Visual gravity contributes to subjective first-person perspective

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Abstract

A fundamental component of conscious experience involves a first-person perspective (1PP), characterized by the experience of being a subject and of being directed at the world. Extending earlier work on multisensory perceptual mechanisms of 1PP, we here asked whether the experienced direction of the 1PP (i.e. the spatial direction of subjective experience of the world) depends on visual-tactile-vestibular conflicts, including the direction of gravity. Sixteen healthy subjects in supine position received visuo-tactile synchronous or asynchronous stroking to induce a full-body illusion. In the critical manipulation, we presented gravitational visual object motion directed toward or away from the participant’s body and thus congruent or incongruent with respect to the direction of vestibular and somatosensory gravitational cues. The results showed that multisensory gravitational conflict induced within-subject changes of the experienced direction of the 1PP that depended on the direction of visual gravitational cues. Participants experienced more often a downward direction of their 1PP (incongruent with respect to the participant’s physical body posture) when visual object motion was directed away rather than towards the participant’s body. These downward-directed 1PP experiences positively correlated with measures of elevated self-location. Together, these results show that visual gravitational cues contribute to the experienced direction of the 1PP, defining the subjective location and perspective from where humans experience to perceive the world.

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Using confidence intervals in within-subject designs.

Geoffrey Loftus, Michael Masson (1994)

We argue that to best comprehend many data sets, plotting judiciously selected sample statistics with associated confidence intervals can usefully supplement, or even replace, standard hypothesis-testing procedures. We note that most social science statistics textbooks limit discussion of confidence intervals to their use in between-subject designs. Our central purpose in this article is to describe how to compute an analogous confidence interval that can be used in within-subject designs. This confidence interval rests on the reasoning that because between-subject variance typically plays no role in statistical analyses of within-subject designs, it can legitimately be ignored; hence, an appropriate confidence interval can be based on the standard within-subject error term-that is, on the variability due to the subject × condition interaction. Computation of such a confidence interval is simple and is embodied in Equation 2 on p. 482 of this article. This confidence interval has two useful properties. First, it is based on the same error term as is the corresponding analysis of variance, and hence leads to comparable conclusions. Second, it is related by a known factor (√2) to a confidence interval of the difference between sample means; accordingly, it can be used to infer the faith one can put in some pattern of sample means as a reflection of the underlying pattern of population means. These two properties correspond to analogous properties of the more widely used between-subject confidence interval.

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Vestibular system: the many facets of a multimodal sense.

Dora E. Angelaki, Kathleen Cullen (2008)

Elegant sensory structures in the inner ear have evolved to measure head motion. These vestibular receptors consist of highly conserved semicircular canals and otolith organs. Unlike other senses, vestibular information in the central nervous system becomes immediately multisensory and multimodal. There is no overt, readily recognizable conscious sensation from these organs, yet vestibular signals contribute to a surprising range of brain functions, from the most automatic reflexes to spatial perception and motor coordination. Critical to these diverse, multimodal functions are multiple computationally intriguing levels of processing. For example, the need for multisensory integration necessitates vestibular representations in multiple reference frames. Proprioceptive-vestibular interactions, coupled with corollary discharge of a motor plan, allow the brain to distinguish actively generated from passive head movements. Finally, nonlinear interactions between otolith and canal signals allow the vestibular system to function as an inertial sensor and contribute critically to both navigation and spatial orientation.

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Multisensory mechanisms in temporo-parietal cortex support self-location and first-person perspective.

Olaf Blanke, Eleonora Fornari, Lukas Heydrich … (2011)

Self-consciousness has mostly been approached by philosophical enquiry and not by empirical neuroscientific study, leading to an overabundance of diverging theories and an absence of data-driven theories. Using robotic technology, we achieved specific bodily conflicts and induced predictable changes in a fundamental aspect of self-consciousness by altering where healthy subjects experienced themselves to be (self-location). Functional magnetic resonance imaging revealed that temporo-parietal junction (TPJ) activity reflected experimental changes in self-location that also depended on the first-person perspective due to visuo-tactile and visuo-vestibular conflicts. Moreover, in a large lesion analysis study of neurological patients with a well-defined state of abnormal self-location, brain damage was also localized at TPJ, providing causal evidence that TPJ encodes self-location. Our findings reveal that multisensory integration at the TPJ reflects one of the most fundamental subjective feelings of humans: the feeling of being an entity localized at a position in space and perceiving the world from this position and perspective. Copyright © 2011 Elsevier Inc. All rights reserved.

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Author and article information

Contributors

Christian Pfeiffer:

Comment :

^†Christian Pfeiffer, http://orcid.org/0000-0001-7825-7701.

Comment :

^‡These authors are joint first authors.

Petr Grivaz:

Comment :

^‡These authors are joint first authors.

Journal

Journal ID (nlm-ta): Neurosci Conscious

Journal ID (iso-abbrev): Neurosci Conscious

Journal ID (publisher-id): nconsc

Journal ID (hwp): nconsc

Title: Neuroscience of Consciousness

Publisher: Oxford University Press

ISSN (Electronic): 2057-2107

Publication date Collection: 2016

Publication date (Electronic): 09 May 2016

Publication date PMC-release: 09 May 2016

Volume: 2016

Issue: 1

Electronic Location Identifier: niw006

Affiliations

[ ¹ ]Center for Neuroprosthethics, School of Life Sciences, Ecole Polytechnique Fédérale de Lausanne (EPFL), Switzerland;

[ ² ]Laboratory of Cognitive Neuroscience, School of Life Sciences, Ecole Polytechnique Fédérale de Lausanne (EPFL), Switzerland;

[ ³ ]Laboratoire de Recherche en Neuroimagerie (LREN), Department of Clinical Neuroscience, Lausanne University and University Hospital, Switzerland;

[ ⁴ ]Department of Neurology, University Hospital Geneva, Switzerland

Author notes

*Correspondence address. Center for Neuroprosthetics, Ecole Polytechnique Fédérale de Lausanne (EPFL), 9, chemin des Mines, 1202 Geneva, Switzerland. Tel: +41 (0)21 693 69 21; Fax: +41 (0)21 693 69 22; E-mail: olaf.blanke@ 123456epfl.ch

^†Christian Pfeiffer, http://orcid.org/0000-0001-7825-7701.

^‡These authors are joint first authors.

Article

Publisher ID: niw006

DOI: 10.1093/nc/niw006

PMC ID: 6084587

PubMed ID: 30109127

SO-VID: 19617989-5ebe-4813-8349-8634870c8d9e

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This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License ( http://creativecommons.org/licenses/by-nc/4.0/), which permits non-commercial re-use, distribution, and reproduction in any medium, provided the original work is properly cited. For commercial re-use, please contact journals.permissions@oup.com

Visual gravity contributes to subjective first-person perspective

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Gravitational Waves

Most cited references 38

Using confidence intervals in within-subject designs.

Vestibular system: the many facets of a multimodal sense.

Multisensory mechanisms in temporo-parietal cortex support self-location and first-person perspective.

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