Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/brill/gravity-in-the-brain-as-a-reference-for-space-and-time-perception-a8x0vOe1KL
References (157)
-
M. Ahrens, M. Sahani (2011)
Observers Exploit Stochastic Models of Sensory Change to Help Judge the Passage of TimeCurrent Biology, 21
-
H. Haes (1970)
Stability of apparent vertical and ocular countertorsion as a function of lateral tiltAttention Perception & Psychophysics, 8
-
J. McIntyre, P. Senot, P. Prévost, M. Zago, F. Lacquaniti, A. Berthoz (2003)
The use of on-line perceptual invariants versus cognitive internal models for the predictive control of movement and actionFirst International IEEE EMBS Conference on Neural Engineering, 2003. Conference Proceedings.
-
M. Pavlova, A. Sokolov (2000)
Orientation specificity in biological motion perceptionPerception & Psychophysics, 62
-
H. Aubert (1861)
Eine scheinbare bedeutende Drehung von Objecten bei Neigung des Kopfes nach rechts oder linksArchiv für pathologische Anatomie und Physiologie und für klinische Medicin, 20
-
M. Barnett-Cowan, L. Harris (2008)
Perceived self-orientation in allocentric and egocentric space: Effects of visual and physical tilt on saccadic and tactile measuresBrain Research, 1242
-
A. Nesti, M. Barnett-Cowan, P. MacNeilage, H. Bülthoff (2013)
Human sensitivity to vertical self-motionExperimental Brain Research, 232
-
M. Zago, M. Carrozzo, A. Moscatelli, F. Lacquaniti (2011)
TIME, OBSERVATION, MOVEMENT, 4
-
M. Jenkin, R. Dyde, H. Jenkin, J. Zacher, L. Harris (2011)
Perceptual upright: the relative effectiveness of dynamic and static images under different gravity States.Seeing and perceiving, 24 1
-
M. Zago, G. Bosco, Vincenzo Maffei, M. Iosa, Y. Ivanenko, F. Lacquaniti (2004)
Internal models of target motion: expected dynamics overrides measured kinematics in timing manual interceptions.Journal of neurophysiology, 91 4
-
M. Zago, F. Lacquaniti (2005)
Visual perception and interception of falling objects: a review of evidence for an internal model of gravityJournal of Neural Engineering, 2
-
N. Hagura, R. Kanai, Guido Orgs, P. Haggard (2012)
Ready steady slow: action preparation slows the subjective passage of timeProceedings of the Royal Society B: Biological Sciences, 279
-
M. Grealy, C. Craig, C. Bourdin, S. Coleman (2004)
Judging Time Intervals Using a Model of Perceptuo-Motor ControlJournal of Cognitive Neuroscience, 16
-
R. Dyde, M. Jenkin, L. Harris (2006)
The subjective visual vertical and the perceptual uprightExperimental Brain Research, 173
-
A. Kheradmand, A. Lasker, D. Zee (2015)
Transcranial magnetic stimulation (TMS) of the supramarginal gyrus: a window to perception of upright.Cerebral cortex, 25 3
-
Yi-Huang Su (2014)
Peak velocity as a cue in audiovisual synchrony perception of rhythmic stimuliCognition, 131
-
Dorita Chang, L. Harris, N. Troje (2010)
Frames of reference for biological motion and face perception.Journal of vision, 10 6
-
Nora Preuss, L. Harris, F. Mast (2013)
Allocentric visual cues influence mental transformation of bodies.Journal of vision, 13 12
-
Eero Simoncelli, B. Olshausen (2001)
Natural image statistics and neural representation.Annual review of neuroscience, 24
-
G. Clément, M. Reschke (2009)
Neuroscience in SpaceAmerican Journal of Neuroradiology, 30
-
W. Miller, Vincenzo Maffei, G. Bosco, M. Iosa, M. Zago, E. Macaluso, F. Lacquaniti (2008)
Vestibular nuclei and cerebellum put visual gravitational motion in context.Journal of neurophysiology, 99 4
-
R. Shepard (1984)
Ecological constraints on internal representation: resonant kinematics of perceiving, imagining, thinking, and dreaming.Psychological review, 91 4
-
Barbara Scaleia, F. Lacquaniti, M. Zago (2014)
Neural Extrapolation of Motion for a Ball Rolling Down an Inclined PlanePLoS ONE, 9
-
G. Bosco, Sergio Monache, F. Lacquaniti (2012)
Catching What We Can't See: Manual Interception of Occluded Fly-Ball TrajectoriesPLoS ONE, 7
-
M. Vrijer, W. Medendorp, J. Gisbergen, D. Vrijer, Medendorp Wp, Van Gisbergen, Ja Shared (2008)
Shared computational mechanism for tilt compensation accounts for biased verticality percepts in motion and pattern vision.Journal of neurophysiology, 99 2
-
Adam Sanborn, Vikash Mansinghka, T. Griffiths (2013)
Reconciling intuitive physics and Newtonian mechanics for colliding objects.Psychological review, 120 2
-
N. Port, Daeyeol Lee, P. Dassonville, A. Georgopoulos (1997)
Manual interception of moving targets I. Performance and movement initiationExperimental Brain Research, 116
-
K. Ball, R. Sekuler (1987)
Direction-specific improvement in motion discriminationVision Research, 27
-
Vincenzo Maffei, E. Macaluso, I. Indovina, G. Orban, F. Lacquaniti (2010)
Processing of targets in smooth or apparent motion along the vertical in the human brain: an fMRI study.Journal of neurophysiology, 103 1
-
Sae Kaneko, I. Murakami (2009)
Perceived duration of visual motion increases with speed.Journal of vision, 9 7
-
J. Gibson (1952)
The relation between visual and postural determinants of the phenomenal vertical.Psychological review, 59 5
-
J. Moore, Sukhvinder Obhi (2012)
Intentional binding and the sense of agency: A reviewConsciousness and Cognition, 21
-
P. Fraisse (1963)
The psychology of time -
D. Angelaki, M. McHenry, J. Dickman, S. Newlands, B. Hess, D. Angelaki (1999)
Computation of Inertial Motion: Neural Strategies to Resolve Ambiguous Otolith InformationThe Journal of Neuroscience, 19
-
R. Klatzky (1998)
Allocentric and Egocentric Spatial Representations: Definitions, Distinctions, and Interconnections -
M. Carrozzo, A. Moscatelli, F. Lacquaniti (2010)
Tempo Rubato : Animacy Speeds Up Time in the BrainPLoS ONE, 5
-
J. Gibson (1979)
The Ecological Approach to Visual Perception -
J. Gibson, Smith College, O. Mowrer (1938)
Determinants of the perceived vertical and horizontal.Psychological Review, 45
-
G. Bosco, M. Carrozzo, F. Lacquaniti (2008)
Contributions of the Human Temporoparietal Junction and MT/V5+ to the Timing of Interception Revealed by Transcranial Magnetic StimulationThe Journal of Neuroscience, 28
-
S. Sumi (1984)
Upside-down Presentation of the Johansson Moving Light-Spot PatternPerception, 13
-
Vincenzo Maffei, I. Indovina, E. Macaluso, Y. Ivanenko, G. Orban, F. Lacquaniti (2015)
Visual gravity cues in the interpretation of biological movements: neural correlates in humansNeuroImage, 104
-
S. Appelle (1972)
Perception and discrimination as a function of stimulus orientation: the "oblique effect" in man and animals.Psychological bulletin, 78 4
-
M. Wei, G. DeAngelis, D. Angelaki (2003)
Do Visual Cues Contribute to the Neural Estimate of Viewing Distance Used by the Oculomotor System?The Journal of Neuroscience, 23
-
R. Shepard (1994)
Perceptual-cognitive universals as reflections of the worldPsychonomic Bulletin & Review, 1
-
Sergio Monache, F. Lacquaniti, G. Bosco (2014)
Eye movements and manual interception of ballistic trajectories: effects of law of motion perturbations and occlusionsExperimental Brain Research, 233
-
J. Calderone, M. Kaiser (1989)
Visual acceleration detection: Effect of sign and motion orientationPerception & Psychophysics, 45
-
C. Lopez, Christelle Bachofner, M. Mercier, O. Blanke (2009)
Gravity and observer's body orientation influence the visual perception of human body postures.Journal of vision, 9 5
-
I. Indovina, Vincenzo Maffei, F. Lacquaniti (2013)
Anticipating the effects of visual gravity during simulated self-motion: estimates of time-to-passage along vertical and horizontal pathsExperimental Brain Research, 229
-
G. Bingham, R. Schmidt, L. Rosenblum (1995)
Dynamics and the orientation of kinematic forms in visual event recognition.Journal of experimental psychology. Human perception and performance, 21 6
-
S. Runeson (1974)
Constant velocity — Not perceived as suchPsychological Research, 37
-
Dorita Chang, N. Troje (2009)
Acceleration carries the local inversion effect in biological motion perception.Journal of vision, 9 1
-
A. Mizuno, Y. Ohta (2006)
A change of the leading player in flow Visualization techniqueJournal of Visualization, 9
-
I. Howard (1982)
Human visual orientation -
Barbara Scaleia, M. Zago, A. Moscatelli, F. Lacquaniti, P. Viviani (2014)
Implied Dynamics Biases the Visual Perception of VelocityPLoS ONE, 9
-
R. Kanai, C. Paffen, Hinze Hogendoorn, Frans Verstraten (2006)
Time dilation in dynamic visual display.Journal of vision, 6 12
-
C. Mann, N. BERTHELOT-BERRY, H. Dauterive (1949)
The perception of the vertical; visual and non-labyrinthine cues.Journal of experimental psychology, 39 4
-
Francesco Lacquaniti, Claudio Maioli (1989)
Adaptation to suppression of visual information during catching, 9
-
Mattia D'Andola, B. Cesqui, A. Portone, Laure Fernandes, F. Lacquaniti, A. d’Avella (2013)
Spatiotemporal characteristics of muscle patterns for ball catchingFrontiers in Computational Neuroscience, 7
-
P. Fuller, C. Fuller (2006)
Genetic Evidence for a Neurovestibular Influence on the Mammalian Circadian PacemakerJournal of Biological Rhythms, 21
-
Andrea Frick, S. Huber, Ulf-Dietrich Reips, H. Krist (2005)
Task-Specific Knowledge of the Law of Pendulum Motion in Children and AdultsSwiss Journal of Psychology, 64
-
P. Haggard, Sam Clark, J. Kalogeras (2002)
Voluntary action and conscious awarenessNature Neuroscience, 5
-
Scott Brown (1995)
Time, change, and motion: The effects of stimulus movement on temporal perceptionPerception & Psychophysics, 57
-
M. Zago, Barbara Scaleia, W. Miller, F. Lacquaniti (2011)
Coherence of structural visual cues and pictorial gravity paves the way for interceptive actions.Journal of vision, 11 10
-
L. Harris, R. Herpers, T. Hofhammer, M. Jenkin (2014)
How Much Gravity Is Needed to Establish the Perceptual Upright?PLoS ONE, 9
-
D. Eagleman, P. Tse, D. Buonomano, P. Janssen, A. Nobre, A. Holcombe (2005)
Time and the Brain: How Subjective Time Relates to Neural Time -
D. Purves, B. Monson, Janani Sundararajan, William Wojtach (2014)
How biological vision succeeds in the physical worldProceedings of the National Academy of Sciences, 111
-
Guido Orgs, Louise Kirsch, P. Haggard (2013)
Time perception during apparent biological motion reflects subjective speed of movement, not objective rate of visual stimulationExperimental Brain Research, 227
-
M. Barnett-Cowan, H. Jenkin, R. Dyde, M. Jenkin, L. Harris (2013)
Asymmetrical representation of body orientation.Journal of vision, 13 2
-
B. Cesqui, A. d’Avella, A. Portone, F. Lacquaniti (2012)
Catching a Ball at the Right Time and Place: Individual Factors MatterPLoS ONE, 7
-
F. Mast, T. Jarchow (1996)
Perceived body position and the visual horizontalBrain Research Bulletin, 40
-
D. Merfeld, L. Zupan, R. Peterka (1999)
Humans use internal models to estimate gravity and linear accelerationNature, 398
-
J. Pittenger (1990)
Detection of Violations of the Law of Pendulum Motion: Observers' Sensitivity to the Relation Between Period and LengthEcological Psychology, 2
-
I. Indovina, Vincenzo Maffei, Karl Pauwels, E. Macaluso, G. Orban, F. Lacquaniti (2013)
Simulated self-motion in a visual gravity field: Sensitivity to vertical and horizontal heading in the human brainNeuroImage, 71
-
R. Yin (1969)
Looking at Upside-down FacesJournal of Experimental Psychology, 81
-
P. MacNeilage, M. Banks, D. Berger, H. Bülthoff (2007)
A Bayesian model of the disambiguation of gravitoinertial force by visual cuesExperimental Brain Research, 179
-
A. Georgopoulos (2002)
Cognitive motor control: spatial and temporal aspectsCurrent Opinion in Neurobiology, 12
-
V. Pettorossi, D. Bambagioni, A. Bronstein, M. Gresty (1998)
Assessment of the perception of verticality and horizontality with self-paced saccadesExperimental Brain Research, 121
-
Antonija Mijatović, B. Scaleia, N. Mercuri, F. Lacquaniti, M. Zago (2014)
Familiar trajectories facilitate the interpretation of physical forces when intercepting a moving targetExperimental Brain Research, 232
-
P. Senot, M. Zago, Anne Séac’h, M. Zaoui, A. Berthoz, F. Lacquaniti, J. McIntyre (2012)
When Up Is Down in 0g: How Gravity Sensing Affects the Timing of Interceptive ActionsThe Journal of Neuroscience, 32
-
J. Laurens, H. Meng, D. Angelaki (2013)
Neural Representation of Orientation Relative to Gravity in the Macaque CerebellumNeuron, 80
-
R. Vingerhoets, M. Vrijer, J. Gisbergen, W. Medendorp, Vingerhoets Raa, Van Gisbergen, Medendorp (2009)
Fusion of visual and vestibular tilt cues in the perception of visual vertical.Journal of neurophysiology, 101 3
-
J. Ventre-Dominey (2014)
Vestibular function in the temporal and parietal cortex: distinct velocity and inertial processing pathwaysFrontiers in Integrative Neuroscience, 8
-
Bruce Hansen, E. Essock (2004)
A horizontal bias in human visual processing of orientation and its correspondence to the structural components of natural scenes.Journal of vision, 4 12
-
Francesco Lacquaniti, Claudio Maioli (1989)
The role of preparation in tuning anticipatory and reflex responses during catching, 9
-
C. Reed, V. Stone, Senia Bozova, J. Tanaka (2003)
The Body-Inversion EffectPsychological Science, 14
-
N. Troje (2003)
Reference Frames for Orientation Anisotropies in Face Recognition and Biological-Motion PerceptionPerception, 32
-
S. Bortolami, A. Pierobon, P. DiZio, J. Lackner (2006)
Localization of the subjective vertical during roll, pitch, and recumbent yaw body tiltExperimental Brain Research, 173
-
J. Paillard (1991)
Motor and representational framing of space -
W. Köhler (1940)
Dynamics in Psychology -
K. Adolph, Marion Eppler (1998)
Development of Visually Guided LocomotionEcological Psychology, 10
-
S. Glasauer (1992)
Interaction of Semicircular Canals and Otoliths in the Processing Structure of the Subjective ZenithAnnals of the New York Academy of Sciences, 656
-
N. Bischof (1974)
Optic-Vestibular Orientation to the Vertical -
K. Winkel, G. Clément, E. Groen, P. Werkhoven (2012)
The perception of verticality in lunar and Martian gravity conditionsNeuroscience Letters, 529
-
PA Lewis, RC Miall (2003)
Distinct systems for automatic and cognitively controlled time measurement: evidence from neuroimagingCurrent Opinion in Neurobiology, 13
-
D. Angelaki, E. Klier, L. Snyder (2009)
A Vestibular Sensation: Probabilistic Approaches to Spatial PerceptionNeuron, 64
-
T. Brandt, M. Dieterich (1999)
The Vestibular Cortex: Its Locations, Functions, and DisordersAnnals of the New York Academy of Sciences, 871
-
L. Harris, M. Jenkin, R. Dyde (2012)
THE PERCEPTION OF UPRIGHT UNDER LUNAR GRAVITY -
A. Brouwer, E. Brenner, J. Smeets (2001)
Perception of acceleration with short presentation times: Can acceleration be used in interception?Perception & Psychophysics, 64
-
P. Thompson (1980)
Margaret Thatcher: A New IllusionPerception, 9
-
N. Troje, C. Westhoff (2006)
The Inversion Effect in Biological Motion Perception: Evidence for a “Life Detector”?Current Biology, 16
-
H. Jenkin, M. Jenkin, R. Dyde, L. Harris (2004)
Shape-from-Shading Depends on Visual, Gravitational, and Body-Orientation CuesPerception, 33
-
P. Werkhoven, H. Snippe, Toet Alexander (1992)
Visual processing of optic accelerationVision Research, 32
-
R. Kaptein, J. Gisbergen (2004)
Interpretation of a discontinuity in the sense of verticality at large body tilt.Journal of neurophysiology, 91 5
-
S. Bense, T. Stephan, T. Yousry, T. Brandt, Marianne Dieterich (2001)
Multisensory cortical signal increases and decreases during vestibular galvanic stimulation (fMRI).Journal of neurophysiology, 85 2
-
S. Nishiike, Y. Sakata (2002)
The Vestibular CortexEquilibrium Research, 61
-
A. Berthoz, G. Weiss (2000)
The Brain’s Sense of Movement -
P. Senot, P. Prévost, J. McIntyre (2003)
Estimating time to contact and impact velocity when catching an accelerating object with the hand.Journal of experimental psychology. Human perception and performance, 29 1
-
M. Zago, J. McIntyre, P. Senot, F. Lacquaniti (2008)
Internal models and prediction of visual gravitational motionVision Research, 48
-
Hugo Merchant, D. Harrington, W. Meck (2013)
Neural basis of the perception and estimation of time.Annual review of neuroscience, 36
-
M. Zago, G. Bosco, Vincenzo Maffei, M. Iosa, Y. Ivanenko, F. Lacquaniti (2005)
Fast adaptation of the internal model of gravity for manual interceptions: evidence for event-dependent learning.Journal of neurophysiology, 93 2
-
W. Matthews (2011)
How do changes in speed affect the perception of duration?Journal of experimental psychology. Human perception and performance, 37 5
-
J. Gómez, Joan López-Moliner (2013)
Synergies between optical and physical variables in intercepting parabolic targetsFrontiers in Behavioral Neuroscience, 7
-
F. Lacquaniti, G. Bosco, Silvio Gravano, I. Indovina, Barbara Scaleia, Vincenzo Maffei, M. Zago (2014)
Multisensory Integration and Internal Models for Sensing Gravity Effects in PrimatesBioMed Research International, 2014
-
A. Zaidel, W. Ma, D. Angelaki (2013)
Supervised Calibration Relies on the Multisensory PerceptNeuron, 80
-
S. Mirsky (2001)
Charmed, I'm Sure.Scientific American, 284
-
Marcus Pearce, Daniel Müllensiefen (2006)
Sweet Anticipation : Music and -
T. Baumgartner, Dominique Speck, Denise Wettstein, O. Masnari, Gian Beeli, L. Jäncke (2008)
Feeling Present in Arousing Virtual Reality Worlds: Prefrontal Brain Regions Differentially Orchestrate Presence Experience in Adults and ChildrenFrontiers in Human Neuroscience, 2
-
P. Battaglia, Jessica Hamrick, J. Tenenbaum (2013)
Simulation as an engine of physical scene understandingProceedings of the National Academy of Sciences, 110
-
M. Zago, F. Lacquaniti (2005)
Cognitive, perceptual and action-oriented representations of falling objectsNeuropsychologia, 43
-
Gabriel Diaz, J. Cooper, C. Rothkopf, M. Hayhoe (2013)
Saccades to future ball location reveal memory-based prediction in a virtual-reality interception task.Journal of vision, 13 1
-
P. Davidson, D. Wolpert (2005)
Widespread access to predictive models in the motor system: a short reviewJournal of Neural Engineering, 2
-
M. Zago, F. Lacquaniti (2005)
Internal model of gravity for hand interception: parametric adaptation to zero-gravity visual targets on Earth.Journal of neurophysiology, 94 2
-
M. Zago, J. McIntyre, P. Senot, F. Lacquaniti (2009)
Visuo-motor coordination and internal models for object interceptionExperimental Brain Research, 192
-
M. Kaiser, H. Hecht (1995)
Time-to-passage judgments in nonconstant optical flow fieldsPerception & Psychophysics, 57
-
M. Barnett-Cowan (2013)
Vestibular perception is slow: a review.Multisensory research, 26 4
-
T. Shipley (2003)
The Effect of Object and Event Orientation on Perception of Biological MotionPsychological Science, 14
-
S. Huber, H. Krist, S. Huber (2004)
When is the ball going to hit the ground? Duration estimates, eye movements, and mental imagery of object motion.Journal of experimental psychology. Human perception and performance, 30 3
-
M. Barnett-Cowan, T. Meilinger, M. Vidal, H. Teufel, H. Bülthoff (2012)
MPI CyberMotion Simulator: Implementation of a Novel Motion Simulator to Investigate Multisensory Path Integration in Three DimensionsJournal of Visualized Experiments : JoVE
-
Hartwig Distler, K. Gegenfurtner, H. Veen, M. Hawken (1997)
Velocity Constancy in a Virtual Reality EnvironmentPerception, 29
-
F. Lacquaniti, M. Carrozzo, A. d’Avella, B. Scaleia, A. Moscatelli, M. Zago (2014)
How long did it last? You would better ask a humanFrontiers in Neurorobotics, 8
-
K. Kushiro, G. Taga, Hama Watanabe (2007)
Frame of reference for visual perception in young infants during change of body positionExperimental Brain Research, 183
-
L. Harris, M. Jenkin, R. Dyde, H. Jenkin (2011)
Enhancing visual cues to orientation: suggestions for space travelers and the elderly.Progress in brain research, 191
-
C. Buhusi, W. Meck (2005)
What makes us tick? Functional and neural mechanisms of interval timingNature Reviews Neuroscience, 6
-
J. McIntyre, M. Zago, A. Berthoz, F. Lacquaniti (2001)
Does the brain model Newton's laws?Nature Neuroscience, 4
-
F. Lacquaniti, M. Carrozzo, N. Borghese (1993)
The role of vision in tuning anticipatory motor responses of the limbs -
J. Lobmaier, F. Mast (2007)
The Thatcher Illusion: Rotating the Viewer Instead of the PicturePerception, 36
-
D. Angelaki, K. Cullen (2008)
Vestibular system: the many facets of a multimodal sense.Annual review of neuroscience, 31
-
I. Clemens, M. Vrijer, L. Selen, J. Gisbergen, W. Medendorp (2011)
Multisensory Processing in Spatial Orientation: An Inverse Probabilistic ApproachThe Journal of Neuroscience, 31
-
C. Fernández, J. Goldberg (1976)
Physiology of peripheral neurons innervating otolith organs of the squirrel monkey. I. Response to static tilts and to long-duration centrifugal force.Journal of neurophysiology, 39 5
-
S. Asch, H. Witkin (1948)
Studies in space orientation; perception of the upright with displaced visual fields.Journal of experimental psychology, 38 3
-
D. Nguyen, Dong Nguyen, Ramez Malak, J. Leroux, L. Carmant, J. Saint‐Hilaire, N. Giard, P. Cossette, A. Bouthillier (2009)
Revisiting the role of the insula in refractory partial epilepsyEpilepsia, 50
-
P. Dudchenko, E. Wood, Roderick Grieves (2013)
Think local, act global: How do fragmented representations of space allow seamless navigation?Behavioral and Brain Sciences, 36
-
I. Indovina, Vincenzo Maffei, G. Bosco, M. Zago, E. Macaluso, F. Lacquaniti (2005)
Representation of Visual Gravitational Motion in the Human Vestibular CortexScience, 308
-
P. Senot, M. Zago, F. Lacquaniti, J. McIntyre (2005)
Anticipating the effects of gravity when intercepting moving objects: differentiating up and down based on nonvisual cues.Journal of neurophysiology, 94 6
-
F. Lacquaniti, G. Bosco, I. Indovina, Barbara Scaleia, Vincenzo Maffei, A. Moscatelli, M. Zago (2013)
Visual gravitational motion and the vestibular system in humansFrontiers in Integrative Neuroscience, 7
-
D. Eagleman (2004)
Time perception is distorted during slow motion sequences in moviesJournal of Vision, 4
-
M. Mauk, D. Buonomano (2004)
The neural basis of temporal processing.Annual review of neuroscience, 27
-
H. Mittelstaedt (1983)
A new solution to the problem of the subjective verticalNaturwissenschaften, 70
-
G. Bottini, H. Karnath, G. Vallar, R. Sterzi, C. Frith, Richard Frackowiak, E. Paulesu (2001)
Cerebral representations for egocentric space: functional-anatomical evidence from caloric vestibular stimulation and neck vibrationNeuroImage, 13
-
A. Moscatelli, F. Lacquaniti (2011)
The weight of time: gravitational force enhances discrimination of visual motion duration.Journal of vision, 11 4
-
Yaniv Morgenstern, R. Murray, L. Harris (2011)
The human visual system's assumption that light comes from above is weakProceedings of the National Academy of Sciences, 108
-
M. Barnett-Cowan, R. Fleming, Manish Singh, H. Bülthoff (2011)
Perceived Object Stability Depends on Multisensory Estimates of GravityPLoS ONE, 6
-
J. Lackner, P. DiZio (2005)
Vestibular, proprioceptive, and haptic contributions to spatial orientation.Annual review of psychology, 56
-
D. Eagleman (2008)
Human time perception and its illusionsCurrent Opinion in Neurobiology, 18
-
S. Glasauer, H. Mittelstaedt (1998)
Perception of spatial orientation in microgravityBrain Research Reviews, 28
-
E. Brenner, Ben Driesen, J. Smeets (2014)
Precise timing when hitting falling ballsFrontiers in Human Neuroscience, 8
-
Anne Séac’h, P. Senot, J. McIntyre (2010)
Egocentric and allocentric reference frames for catching a falling objectExperimental Brain Research, 201
- Publisher
- Brill
- Copyright
- Copyright 2015 by Koninklijke Brill NV, Leiden, The Netherlands.
- Subject
- Articles
- ISSN
- 2213-4794
- eISSN
- 2213-4808
- DOI
- 10.1163/22134808-00002471
- Publisher site
- See Article on Publisher Site
Abstract
Moving and interacting with the environment require a reference for orientation and a scale for calibration in space and time. There is a wide variety of environmental clues and calibrated frames at different locales, but the reference of gravity is ubiquitous on Earth. The pull of gravity on static objects provides a plummet which, together with the horizontal plane, defines a three-dimensional Cartesian frame for visual images. On the other hand, the gravitational acceleration of falling objects can provide a time-stamp on events, because the motion duration of an object accelerated by gravity over a given path is fixed. Indeed, since ancient times, man has been using plumb bobs for spatial surveying, and water clocks or pendulum clocks for time keeping. Here we review behavioral evidence in favor of the hypothesis that the brain is endowed with mechanisms that exploit the presence of gravity to estimate the spatial orientation and the passage of time. Several visual and non-visual (vestibular, haptic, visceral) cues are merged to estimate the orientation of the visual vertical. However, the relative weight of each cue is not fixed, but depends on the specific task. Next, we show that an internal model of the effects of gravity is combined with multisensory signals to time the interception of falling objects, to time the passage through spatial landmarks during virtual navigation, to assess the duration of a gravitational motion, and to judge the naturalness of periodic motion under gravity.
Journal
Multisensory Research (continuation of Seeing & Perceiving from 2013) – Brill
Published: Jan 1, 2015
Keywords: Internal model; interception; self-motion; microgravity; vestibular; perceived vertical