an essentially noise-driven nature of the perceptual reversals. To clarify this hypothesis we carried out intensive computational simulations of a simple rate model varying the adaptation (AH) - inhibition (β) strengths variables. Then, we assessed the capacity of the system to simultaneously fulfil the experimental constraint given by the values range observed in 10 subjects studied in [3]. Realistic values for Tdom and its variation coefficient (CV) were imposed as well (see Figure 1). It can be observed that such a simple model can account for the constraints related with Tdom, CV and the history correlation data reported in [3]. Additionally, these data restrict even more the parameter region allowed by the well known Tdom and CV constraints. More importantly, the system should operate in the vicinity of the bifurcation line and inside the bistable regime, which differs from the oscillatory one in that the noise is indispensable for a population to get alternations between the active and inactive states. This modelling study supports the hypothesis that a bistable regime would be the adequate mechanism for the noise decorrelates adaptation dynamics from the dominance-suppression cycles, and extends the validity of similar studies to more parametric spaces. [ABSTRACT FROM AUTHOR]

Published

2009