Your search keyword '"bistable perception"' showing total 396 results

1. Cognitive flexibility moderates the relationship between openness-to-experience and perceptual reversals of Necker cube

Author

Koivisto, Mika and Pallaris, Cypriana

Published

2024

2. Individual differences in emotional reactions to bistable perception.

Author

Goodhew, Stephanie C. and Edwards, Mark

Subjects

*INDIVIDUAL differences, *PSYCHOLOGICAL factors, *AFFECT (Psychology), *EMPATHY, *THEORY of mind

Abstract

Objective: To assess whether there are individual differences in emotional reactions to bistable images, and if so, to identify some of the psychological factors that predict them. Background: Bistable images – which have two competing perceptual interpretations – have long been used in the scientific study of consciousness. Here we applied a different lens and investigated emotional reactions to them. Method: Participants were adult humans in a cross‐sectional study. Participants were presented with three bistable images and rated their emotional reactions to experiencing bistability. They also completed measures of intolerance of uncertainty, cognitive empathy, affective empathy, and negative affect. Results: There were marked individual differences in these reactions, ranging from feeling highly negative to highly positive. These individual differences in emotional response to bistability were linked to a number of psychological processes: intolerance of uncertainty, cognitive empathy, and negative affect, but not affective empathy. Conclusions: These finding have important implications because: (a) these emotional reactions could distort scientific investigations that use these stimuli to study non‐emotional perceptual and cognitive processes; and (b) they highlight that this approach offers a useful window into how individuals react to these stimuli that demonstrate that there is not always a single viable interpretation of the world around us. [ABSTRACT FROM AUTHOR]

Published

2024

3. Cardiac afferent signals can facilitate visual dominance in binocular rivalry

Author

John P Veillette, Fan Gao, and Howard C Nusbaum

Subjects

interoception, embodiment, brain–heart interaction, binocular rivalry, binocular vision, bistable perception, Medicine, Science, Biology (General), QH301-705.5

Abstract

Sensory signals from the body’s visceral organs (e.g. the heart) can robustly influence the perception of exteroceptive sensations. This interoceptive–exteroceptive interaction has been argued to underlie self-awareness by situating one’s perceptual awareness of exteroceptive stimuli in the context of one’s internal state, but studies probing cardiac influences on visual awareness have yielded conflicting findings. In this study, we presented separate grating stimuli to each of subjects’ eyes as in a classic binocular rivalry paradigm – measuring the duration for which each stimulus dominates in perception. However, we caused the gratings to ‘pulse’ at specific times relative to subjects’ real-time electrocardiogram, manipulating whether pulses occurred during cardiac systole, when baroreceptors signal to the brain that the heart has contracted, or in diastole when baroreceptors are silent. The influential ‘Baroreceptor Hypothesis’ predicts the effect of baroreceptive input on visual perception should be uniformly suppressive. In contrast, we observed that dominance durations increased for systole-entrained stimuli, inconsistent with the Baroreceptor Hypothesis. Furthermore, we show that this cardiac-dependent rivalry effect is preserved in subjects who are at-chance discriminating between systole-entrained and diastole-presented stimuli in a separate interoceptive awareness task, suggesting that our results are not dependent on conscious access to heartbeat sensations.

Published

2024

4. Can ocular fixations modulate the perception of a bistable logo?

Author

Guillermo Rodríguez-Martínez

Subjects

Brand communication, bistable logos, eye-tracking, bistable perception, eye-fixations, Drawing. Design. Illustration, NC1-1940

Abstract

Bistable logos accept two different interpretations, where each interpretation can be conditioned by the area of the image that is being observed. Thus, ocular fixations can affect their final perception. To determine if the eye fixation areas influence the perception, 20 volunteers observed a bistable logo in front of a fixed eye-tracker, reference Tobii T-120. The results indicate that the reported percepts are related to ocular fixation areas. It is concluded that there are areas that affect the identification of the possible percepts of the bistable logo, which leads to essential considerations for graphic designers to optimize graphic brand communication.

Published

2024

5. An Accumulating Neural Signal Underlying Binocular Rivalry Dynamics.

Author

Shaozhi Nie, Katyal, Sucharit, and Engel, Stephen A.

Subjects

*VISUAL evoked potentials, *VISUAL cortex, *COMPUTATIONAL neuroscience

Abstract

During binocular rivalry, conflicting images are presented one to each eye and perception alternates stochastically between them. Despite stable percepts between alternations, modeling suggests that neural signals representing the two images change gradually, and that the duration of stable percepts are determined by the time required for these signals to reach a threshold that triggers an alternation. However, direct physiological evidence for such signals has been lacking. Here, we identify a neural signal in the human visual cortex that shows these predicted properties. We measured steady-state visual evoked potentials (SSVEPs) in 84 human participants (62 females, 22 males) who were presented with orthogonal gratings, one to each eye, flickering at different frequencies. Participants indicated their percept while EEG data were collected. The time courses of the SSVEP amplitudes at the two frequencies were then compared across different percept durations, within participants. For all durations, the amplitude of signals corresponding to the suppressed stimulus increased and the amplitude corresponding to the dominant stimulus decreased throughout the percept. Critically, longer percepts were characterized by more gradual increases in the suppressed signal and more gradual decreases of the dominant signal. Changes in signals were similar and rapid at the end of all percepts, presumably reflecting perceptual transitions. These features of the SSVEP time courses are well predicted by a model in which perceptual transitions are produced by the accumulation of noisy signals. Identification of this signal underlying binocular rivalry should allow strong tests of neural models of rivalry, bistable perception, and neural suppression. [ABSTRACT FROM AUTHOR]

Published

2023

6. Spontaneous Necker-cube reversals may not be that spontaneous.

Author

Wilson, Mareike, Hecker, Lukas, Joos, Ellen, Aertsen, Ad, van Elst, Ludger Tebartz, and Kornmeier, Jürgen

Subjects

TIME reversal, CUBES, ELECTROENCEPHALOGRAPHY

Abstract

Introduction: During observation of the ambiguous Necker cube, our perception suddenly reverses between two about equally possible 3D interpretations. During passive observation, perceptual reversals seem to be sudden and spontaneous. A number of theoretical approaches postulate destabilization of neural representations as a pre-condition for reversals of ambiguous figures. In the current study, we focused on possible Electroencephalogram (EEG) correlates of perceptual destabilization, that may allow prediction of an upcoming perceptual reversal. Methods: We presented ambiguous Necker cube stimuli in an onset-paradigm and investigated the neural processes underlying endogenous reversals as compared to perceptual stability across two consecutive stimulus presentations. In a separate experimental condition, disambiguated cube variants were alternated randomly, to exogenously induce perceptual reversals. We compared the EEG immediately before and during endogenous Necker cube reversals with corresponding time windows during exogenously induced perceptual reversals of disambiguated cube variants. Results: For the ambiguous Necker cube stimuli, we found the earliest differences in the EEG between reversal trials and stability trials already 1 s before a reversal occurred, at bilateral parietal electrodes. The traces remained similar until approximately 1100 ms before a perceived reversal, became maximally different at around 890 ms (p = 7.59 × 10-6, Cohen’s d = 1.35) and remained different until shortly before offset of the stimulus preceding the reversal. No such patterns were found in the case of disambiguated cube variants. Discussion: The identified EEG effects may reflect destabilized states of neural representations, related to destabilized perceptual states preceding a perceptual reversal. They further indicate that spontaneous Necker cube reversals are most probably not as spontaneous as generally thought. Rather, the destabilization may occur over a longer time scale, at least 1 s before a reversal event, despite the reversal event as such being perceived as spontaneous by the viewer. [ABSTRACT FROM AUTHOR]

Published

2023

7. Attractor-Like Dynamics Extracted from Human Electrocorticographic Recordings Underlie Computational Principles of Auditory Bistable Perception.

Author

Melland, Pake and Curtu, Rodica

Subjects

*AUDITORY perception, *AUDITORY cortex, *FEATURE extraction, *EXTRACTION techniques, *PERIODIC functions

Abstract

In bistable perception, observers experience alternations between two interpretations of an unchanging stimulus. Neurophysiological studies of bistable perception typically partition neural measurements into stimulus-based epochs and assess neuronal differences between epochs based on subjects' perceptual reports. Computational studies replicate statistical properties of percept durations with modeling principles like competitive attractors or Bayesian inference. However, bridging neuro-behavioral findings with modeling theory requires the analysis of single-trial dynamic data. Here, we propose an algorithm for extracting nonstationary time series features from single-trial electrocorticography (ECoG) data. We applied the proposed algorithm to 5-min ECoG recordings from human primary auditory cortex obtained during perceptual alternations in an auditory triplet streaming task (six subjects: four male, two female). We report two ensembles of emergent neuronal features in all trial blocks. One ensemble consists of periodic functions that encode a stereotypical response to the stimulus. The other comprises more transient features and encodes dynamics associated with bistable perception at multiple time scales: minutes (within-trial alternations), seconds (duration of individual percepts), and milliseconds (switches between percepts). Within the second ensemble, we identified a slowly drifting rhythm that correlates with the perceptual states and several oscillators with phase shifts near perceptual switches. Projections of single-trial ECoG data onto these features establish low-dimensional attractor-like geometric structures invariant across subjects and stimulus types. These findings provide supporting neural evidence for computational models with oscillatory-driven attractor-based principles. The feature extraction techniques described here generalize across recording modality and are appropriate when hypothesized low-dimensional dynamics characterize an underlying neural system. [ABSTRACT FROM AUTHOR]

Published

2023

8. Perceptual Awareness and Its Relationship with Consciousness: Hints from Perceptual Multistability

Author

Chiara Saracini

Subjects

multistability, bistable perception, binocular rivalry, perceptual awareness, consciousness, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Many interesting theories of consciousness have been proposed, but so far, there is no “unified” theory capable of encompassing all aspects of this phenomenon. We are all aware of what it feels like to be conscious and what happens if there is an absence of consciousness. We are becoming more and more skilled in measuring consciousness states; nevertheless, we still “don’t get it” in its deeper essence. How does all the processed information converge from different brain areas and structures to a common unity, giving us this very private “feeling of being conscious”, despite the constantly changing flow of information between internal and external states? “Multistability” refers to a class of perceptual phenomena where subjective awareness spontaneously and continuously alternates between different percepts, although the objective stimuli do not change, supporting the idea that the brain “interprets” sensorial input in a “constructive” way. In this perspective paper, multistability and perceptual awareness are discussed as a methodological window for understanding the “local” states of consciousness, a privileged position from which it is possible to observe the brain dynamics and mechanisms producing the subjective phenomena of perceptual awareness in the very moment they are happening.

Published

2022

9. Spontaneous Necker-cube reversals may not be that spontaneous

Author

Mareike Wilson, Lukas Hecker, Ellen Joos, Ad Aertsen, Ludger Tebartz van Elst, and Jürgen Kornmeier

Subjects

ambiguous figures, perceptual reversals, bistable perception, EEG, Necker cube, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

IntroductionDuring observation of the ambiguous Necker cube, our perception suddenly reverses between two about equally possible 3D interpretations. During passive observation, perceptual reversals seem to be sudden and spontaneous. A number of theoretical approaches postulate destabilization of neural representations as a pre-condition for reversals of ambiguous figures. In the current study, we focused on possible Electroencephalogram (EEG) correlates of perceptual destabilization, that may allow prediction of an upcoming perceptual reversal.MethodsWe presented ambiguous Necker cube stimuli in an onset-paradigm and investigated the neural processes underlying endogenous reversals as compared to perceptual stability across two consecutive stimulus presentations. In a separate experimental condition, disambiguated cube variants were alternated randomly, to exogenously induce perceptual reversals. We compared the EEG immediately before and during endogenous Necker cube reversals with corresponding time windows during exogenously induced perceptual reversals of disambiguated cube variants.ResultsFor the ambiguous Necker cube stimuli, we found the earliest differences in the EEG between reversal trials and stability trials already 1 s before a reversal occurred, at bilateral parietal electrodes. The traces remained similar until approximately 1100 ms before a perceived reversal, became maximally different at around 890 ms (p = 7.59 × 10–6, Cohen’s d = 1.35) and remained different until shortly before offset of the stimulus preceding the reversal. No such patterns were found in the case of disambiguated cube variants.DiscussionThe identified EEG effects may reflect destabilized states of neural representations, related to destabilized perceptual states preceding a perceptual reversal. They further indicate that spontaneous Necker cube reversals are most probably not as spontaneous as generally thought. Rather, the destabilization may occur over a longer time scale, at least 1 s before a reversal event, despite the reversal event as such being perceived as spontaneous by the viewer.

Published

2023

10. Distinct dorsal and ventral streams for binocular rivalry dominance and suppression revealed by magnetoencephalography.

Author

Bock, Elizabeth A., Fesi, Jeremy D., Da Silva Castenheira, Jason, Baillet, Sylvain, and Mendola, Janine D.

Subjects

*BINOCULAR rivalry, *STIMULUS & response (Biology), *MAGNETOENCEPHALOGRAPHY, *VISUAL perception, *VISUAL cortex

Abstract

Binocular rivalry is an example of bistable visual perception extensively examined in neuroimaging. Magnetoencephalography can track brain responses to phasic visual stimulations of predetermined frequency and phase to advance our understanding of perceptual dominance and suppression in binocular rivalry. We used left and right eye stimuli that flickered at two tagging frequencies to track their respective oscillatory cortical evoked responses. We computed time‐resolved measures of coherence to track brain responses phase locked with stimulus frequencies and with respect to the participants' indications of alternations of visual rivalry they experienced. We compared the brain maps obtained to those from a non‐rivalrous control replay condition that used physically changing stimuli to mimic rivalry. We found stronger coherence within a posterior cortical network of visual areas during rivalry dominance compared with rivalry suppression and replay control. This network extended beyond the primary visual cortex to several retinotopic visual areas. Moreover, network coherence with dominant percepts in primary visual cortex peaked at least 50 ms prior to the suppressed percept nadir, consistent with the escape theory of alternations. Individual alternation rates were correlated with the rate of change in dominant evoked peaks, but not for the slope of response to suppressed percepts. Effective connectivity measures revealed that dominant (respectively, suppressed) percepts were expressed in dorsal (respectively ventral) streams. We thus demonstrate that binocular rivalry dominance and suppression engage distinct mechanisms and brain networks. These findings advance neural models of rivalry and may relate to more general aspects of selection and suppression in natural vision. [ABSTRACT FROM AUTHOR]

Published

2023

11. Perceptual reversals and creativity: is it possible to develop divergent thinking by modulating bistable perception?

Author

Guillermo Rodríguez-Martínez

Subjects

bistable perception, divergent thinking, perceptual reversals, creative cognition, Social Sciences, Industries. Land use. Labor, HD28-9999, Management. Industrial management, HD28-70, Technological innovations. Automation, HD45-45.2

Abstract

The purpose of this article was to examine the relations that exist between bistable perception and divergent thinking, taking as a reference that flexibility emerges in both mechanisms, perceptually or cognitively. To achieve the objective, a literary review was carried out using six databases. The keywords used were: bistable perception, perceptual reversals, insight, creative cognition, creative flexibility, perceptual flexibility. 19 articles on the relationship between bistable perception, flexibility and creativity were found. 44 studies regarding both bistable perception and the mechanisms that are involved while cognitive flexibility emerges were considered. 2 reviews on bistable perception were also included. 6 articles related to creativity as a cognitive phenomenon were collated, plus another 3 on perceptual processes. After having made the analysis, it is concluded that the modulating mechanisms of bistable perception have a possibility of being incorporated to develop creativity from perceptual reconfiguration processes that involve flexibility mechanisms.

Published

2023

12. No common factor for illusory percepts, but a link between pareidolia and delusion tendency: A test of predictive coding theory.

Author

Lhotka, Magdalena, Ischebeck, Anja, Helmlinger, Birgit, and Zaretskaya, Natalia

Subjects

CODING theory, OPTICAL illusions, PREDICTIVE tests, DELUSIONS, HALLUCINATIONS, PSYCHOSES

Abstract

Predictive coding theory is an influential view of perception and cognition. It proposes that subjective experience of the sensory information results from a comparison between the sensory input and the top-down prediction about this input, the latter being critical for shaping the final perceptual outcome. The theory is able to explain a wide range of phenomena extending from sensory experiences such as visual illusions to complex pathological states such as hallucinations and psychosis. In the current study we aimed at testing the proposed connection between different phenomena explained by the predictive coding theory by measuring the manifestation of top-down predictions at progressing levels of complexity, starting from bistable visual illusions (alternating subjective experience of the same sensory input) and pareidolias (alternative meaningful interpretation of the sensory input) to self-reports of hallucinations and delusional ideations in everyday life. Examining the correlation structure of these measures in 82 adult healthy subjects revealed a positive association between pareidolia proneness and a tendency for delusional ideations, yet without any relationship to bistable illusions. These results show that only a subset of the phenomena that are explained by the predictive coding theory can be attributed to one common underlying factor. Our findings thus support the hierarchical view of predictive processing with independent top-down effects at the sensory and cognitive levels. [ABSTRACT FROM AUTHOR]

Published

2023

13. Adaptation in the sensory cortex drives bistable switching during auditory stream segregation.

Author

Higgins, Nathan C, Scurry, Alexandra N, Jiang, Fang, Little, David F, Alain, Claude, Elhilali, Mounya, and Snyder, Joel S

Subjects

NEUROPLASTICITY, NEUROPHYSIOLOGY, CINGULATE cortex

Abstract

Current theories of perception emphasize the role of neural adaptation, inhibitory competition, and noise as key components that lead to switches in perception. Supporting evidence comes from neurophysiological findings of specific neural signatures in modality-specific and supramodal brain areas that appear to be critical to switches in perception. We used functional magnetic resonance imaging to study brain activity around the time of switches in perception while participants listened to a bistable auditory stream segregation stimulus, which can be heard as one integrated stream of tones or two segregated streams of tones. The auditory thalamus showed more activity around the time of a switch from segregated to integrated compared to time periods of stable perception of integrated; in contrast, the rostral anterior cingulate cortex and the inferior parietal lobule showed more activity around the time of a switch from integrated to segregated compared to time periods of stable perception of segregated streams, consistent with prior findings of asymmetries in brain activity depending on the switch direction. In sound-responsive areas in the auditory cortex, neural activity increased in strength preceding switches in perception and declined in strength over time following switches in perception. Such dynamics in the auditory cortex are consistent with the role of adaptation proposed by computational models of visual and auditory bistable switching, whereby the strength of neural activity decreases following a switch in perception, which eventually destabilizes the current percept enough to lead to a switch to an alternative percept. [ABSTRACT FROM AUTHOR]

Published

2023

14. Perceptual reversals and creativity: ¿is it possible to develop divergent thinking by modulating bistable perception?

Author

Rodríguez-Martínez, Guillermo

Subjects

DIVERGENT thinking, COGNITIVE flexibility, COGNITION, CREATIVE ability, POSSIBILITY

Abstract

Copyright of Revista de Investigación Desarrollo e Innovación is the property of Universidad Pedagogica y Tecnologica de Colombia and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

15. No common factor for illusory percepts, but a link between pareidolia and delusion tendency: A test of predictive coding theory

Author

Magdalena Lhotka, Anja Ischebeck, Birgit Helmlinger, and Natalia Zaretskaya

Subjects

predictive coding, vision, bistable perception, delusions, illusions, hallucinations, Psychology, BF1-990

Abstract

Predictive coding theory is an influential view of perception and cognition. It proposes that subjective experience of the sensory information results from a comparison between the sensory input and the top-down prediction about this input, the latter being critical for shaping the final perceptual outcome. The theory is able to explain a wide range of phenomena extending from sensory experiences such as visual illusions to complex pathological states such as hallucinations and psychosis. In the current study we aimed at testing the proposed connection between different phenomena explained by the predictive coding theory by measuring the manifestation of top-down predictions at progressing levels of complexity, starting from bistable visual illusions (alternating subjective experience of the same sensory input) and pareidolias (alternative meaningful interpretation of the sensory input) to self-reports of hallucinations and delusional ideations in everyday life. Examining the correlation structure of these measures in 82 adult healthy subjects revealed a positive association between pareidolia proneness and a tendency for delusional ideations, yet without any relationship to bistable illusions. These results show that only a subset of the phenomena that are explained by the predictive coding theory can be attributed to one common underlying factor. Our findings thus support the hierarchical view of predictive processing with independent top-down effects at the sensory and cognitive levels.

Published

2023

16. Reversible-figure perception: Why is voluntary control limited?

Author

Toppino, Thomas C.

Subjects

*NEUROPLASTICITY, *CUBES

Abstract

Observers can voluntarily avoid reversals of an ambiguous, reversible figure, extending the duration of an intended percept. This is usually attributed to high-level, top-down attentional processes. However, voluntary control is limited. Reversals occur despite attempts to avoid them. In two experiments, observers demonstrated significant, but limited, voluntary control over Necker cube perception. Cube size and cube completeness, variables associated with stimulus-driven processes involving neural adaptation, influenced the frequency of reversals regardless of observers' intentions. Results are consistent with the hybrid hypothesis that both top-down and bottom-up processes contribute to Necker-cube perception and support the hypothesis that the contribution of bottom-up processes is responsible for the limitation on voluntary control. [ABSTRACT FROM AUTHOR]

Published

2022

17. Frequency-specific neural signatures of perceptual content and perceptual stability

Author

Richard Hardstone, Matthew W Flounders, Michael Zhu, and Biyu J He

Subjects

bistable perception, magnetoencephalography, slow cortical potential, brain oscillations, multivariate analysis, perceptual stability, Medicine, Science, Biology (General), QH301-705.5

Abstract

In the natural environment, we often form stable perceptual experiences from ambiguous and fleeting sensory inputs. Which neural activity underlies the content of perception and which neural activity supports perceptual stability remains an open question. We used a bistable perception paradigm involving ambiguous images to behaviorally dissociate perceptual content from perceptual stability, and magnetoencephalography to measure whole-brain neural dynamics in humans. Combining multivariate decoding and neural state-space analyses, we found frequency-band-specific neural signatures that underlie the content of perception and promote perceptual stability, respectively. Across different types of images, non-oscillatory neural activity in the slow cortical potential (

Published

2022

18. Bistable Perception of Ambiguous Images – Analytical Model

Author

Meilikov, Evgeny, Farzetdinova, Rimma, Kacprzyk, Janusz, Series Editor, Kryzhanovsky, Boris, editor, Dunin-Barkowski, Witali, editor, Redko, Vladimir, editor, and Tiumentsev, Yury, editor

Published

2020

19. Non‐stimulated regions in early visual cortex encode the contents of conscious visual perception.

Author

van Kemenade, Bianca M., Wilbertz, Gregor, Müller, Annalena, and Sterzer, Philipp

Subjects

*VISUAL perception, *VISUAL cortex, *FUNCTIONAL magnetic resonance imaging, *FORM perception

Abstract

Predictions shape our perception. The theory of predictive processing poses that our brains make sense of incoming sensory input by generating predictions, which are sent back from higher to lower levels of the processing hierarchy. These predictions are based on our internal model of the world and enable inferences about the hidden causes of the sensory input data. It has been proposed that conscious perception corresponds to the currently most probable internal model of the world. Accordingly, predictions influencing conscious perception should be fed back from higher to lower levels of the processing hierarchy. Here, we used functional magnetic resonance imaging and multivoxel pattern analysis to show that non‐stimulated regions of early visual areas contain information about the conscious perception of an ambiguous visual stimulus. These results indicate that early sensory cortices in the human brain receive predictive feedback signals that reflect the current contents of conscious perception. [ABSTRACT FROM AUTHOR]

Published

2022

20. Bistable Perception in Conceptor Networks

Author

Meyer zu Driehausen, Felix, Busche, Rüdiger, Leugering, Johannes, Pipa, Gordon, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Woeginger, Gerhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Tetko, Igor V., editor, Kůrková, Věra, editor, Karpov, Pavel, editor, and Theis, Fabian, editor

Published

2019

21. Conflict monitoring and attentional adjustment during binocular rivalry.

Author

Drew, Alice, Torralba, Mireia, Ruzzoli, Manuela, Morís Fernández, Luis, Sabaté, Alba, Pápai, Márta Szabina, and Soto‐Faraco, Salvador

Subjects

*BINOCULAR rivalry, *COGNITIVE dissonance, *COGNITIVE ability, *CONFLICT management

Abstract

To make sense of ambiguous and, at times, fragmentary sensory input, the brain must rely on a process of active interpretation. At any given moment, only one of several possible perceptual representations prevails in our conscious experience. Our hypothesis is that the competition between alternative representations induces a pattern of neural activation resembling cognitive conflict, eventually leading to fluctuations between different perceptual outcomes in the case of steep competition. To test this hypothesis, we probed changes in perceptual awareness between competing images using binocular rivalry. We drew our predictions from the conflict monitoring theory, which holds that cognitive control is invoked by the detection of conflict during information processing. Our results show that fronto‐medial theta oscillations (5–7 Hz), an established electroencephalography (EEG) marker of conflict, increases right before perceptual alternations and decreases thereafter, suggesting that conflict monitoring occurs during perceptual competition. Furthermore, to investigate conflict resolution via attentional engagement, we looked for a neural marker of perceptual switches as by parieto‐occipital alpha oscillations (8–12 Hz). The power of parieto‐occipital alpha displayed an inverse pattern to that of fronto‐medial theta, reflecting periods of high interocular inhibition during stable perception, and low inhibition around moments of perceptual change. Our findings aim to elucidate the relationship between conflict monitoring mechanisms and perceptual awareness. [ABSTRACT FROM AUTHOR]

Published

2022

22. Perceptual reversals and time-response analyses within the scope of decoding a bistable image.

Author

Rodríguez-Martínez, Guillermo, Marroquín-Ciendúa, Fernando, Rosa, Pedro J., and Castillo-Parra, Henry

Subjects

*POSTURE, *REVERSAL theory (Psychology), *REACTION time, *VISUAL perception, *OPTICAL bistability, *EYE movements, *VISUAL literacy, *COGNITION

Abstract

A bistable image admits two possible interpretations, so that the observer can recognize the two percepts, but never at the same time. The alternations between percepts are called "perceptual reversals". When the observer's position is different from the upright position, the ability to make perceptual alternations may be impaired. Besides, the recognition of the percepts of a bistable image can be a complex reaction time visual task, if it involves recognizing two different conceptual units, added to the fact of having to make a subsequent report. A visual task was performed by 88 people in order to establish whether the perception of Boring's bistable image My girlfriend or my mother-in-law is associated with areas that condition its interpretation. It was assumed that decoding the image and reporting the perceived percept implied a complex reaction time. The task itself was done in front of a fixed 120 Hz eye-tracker, in two opposite body positions. Analyses were made reviewing the association of the percepts with bottom-up modulation areas of the image, and considering ocular fixations made 200 and 250 milliseconds before the time of the report. The records of these fixations were obtained so as to establish which of the two reaction times (200 ms or 250 ms) was involved in the bottom-up modulation process from the moment of ocular fixation to the reports given by the participants. It was concluded that perceptual reversals decrease significantly when head idiotropic axis points in the gravity vector direction, in comparison to the upright position. Likewise, associations between visual percepts and bottom-up modulating areas of the image were found when analyses were done by considering ocular fixations made 250 ms before the moment of the report. Interpreting Boring's bistable image implies a complex visual task in accordance with the results obtained. [ABSTRACT FROM AUTHOR]

Published

2022

23. Bistable Perception’s Oscillations Dynamics, Individual Differences and Cognitive Flexibility: A Behavioral Study

Author

Chiara Saracini

Subjects

bistable perception, perceptual awareness, cognitive flexibility, individual differences, Plant ecology, QK900-989, Animal biochemistry, QP501-801, Biology (General), QH301-705.5

Abstract

Perceptual oscillations between different interpretations of unchanging, ambiguous stimuli have been studied for decades, being that this special phenomenon is considered a key towards the understanding of perceptual awareness and, ultimately, consciousness. The finding that brain dynamics (as registered, for example, through magneto- and electro-encephalography—M/EEG) of the spontaneous alternations between the percepts reflect the intrinsic dynamic properties of the (unconscious) perceptual processing impacts on many theoretical scenarios which consider perception as an inference process, and all other subserving cognitive processes as working in a coordinated and coherent way. Amongst cognitive processes, cognitive flexibility is the one sharing the most characteristics with the perceptual alternations, typical of bistable phenomena, these being the ability to change a rule or accordingly inhibit certain information differently between individuals; this “switching” ability has been shown to be correlated with the general “functioning” of a person (this, in turn, being reflected by the individual neural system organization and dynamics). A preliminary behavioral study (N = 26) has been performed to provide evidence that all these aspects are indeed correlated. Performances in computerized classic experimental paradigms (Stroop, Simon Task, Task-switching Tests, Wisconsin Card Sorting Test) have been correlated to perceptual switches and percept durations of spontaneous and voluntary alternations of the Necker Cube and with scores in Cognitive Flexibility, Barrat’s Impulsiveness, DASS-21, and the short version of the Big Five questionnaires. Future studies with EEG and brain connectivity measures can provide a more direct insight on the brain dynamics of this perceptual and cognitive processing, shedding light on the mechanisms at the basis of this supposed concerted coherent synchronization.

Published

2022

24. Causal roles of prefrontal cortex during spontaneous perceptual switching are determined by brain state dynamics

Author

Takamitsu Watanabe

Subjects

energy landscape analysis, bistable perception, EEG, TMS, human, Medicine, Science, Biology (General), QH301-705.5

Abstract

The prefrontal cortex (PFC) is thought to orchestrate cognitive dynamics. However, in tests of bistable visual perception, no direct evidence supporting such presumable causal roles of the PFC has been reported except for a recent work. Here, using a novel brain-state-dependent neural stimulation system, we identified causal effects on percept dynamics in three PFC activities—right frontal eye fields, dorsolateral PFC (DLPFC), and inferior frontal cortex (IFC). The causality is behaviourally detectable only when we track brain state dynamics and modulate the PFC activity in brain-state-/state-history-dependent manners. The behavioural effects are underpinned by transient neural changes in the brain state dynamics, and such neural effects are quantitatively explainable by structural transformations of the hypothetical energy landscapes. Moreover, these findings indicate distinct functions of the three PFC areas: in particular, the DLPFC enhances the integration of two PFC-active brain states, whereas IFC promotes the functional segregation between them. This work resolves the controversy over the PFC roles in spontaneous perceptual switching and underlines brain state dynamics in fine investigations of brain-behaviour causality.

Published

2021

25. Pupil constriction via the parasympathetic pathway precedes perceptual switch of ambiguous stimuli.

Author

Nakano, Tamami, Ichiki, Arata, and Fujikado, Takashi

Subjects

*SPHINCTERS, *STIMULUS & response (Psychology), *PUPILLARY reflex, *NERVOUS system

Abstract

Perceptual rivalry of ambiguous stimuli reflects the interaction of neural activity among multiple cortical regions. However, it remains unclear what drives a spontaneous perceptual alteration. We hypothesized that increased fluctuations in spontaneous neural activity due to arousal reduction drive the perceptual switch. Here, we show that the pupils shrank a few seconds prior to the onset of the spontaneous perceptual switch. Such pupil constriction was not observed before the exogenous perceptual switch. Pharmacological experiments confirmed that the pupil constriction disappeared when the peripheral parasympathetic pathway (pupil sphincter muscle) was blocked, but it remained intact when the peripheral sympathetic pathway (pupil dilator muscle) was manipulated. Furthermore, rapid pupil dilations with behavioral response are also mediated by the peripheral parasympathetic pathway. The present findings suggested that transient arousal drops, as denoted by the autonomic nervous modulation of pupil size, are involved in inducing the spontaneous perceptual switch of bistable stimuli. • Pupils transiently shrank prior to the spontaneous perceptual switch. • Pupil constriction disappeared when the iris sphincter muscle was blocked. • It was not inhibited when the iris dilator muscle was blocked. • Transient arousal drops are involved in inducing perceptual switch of bistable stimuli. [ABSTRACT FROM AUTHOR]

Published

2021

26. Comparing the terrain reversal effect in satellite images and in shaded relief maps: an examination of the effects of color and texture on 3D shape perception from shading

Author

Arzu Çöltekin and Julien Biland

Subjects

terrain reversal, relief inversion, false topographic perception phenomenon, photo interpretation, visual illusion, user study, bistable perception, global convexity bias, Mathematical geography. Cartography, GA1-1776

Abstract

Terrain reversal effect (TRE) causes reversed 3D shape perception in satellite images and shaded relief maps (SRMs), and introduces difficulties in identifying landforms such as valleys and ridges. With this paper, in a controlled laboratory experiment, we compare how well 27 participants could identify valleys and ridges over 33 locations using SRMs, color satellite images and grayscale satellite images. The main depth cue is shadow both in vertical-view images and SRMs. However, the presence of texture and color in images also affect 3D shape perception. All our participants experience the illusion strongly: with the SRMs, it is very severe (2% accuracy), with grayscale images low but considerably better than SRMs (17.6% accuracy), and slightly worse with color imagery (15.3% accuracy). These differences between SRMs and imagery suggest that the participants who are able to bypass the illusion consciously or subconsciously interpret the photographic information. We support this observation further with a cue-strength analysis. Furthermore, we provide exploratory analyses of the effects of expertise, global convexity bias, and bistable perception. Our original empirical observations serve towards a better understanding of this visual illusion, and contribute towards nuanced and appropriate solutions to correcting for TRE differently for satellite images and SRMs.

Published

2019

27. The Role of Blinks, Microsaccades and their Retinal Consequences in Bistable Motion Perception

Author

Mareike Brych, Supriya Murali, and Barbara Händel

Subjects

eye movements, spontaneous eye blink, microsaccade rate, microsaccade direction, bistable perception, ambiguous plaid 4, Psychology, BF1-990

Abstract

Eye-related movements such as blinks and microsaccades are modulated during bistable perceptual tasks. However, if they play an active role during internal perceptual switches is not known. We conducted two experiments involving an ambiguous plaid stimulus, wherein participants were asked to continuously report their percept, which could consist of either unidirectional coherent or bidirectional component movement. Our main results show that blinks and microsaccades did not facilitate perceptual switches. On the contrary, a reduction in eye movements preceded the perceptual switch. Blanks, on the other hand, thought to mimic the retinal consequences of a blink, consistently led to a switch. Through the timing of the blank-introduced perceptual change, we were able to estimate the delay between the internal switch and the response. This delay further allowed us to evaluate that the reduction in blink probability co-occurred with the internal perceptual switch. Additionally, our results indicate that distinct internal processes underlie the switch to coherent vs. component percept. Blanks exclusively facilitated a switch to the coherent percept, and only the switch to coherent percept was followed by an increase in blink rate. In a second study, we largely replicated the findings and included a microsaccade analysis. Microsaccades only showed a weak relation with perceptual switches, but their direction was correlated with the perceived motion direction. Nevertheless, our data suggests an interaction between microsaccades and blinks by showing that microsaccades were differently modulated around blinks compared with blanks. This study shows that a reduction in eye movements precedes internal perceptual switches indicating that the rate of blinks can set the stage for a reinterpretation of sensory input. While a perceptual switch based on changed sensory input usually leads to an increase in blink rate, such an increase was only present after the perceptual switch to coherent motion but absent after the switch to component percept. This provides evidence of different underlying mechanism or internal consequence of the two perceptual switches and suggests that blinks can uncover differences in internal percept-related processes that are not evident from the percept itself.

Published

2021

28. The Role of Blinks, Microsaccades and their Retinal Consequences in Bistable Motion Perception.

Author

Brych, Mareike, Murali, Supriya, and Händel, Barbara

Subjects

EYE movements, BLINKING (Physiology)

Abstract

Eye-related movements such as blinks and microsaccades are modulated during bistable perceptual tasks. However, if they play an active role during internal perceptual switches is not known. We conducted two experiments involving an ambiguous plaid stimulus, wherein participants were asked to continuously report their percept, which could consist of either unidirectional coherent or bidirectional component movement. Our main results show that blinks and microsaccades did not facilitate perceptual switches. On the contrary, a reduction in eye movements preceded the perceptual switch. Blanks, on the other hand, thought to mimic the retinal consequences of a blink, consistently led to a switch. Through the timing of the blank-introduced perceptual change, we were able to estimate the delay between the internal switch and the response. This delay further allowed us to evaluate that the reduction in blink probability co-occurred with the internal perceptual switch. Additionally, our results indicate that distinct internal processes underlie the switch to coherent vs. component percept. Blanks exclusively facilitated a switch to the coherent percept, and only the switch to coherent percept was followed by an increase in blink rate. In a second study, we largely replicated the findings and included a microsaccade analysis. Microsaccades only showed a weak relation with perceptual switches, but their direction was correlated with the perceived motion direction. Nevertheless, our data suggests an interaction between microsaccades and blinks by showing that microsaccades were differently modulated around blinks compared with blanks. This study shows that a reduction in eye movements precedes internal perceptual switches indicating that the rate of blinks can set the stage for a reinterpretation of sensory input. While a perceptual switch based on changed sensory input usually leads to an increase in blink rate, such an increase was only present after the perceptual switch to coherent motion but absent after the switch to component percept. This provides evidence of different underlying mechanism or internal consequence of the two perceptual switches and suggests that blinks can uncover differences in internal percept-related processes that are not evident from the percept itself. [ABSTRACT FROM AUTHOR]

Published

2021

29. Dynamics of a Mutual Inhibition Circuit between Pyramidal Neurons Compared to Human Perceptual Competition.

Author

Naoki Kogo, Kern, Felix B., Nowotny, Thomas, van Ee, Raymond, van Wezel, Richard, and Takeshi Aihara

Subjects

*VISUAL perception, *NEURAL circuitry, *PYRAMIDAL neurons, *INJECTIONS, *VISUAL cortex, *NEURONS, *SYNAPTOPHYSIN

Abstract

Neural competition plays an essential role in active selection processes of noisy and ambiguous input signals, and it is assumed to underlie emergent properties of brain functioning, such as perceptual organization and decision-making. Despite ample theoretical research on neural competition, experimental tools to allow neurophysiological investigation of competing neurons have not been available. We developed a "hybrid" system where real-life neurons and a computer-simulated neural circuit interacted. It enabled us to construct a mutual inhibition circuit between two real-life pyramidal neurons. We then asked what dynamics this minimal unit of neural competition exhibits and compared them with the known behavioral-level dynamics of neural competition. We found that the pair of neurons shows bistability when activated simultaneously by current injections. The addition of modeled synaptic noise and changes in the activation strength showed that the dynamics of the circuit are strikingly similar to the known properties of bistable visual perception: The distribution of dominance durations showed a right-skewed shape, and the changes of the activation strengths caused changes in dominance, dominance durations, and reversal rates as stated in the well-known empirical laws of bistable perception known as Levelt's propositions. [ABSTRACT FROM AUTHOR]

Published

2021

30. Widespread Brain Areas Engaged during a Classical Auditory Streaming Task Revealed by Intracranial EEG

Author

Dykstra, Andrew R, Halgren, Eric, Thesen, Thomas, Carlson, Chad E, Doyle, Werner, Madsen, Joseph R, Eskandar, Emad N, and Cash, Sydney S

Subjects

Biological Psychology, Biomedical and Clinical Sciences, Psychology, Clinical Research, Neurosciences, 1.1 Normal biological development and functioning, Underpinning research, Neurological, auditory streaming, auditory scene analysis, auditory cortex, electrocorticography, bistable perception, evoked potentials, Cognitive Sciences, Experimental Psychology, Biological psychology, Cognitive and computational psychology

Abstract

The auditory system must constantly decompose the complex mixture of sound arriving at the ear into perceptually independent streams constituting accurate representations of individual sources in the acoustic environment. How the brain accomplishes this task is not well understood. The present study combined a classic behavioral paradigm with direct cortical recordings from neurosurgical patients with epilepsy in order to further describe the neural correlates of auditory streaming. Participants listened to sequences of pure tones alternating in frequency and indicated whether they heard one or two "streams." The intracranial EEG was simultaneously recorded from sub-dural electrodes placed over temporal, frontal, and parietal cortex. Like healthy subjects, patients heard one stream when the frequency separation between tones was small and two when it was large. Robust evoked-potential correlates of frequency separation were observed over widespread brain areas. Waveform morphology was highly variable across individual electrode sites both within and across gross brain regions. Surprisingly, few evoked-potential correlates of perceptual organization were observed after controlling for physical stimulus differences. The results indicate that the cortical areas engaged during the streaming task are more complex and widespread than has been demonstrated by previous work, and that, by-and-large, correlates of bistability during streaming are probably located on a spatial scale not assessed - or in a brain area not examined - by the present study.

Published

2011

31. Bistable perception: neural bases and usefulness in psychological research

Author

Guillermo Andrés Rodríguez Martínez and Henry Castillo Parra

Subjects

bistable perception, visual perception, bistable images, psychological research, Psychology, BF1-990

Abstract

Bistable images have the possibility of being perceived in two different ways. Due to their physical characteristics, these visual stimuli allow two different perceptions, associated with top-down and bottom-up modulating processes. Based on an extensive literature review, the present article aims to gather the conceptual models and the foundations of perceptual bistability. This theoretical article compiles not only notions that are intertwined with the understanding of this perceptual phenomenon, but also the diverse classification and uses of bistable images in psychological research, along with a detailed explanation of the neural correlates that are involved in perceptual reversibility. We conclude that the use of bistable images as a paradigmatic resource in psychological research might be extensive. In addition, due to their characteristics, visual bistable stimuli have the potential to be implemented as a resource in experimental tasks that seek to understand diverse concerns linked essentially to attention, sensory, perceptual and memory processes.

Published

2018

32. Ocular fixations modulate audiovisual semantic congruency when standing in an upright position.

Author

Rodríguez-Martínez, Guillermo, Castillo-Parra, Henry, Rosa, Pedro J., and Marroquín-Ciendúa, Fernando

Subjects

*STANDING position, *AUDITORY perception, *POSTURE

Abstract

Introduction: Multisensory audiovisual semantic congruency is the process by which visual information is perceived as integrated to auditory stimuli, because both coincide in terms of simultaneity and semantic correspondence. This study was aimed at establishing whether visual percepts, which semantically correspond to auditory stimuli, are associated with ocular fixations in modulating bottom-up areas while keeping a body posture alignment between the up-direction and the idiotropic axes, as well as in another orientation corresponding to a vectorial opposition between the up-direction and the head idiotropic axis. Method: Two groups (one for each position) were selected from a sample of 88 people. A bistable image was presented on a screen of a fixed 120 Hz eye-tracker device, providing background auditory stimuli so as to establish semantic congruencies and their relations to ocular fixations. Results: It was found that audiovisual semantic congruency is associated with fixations when idiotropic vectors are aligned with the up direction. Fixations manifested in bottom-up modulating areas are not associated with multisensory audiovisual semantic congruency when the head idiotropic vector is parallel with the gravity vector. Eye fixations decrease significantly if the head idiotropic axis is aligned with the gravity vector. Conclusion: It is concluded that body position can affect visual perceptual processes involved in the occurrence of semantic congruency. [ABSTRACT FROM AUTHOR]

Published

2021

33. Temporal dynamics of the flash‐induced bouncing effect.

Author

Zhong, Hui, Zhao, Song, Chen, Tingji, Yang, Wanlu, Huang, Xinyin, and Feng, Wenfeng

Subjects

*COINCIDENCE, *EVOKED potentials (Electrophysiology), *MOTION

Abstract

Two identical visual disks moving toward each other on a two‐dimensional (2D) display are more likely to be perceived as "streaming through" than "bouncing off" each other after their coincidence. However, either a brief auditory tone or visual flash presented at the coincident moment of the disks can strikingly increase the incidence of the bouncing percept. Despite the neural substrates underlying the sound‐induced bouncing effect have been widely investigated, little is known about the neural mechanisms underlying the flash‐induced bouncing effect. The present study used event‐related potential recordings to explore the temporal dynamics of the flash‐induced bouncing effect. The results showed that the amplitude of the postcoincidence parietooccipital P2 component (190–230 ms after coincidence) elicited by the visual motion was significantly smaller on bouncing relative to streaming trials only when the flash was presented but not when absent. In addition, the parietal P3 component (330–430 ms) was found to be larger on bouncing than streaming trials when the flash was presented, but the opposite was true when no flash was presented. These electrophysiological findings suggest that the flash‐induced bouncing effect may occur at both perceptual and postperceptual stages of processing. [ABSTRACT FROM AUTHOR]

Published

2020

34. Psychotic Experiences in Schizophrenia and Sensitivity to Sensory Evidence.

Author

Weilnhammer, Veith, Röd, Lukas, Eckert, Anna-Lena, Stuke, Heiner, Heinz, Andreas, and Sterzer, Philipp

Subjects

SCHIZOPHRENIA, DELUSIONS, EXPERIMENTAL design, HALLUCINATIONS, PARANOIA, SENSES, SEVERITY of illness index, CASE-control method

Abstract

Perceptual inference depends on an optimal integration of current sensory evidence with prior beliefs about the environment. Alterations of this process have been related to the emergence of positive symptoms in schizophrenia. However, it has remained unclear whether delusions and hallucinations arise from an increased or decreased weighting of prior beliefs relative to sensory evidence. To investigate the relation of this prior-to-likelihood ratio to positive symptoms in schizophrenia, we devised a novel experimental paradigm which gradually manipulates perceptually ambiguous visual stimuli by disambiguating stimulus information. As a proxy for likelihood precision, we assessed the sensitivity of individual participants to sensory evidence. As a surrogate for the precision of prior beliefs in perceptual stability, we measured phase duration in ambiguity. Relative to healthy controls, patients with schizophrenia showed a stronger increment in congruent perceptual states for increasing levels of disambiguating stimulus evidence. Sensitivity to sensory evidence correlated positively with the individual patients' severity of perceptual anomalies and hallucinations. Moreover, the severity of such experiences correlated negatively with phase duration. Our results indicate that perceptual anomalies and hallucinations are associated with a shift of perceptual inference toward sensory evidence and away from prior beliefs. This reduced prior-to-likelihood ratio in sensory processing may contribute to the phenomenon of aberrant salience, which has been suggested to give rise to the false inferences underlying psychotic experiences. [ABSTRACT FROM AUTHOR]

Published

2020

35. An advanced perception model combining brain noise and adaptation.

Author

Chholak, Parth, Hramov, Alexander E., and Pisarchik, Alexander N.

Abstract

We develop an advanced model of bistable perception based on the interplay of noise and adaptation. The model describes the decision-making process in the brain consisting in involuntary switches between perceptual states. We study the effects of noise and the stimulus duty cycle on the dominance of a particular externally biased perceptual state. We discuss the biological relevance of our model and compare the obtained numerical results with neurophysiological experiments on brain dynamics. The model qualitatively describes the results of neurophysiological experiments on human perception using bistable images, such as gamma distribution of average dominance times and the effect of brain noise on sustained attention. [ABSTRACT FROM AUTHOR]

Published

2020

36. Switch or stay? Automatic classification of internal mental states in bistable perception.

Author

Sen, Susmita, Daimi, Syed Naser, Watanabe, Katsumi, Takahashi, Kohske, Bhattacharya, Joydeep, and Saha, Goutam

Abstract

The human brain goes through numerous cognitive states, most of these being hidden or implicit while performing a task, and understanding them is of great practical importance. However, identifying internal mental states is quite challenging as these states are difficult to label, usually short-lived, and generally, overlap with other tasks. One such problem pertains to bistable perception, which we consider to consist of two internal mental states, namely, transition and maintenance. The transition state is short-lived and represents a change in perception while the maintenance state is comparatively longer and represents a stable perception. In this study, we proposed a novel approach for characterizing the duration of transition and maintenance states and classified them from the neuromagnetic brain responses. Participants were presented with various types of ambiguous visual stimuli on which they indicated the moments of perceptual switches, while their magnetoencephalogram (MEG) data were recorded. We extracted different spatio-temporal features based on wavelet transform, and classified transition and maintenance states on a trial-by-trial basis. We obtained a classification accuracy of 79.58% and 78.40% using SVM and ANN classifiers, respectively. Next, we investigated the temporal fluctuations of these internal mental representations as captured by our classifier model and found that the accuracy showed a decreasing trend as the maintenance state was moved towards the next transition state. Further, to identify the neural sources corresponding to these internal mental states, we performed source analysis on MEG signals. We observed the involvement of sources from the parietal lobe, occipital lobe, and cerebellum in distinguishing transition and maintenance states. Cross-conditional classification analysis established generalization potential of wavelet features. Altogether, this study presents an automatic classification of endogenous mental states involved in bistable perception by establishing brain-behavior relationships at the single-trial level. [ABSTRACT FROM AUTHOR]

Published

2020

37. Bistable Perception and Fractal Reasoning

Author

McGreggor, Keith, Goel, Ashok, Hutchison, David, Series editor, Kanade, Takeo, Series editor, Kittler, Josef, Series editor, Kleinberg, Jon M., Series editor, Mattern, Friedemann, Series editor, Mitchell, John C., Series editor, Naor, Moni, Series editor, Pandu Rangan, C., Series editor, Steffen, Bernhard, Series editor, Terzopoulos, Demetri, Series editor, Tygar, Doug, Series editor, Weikum, Gerhard, Series editor, Jamnik, Mateja, editor, Uesaka, Yuri, editor, and Elzer Schwartz, Stephanie, editor

Published

2016

38. Frontiers in Psychology / No common factor for illusory percepts, but a link between pareidolia and delusion tendency: A test of predictive coding theory

Author

Lhotka, Magdalena, Lhotka, Magdalena, Ischebeck, Anja, Helmlinger, Birgit, Zaretskaya, Natalia, Lhotka, Magdalena, Lhotka, Magdalena, Ischebeck, Anja, Helmlinger, Birgit, and Zaretskaya, Natalia

Abstract

Predictive coding theory is an influential view of perception and cognition. It proposes that subjective experience of the sensory information results from a comparison between the sensory input and the top-down prediction about this input, the latter being critical for shaping the final perceptual outcome. The theory is able to explain a wide range of phenomena extending from sensory experiences such as visual illusions to complex pathological states such as hallucinations and psychosis. In the current study we aimed at testing the proposed connection between different phenomena explained by the predictive coding theory by measuring the manifestation of top-down predictions at progressing levels of complexity, starting from bistable visual illusions (alternating subjective experience of the same sensory input) and pareidolias (alternative meaningful interpretation of the sensory input) to self-reports of hallucinations and delusional ideations in everyday life. Examining the correlation structure of these measures in 82 adult healthy subjects revealed a positive association between pareidolia proneness and a tendency for delusional ideations, yet without any relationship to bistable illusions. These results show that only a subset of the phenomena that are explained by the predictive coding theory can be attributed to one common underlying factor. Our findings thus support the hierarchical view of predictive processing with independent top-down effects at the sensory and cognitive levels., Version of record

Published

2023

39. Assessing Field Dependence–Independence Cognitive Abilities Through EEG-Based Bistable Perception Processing

Author

Cristina Farmaki, Vangelis Sakkalis, Frank Loesche, and Efi A. Nisiforou

Subjects

EEG, ERP, Field-Dependence, Field-Independence, bistable perception, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Field Dependence–Independence (FDI) is a widely studied dimension of cognitive styles designed to measure an individual’s ability to identify embedded parts of an organized visual field as entities separate from that given field. The research aims to determine whether the brain activity features that are considered to be perceptual switching indicators could serve as robust features, differentiating Field-Dependent (FD) from Field-Independent (FI) participants. Previous research suggests that various features derived from event related potentials (ERP) and frequency features are associated with the perceptual reversal occurring during the observation of a bistable image. In this study, we combined these features in the context of a different experimental scheme using ambiguous and unambiguous stimuli during participants’ perceptual observations. We assessed the participants’ FD-I classification with the use of the Hidden Figures Test (HFT). Results show that the peak amplitude of the frontoparietal positivity, the late positive deflection in frontal and parietal areas, is higher for the FD group at specific locations of the left lobe, whereas it occurs later for the FD group at the central and occipital electrodes. Additionally, the FD group exhibits higher levels of gamma power before stimulus onset at channel TP10 and higher gamma power during reversal at the right centroparietal electrodes (T8, CP6, and TP10). The peak amplitude of the reversal positivity, the positive deflection during the reversal, is higher for the FD group at the rear right lobe (P4).

Published

2019

40. Slower and Less Variable Binocular Rivalry Rates in Patients With Bipolar Disorder, OCD, Major Depression, and Schizophrenia

Author

Xing Ye, Ruo-Lin Zhu, Xiao-Qin Zhou, Sheng He, and Kai Wang

Subjects

binocular rivalry, perceptual dynamics, bistable perception, psychiatric disorders, endophenotype, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

When two different images are presented to the two eyes dichoptically, observers usually experience a perceptual alternation between the two images. This phenomenon, known as binocular rivalry, has been used as a powerful tool to investigate mechanisms of visual awareness. It was also found that the rates of perceptual alternation are slower in patients with bipolar disorder than in healthy controls (Pettigrew and Miller, 1998; Miller et al., 2003). To investigate the broader clinical relevance of binocular rivalry in psychiatric disorders, we measured the perceptual alternation rates during rivalry in healthy controls (n = 39) and in patients with different types of psychiatric disorders, including bipolar disorder type I (BD, n = 28), obsessive–compulsive disorder (OCD, n = 22), major depression (MD, n = 50), schizophrenia (SCZ, n = 44), and first-degree relatives (FDRs) of SCZ patients (n = 32). Participants viewed competing red–green images on a computer monitor through red–green anaglyph glasses and pressed buttons to record their perceptual alternations. The distributions of the rivalry rates were well described by a lognormal function in all groups. Critically, the median rate of perceptual alternation was 0.27 Hz for BD patients, 0.26 Hz for the OCD patients, 0.25 Hz for the MD patients, and 0.23 Hz and 0.27 Hz for the SCZ patients and their FDRs, respectively. All of which were significantly slower than the rate of 0.41 Hz obtained for the healthy controls, suggesting there may be shared genotypes between these different disorders. While rivalry alternations were generally slower in different types of psychiatric disorders compared to healthy controls, adding variance of rivalry rates in the analysis helped to partially separate among the different patient groups. Our results suggest that the slowing of binocular rivalry is likely due to certain common factors among the patient groups, but more subtle differences between different patient groups could be revealed when additional properties of rivalry dynamics are considered.

Published

2019

41. Transcutaneous Vagus Nerve Stimulation (tVNS) and the Dynamics of Visual Bistable Perception

Author

Marius Keute, Lisa Boehrer, Philipp Ruhnau, Hans-Jochen Heinze, and Tino Zaehle

Subjects

tVNS, transcutaneous vagus nerve stimulation, GABA, bistable perception, Necker cube, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Transcutaneous vagus nerve stimulation (tVNS) is widely used for clinical applications, but its mechanism of action is poorly understood. One candidate pathway that might mediate the effects of tVNS is an increase in GABAergic neurotransmission. In this study, we investigated the effect of tVNS on visual bistable perception, which is highly coupled to GABA. Participants were 34 healthy young subjects. We used a static (Necker cube) and a dynamic (structure from motion) bistable perception task. Each subject underwent tVNS as well as sham (placebo) stimulation for ∼45 min. We analyze effects of tVNS on percept durations by means of Bayesian multilevel regression. We find no evidence for a modulation of bistable perception dynamics through tVNS in either task, but the analyses do not ultimately confirm the null hypothesis either. We discuss different possible implications of our finding and propose that GABAergic effects of tVNS should be further investigated using more direct measures of GABA concentration, and, more generally, that a better understanding of the mechanisms of action of vagus nerve stimulation is needed. Finally, we discuss limitations of our study design, data analysis, and conclusions.

Published

2019

42. Where is the ghost in the shell?

Author

Weilnhammer V

Abstract

The neurobiology of conscious experience is one of the fundamental mysteries in science. New evidence suggests that transcranial magnetic stimulation of the parietal cortex does not modulate bistable perception. What does this mean for the neural correlates of consciousness, and how should we search for them?, Competing Interests: None declared., (© The Author(s) 2024. Published by Oxford University Press.)

Published

2024

43. Parietal theta burst TMS does not modulate bistable perception.

Author

Schauer G, Grassi PR, Gharabaghi A, and Bartels A

Abstract

The role of the parietal cortex in perceptual awareness and in resolving perceptual ambiguity is unsettled. Early influential transcranial magnetic stimulation studies have revealed differences in conscious perception following parietal stimulation, fuelling the notion that parietal cortex causally contributes to resolving perceptual ambiguity. However, central to this conclusion is the reliability of the method employed. Several prior studies have revealed opposing effects, such as shortening, lengthening, or no effect on multistable perceptual transitions following parietal stimulation. Here we addressed the reliability of continuous theta-burst stimulation (cTBS) on parietal cortex on the perception of bistable stimuli. We conducted three cTBS experiments that were matched to prior experiments in terms of stimuli, stimulation protocol, and target site, and used a higher number of participants. None of our cTBS experiments replicated prior cTBS results. The only experiment using individual functional localizers led to weak effects, while the two others led to null results. Individual variability of motor cortex cTBS did not predict parietal cTBS effects. In view of recent reports of highly variable cTBS effects over motor cortex, our results suggest that cTBS is particularly unreliable in modulating bistable perception when applied over parietal cortex., Competing Interests: None declared., (© The Author(s) 2024. Published by Oxford University Press.)

Published

2024

44. Application to Decision Making Theory and Cognitive Science

Author

Asano, Masanari, Khrennikov, Andrei, Ohya, Masanori, Tanaka, Yoshiharu, Yamato, Ichiro, Asano, Masanari, Khrennikov, Andrei, Ohya, Masanori, Tanaka, Yoshiharu, and Yamato, Ichiro

Published

2015

45. Bistable perception of ambiguous images: simple Arrhenius model.

Author

Meilikhov, E. Z. and Farzetdinova, R. M.

Abstract

Watching an ambiguous image leads to the bistability of its perception, that randomly oscillates between two possible interpretations. The relevant evolution of the neuron system is usually described with the equation of its "movement" over the nonuniform energy landscape under the action of the stochastic force, corresponding to noise perturbations. We utilize the alternative (and simpler) approach suggesting that the system is in the quasi-stationary state being described by the Arrhenius equation. The latter, in fact, determines the probability of the dynamical variation of the image being percepted (for example, the left Necker cube ↔ the right Necker cube) along one scenario or another. Probabilities of transitions from one perception to another are defined by barriers detaching corresponding wells of the energy landscape, and the relative value of the noise (analog of temperature) influencing this process. The mean noise value could be estimated from experimental data. The model predicts logarithmic dependence of the perception hysteresis width on the period of cyclic sweeping the parameter, controlling the perception (for instance, the contrast of the presented object). It agrees with the experiment and allows to estimate the time interval between two various perceptions. [ABSTRACT FROM AUTHOR]

Published

2019

46. Assessing Field Dependence–Independence Cognitive Abilities Through EEG-Based Bistable Perception Processing.

Author

Farmaki, Cristina, Sakkalis, Vangelis, Loesche, Frank, and Nisiforou, Efi A.

Subjects

COGNITIVE ability, SENSORY perception, COGNITIVE styles, VISUAL fields, GROUP rights, ELECTRODES

Abstract

Field Dependence–Independence (FDI) is a widely studied dimension of cognitive styles designed to measure an individual's ability to identify embedded parts of an organized visual field as entities separate from that given field. The research aims to determine whether the brain activity features that are considered to be perceptual switching indicators could serve as robust features, differentiating Field-Dependent (FD) from Field-Independent (FI) participants. Previous research suggests that various features derived from event related potentials (ERP) and frequency features are associated with the perceptual reversal occurring during the observation of a bistable image. In this study, we combined these features in the context of a different experimental scheme using ambiguous and unambiguous stimuli during participants' perceptual observations. We assessed the participants' FD-I classification with the use of the Hidden Figures Test (HFT). Results show that the peak amplitude of the frontoparietal positivity, the late positive deflection in frontal and parietal areas, is higher for the FD group at specific locations of the left lobe, whereas it occurs later for the FD group at the central and occipital electrodes. Additionally, the FD group exhibits higher levels of gamma power before stimulus onset at channel TP10 and higher gamma power during reversal at the right centroparietal electrodes (T8, CP6, and TP10). The peak amplitude of the reversal positivity, the positive deflection during the reversal, is higher for the FD group at the rear right lobe (P4). [ABSTRACT FROM AUTHOR]

Published

2019

47. Neural Signatures of Auditory Perceptual Bistability Revealed by Large-Scale Human Intracranial Recordings.

Author

Curtu, Rodica, Xiayi Wang, Brunton, Bingni W., and Nourski, Kirill V.

Subjects

*AUDITORY evoked response, *AUDITORY cortex, *STATISTICS

Abstract

A key challenge in neuroscience is understanding how sensory stimuli give rise to perception, especially when the process is supported by neural activity from an extended network of brain areas. Perception is inherently subjective, so interrogating its neural signatures requires, ideally, a combination of three factors: (1) behavioral tasks that separate stimulus-driven activity from perception per se; (2) human subjects who self-report their percepts while performing those tasks; and (3) concurrent neural recordings acquired at high spatial and temporal resolution. In this study, we analyzed human electrocorticographic recordings obtained during an auditory task which supported mutually exclusive perceptual interpretations. Eight neurosurgical patients (5 male; 3 female) listened to sequences of repeated triplets where tones were separated in frequency by several semitones. Subjects reported spontaneous alternations between two auditory perceptual states, 1-stream and 2-stream, by pressing a button. We compared averaged auditory evoked potentials (AEPs) associated with 1-stream and 2-stream percepts and identified significant differences between them in primary and nonprimary auditory cortex, surrounding auditory-related temporoparietal cortex, and frontal areas. We developed classifiers to identify spatial maps of percept-related differences in the AEP, corroborating findings from statistical analysis. We used one-dimensional embedding spaces to perform the group-level analysis. Our data illustrate exemplar high temporal resolution AEP waveforms in auditory core region; explain inconsistencies in perceptual effects within auditory cortex, reported across noninvasive studies of streaming of triplets; show percept-related changes in frontoparietal areas previously highlighted by studies that focused on perceptual transitions; and demonstrate that auditory cortex encodes maintenance of percepts and switches between them. [ABSTRACT FROM AUTHOR]

Published

2019

48. Frequency of alpha oscillation predicts individual differences in perceptual stability during binocular rivalry.

Author

Katyal, Sucharit, He, Sheng, He, Bin, and Engel, Stephen A.

Abstract

When ambiguous visual stimuli have multiple interpretations, human perception can alternate between them, producing perceptual multistability. There is a large variation between individuals in how long stable percepts endure, on average, between switches, but the underlying neural basis of this individual difference in perceptual dynamics remains obscure. Here, we show that in one widely studied multistable paradigm–binocular rivalry–perceptual stability in individuals is predicted by the frequency of their neural oscillations within the alpha range (7–13 Hz). Our results suggest revising models of rivalry to incorporate effects of neural oscillations on perceptual alternations, and raise the possibility that a common factor may influence dynamics in many neural processes. [ABSTRACT FROM AUTHOR]

Published

2019

49. Slower and Less Variable Binocular Rivalry Rates in Patients With Bipolar Disorder, OCD, Major Depression, and Schizophrenia.

Author

Ye, Xing, Zhu, Ruo-Lin, Zhou, Xiao-Qin, He, Sheng, and Wang, Kai

Subjects

BINOCULAR rivalry, BIPOLAR disorder, OBSESSIVE-compulsive disorder, MENTAL depression, SCHIZOPHRENIA

Abstract

When two different images are presented to the two eyes dichoptically, observers usually experience a perceptual alternation between the two images. This phenomenon, known as binocular rivalry, has been used as a powerful tool to investigate mechanisms of visual awareness. It was also found that the rates of perceptual alternation are slower in patients with bipolar disorder than in healthy controls (Pettigrew and Miller, 1998; Miller et al., 2003). To investigate the broader clinical relevance of binocular rivalry in psychiatric disorders, we measured the perceptual alternation rates during rivalry in healthy controls (n = 39) and in patients with different types of psychiatric disorders, including bipolar disorder type I (BD, n = 28), obsessive–compulsive disorder (OCD, n = 22), major depression (MD, n = 50), schizophrenia (SCZ, n = 44), and first-degree relatives (FDRs) of SCZ patients (n = 32). Participants viewed competing red–green images on a computer monitor through red–green anaglyph glasses and pressed buttons to record their perceptual alternations. The distributions of the rivalry rates were well described by a lognormal function in all groups. Critically, the median rate of perceptual alternation was 0.27 Hz for BD patients, 0.26 Hz for the OCD patients, 0.25 Hz for the MD patients, and 0.23 Hz and 0.27 Hz for the SCZ patients and their FDRs, respectively. All of which were significantly slower than the rate of 0.41 Hz obtained for the healthy controls, suggesting there may be shared genotypes between these different disorders. While rivalry alternations were generally slower in different types of psychiatric disorders compared to healthy controls, adding variance of rivalry rates in the analysis helped to partially separate among the different patient groups. Our results suggest that the slowing of binocular rivalry is likely due to certain common factors among the patient groups, but more subtle differences between different patient groups could be revealed when additional properties of rivalry dynamics are considered. [ABSTRACT FROM AUTHOR]

Published

2019

50. Comparing the terrain reversal effect in satellite images and in shaded relief maps: an examination of the effects of color and texture on 3D shape perception from shading.

Author

Çöltekin, Arzu and Biland, Julien

Subjects

RELIEF models, FORM perception, REMOTE-sensing images, OPTICAL illusions, COLORS, TEXTURES

Abstract

Terrain reversal effect (TRE) causes reversed 3D shape perception in satellite images and shaded relief maps (SRMs), and introduces difficulties in identifying landforms such as valleys and ridges. With this paper, in a controlled laboratory experiment, we compare how well 27 participants could identify valleys and ridges over 33 locations using SRMs, color satellite images and grayscale satellite images. The main depth cue is shadow both in vertical-view images and SRMs. However, the presence of texture and color in images also affect 3D shape perception. All our participants experience the illusion strongly: with the SRMs, it is very severe (2% accuracy), with grayscale images low but considerably better than SRMs (17.6% accuracy), and slightly worse with color imagery (15.3% accuracy). These differences between SRMs and imagery suggest that the participants who are able to bypass the illusion consciously or subconsciously interpret the photographic information. We support this observation further with a cue-strength analysis. Furthermore, we provide exploratory analyses of the effects of expertise, global convexity bias, and bistable perception. Our original empirical observations serve towards a better understanding of this visual illusion, and contribute towards nuanced and appropriate solutions to correcting for TRE differently for satellite images and SRMs. [ABSTRACT FROM AUTHOR]

Published

2019