Make your own free website on Tripod.com

Site principal du Laboratoire Zorved2


Triptyques vidéo récents - Exploration artistique de la vision élargie

Adagio suprématiste (2008) from marc boucher on Vimeo.

RingKingThing (2008) from marc boucher on Vimeo.


  • BIBLIOGRAPHIE GÉNÉRALE, Laboratoire Zorved2
  • 1895-2007
  • GENERAL BIBLIOGRAPHY, Laboratory Zorved2

Luckey, G. W. A. (1895). "Comparative Observations on the Indirect Color Range of Children, Adults, and Adults Trained in Color." The American Journal of Psychology 6(4): 489-504.

Fernald, G. M. (1909). "The Phenomena of Peripheral Vision as Affected by Chromatic and Achromatic Adaptation, with Special Reference to the After-Image." The Journal of Philosophy, Psychology and Scientific Methods 6(15): 398-403.

Day, L. M. (1912). "The Effect of Illumination on Peripheral Vision." The American Journal of Psychology 23(4): 533-578.

Zigler, M. J., B. Cook, et al. (1930). "The Perception of Form in Peripheral Vision." The American Journal of Psychology 42(2): 246-259.

Ferree, C. E., G. Rand, et al. (1933). "An Important Factor in Space Perception in the Peripheral Field of Vision." The American Journal of Psychology 45(2): 228-247.

Howard, R. (1941). "The Artist's Vision." Parnassus 13(5): 169-173.

Berger, C. (1943). "The Problem of Peripheral Visual Acuity." The American Journal of Psychology 56(4): 603-604.

LaGrone, C. W. and B. F. Holland (1943). "Accuracy of Perception in Peripheral Vision in Relation to Dextrality, Intelligence and Reading Ability." The American Journal of Psychology 56(4): 592-598.

Sherman, H. (1944). "The Eye in the Arts." Educational Research Bulletin 23(1): 1-6.

Brown, R. H. (1947). "Complete Spatial Summation in the Peripheral Retina of the Human Eye." The American Journal of Psychology 60(2): 254-259.

Gordon, D. A. (1947). "The Relation between the Thresholds of Form, Motion, and Displacement in Parafoveal and Peripheral Vision at a Scotopic Level of Illumination." The American Journal of Psychology 60(2): 202-225.

Gibson, J. J. (1954). "The Visual Perception of Objective Motion and Subjective Movement." Psychological Review 61(5): 304-14.

Gibson, J. J. (1968). "On the Difference between Perception and Proprioception." Purple Perils of James Gibson, from http://huwi.org/gibson/difference.php.

Gibson, J. J. (1968). "What gives rise to the perception of motion?" Psychological Review 75(4): 335-46.

Bloomer, K. (1975). "The Body Matrix." Journal of Architectural Education, Humanist Issues in Architecture. 29(1): 8-11.

Whiteside, J. A. (1976). "Peripheral Vision in Children and Adults." Child Development 47(1): 290-293.

Longuet-Higgins, H. C. (1986). "Visual Motion Ambiguity " Visual Research 26(1): 181-183.

Hildreth, E. C. and C. Koch (1987). "The Analysis of Visual Motion: From Computational Theory to Neuronal Mechanisms." Annual Review of Neuroscience 10: 477-533.

Papathomas, T. V., A. Gorea, et al. (1991). "Two carriers for motion perception : color and luminance." Vision research 31(11): 1883-1891.

Frigon, J. and A. Delorme (1992). "Roll, pitch, longitudinal and yaw vection visually induced by optical flow in flight simulation conditions." Perceptual and Motor Skills 74(3): 935-55.

Telford, L., J. Spratley, et al. (1992). "Linear vection in the central visual field facilitated by kinetic depth cues." Perception 21(3): 337-349.

Hikosaka, O., S. Miyauchi, et al. (1993). "Focal Visual Attention Produces Illusory Temporal Order and Motion Sensation " Vision Research 33(9): 1219-1240.

Previc, F. H. and M. Donnelly (1993). "The effects of visual depth and eccentricity on manual bias, induced motion, and vection." Perception 22(8): 929 â 945.

Stern, R. M., H. W. Leibowitz, et al. (1995). Role of Persistence Cues In Disorientation/Motion Sickness. Technical Reports T. D. T. I. C. D. S. a. T. I. N. (STINET), Pennsylvania State University 12 Pages(s).

Giannopulu, I. (1996). Déterminants vestibulaires et cognitifs de la chronométrie de vection chez l'homme Paris, Université de Paris 06.

Hikosaka, O., S. Miyauchi, et al. (1996). Multimodal spatial attention visualized by motion illusion. Attention & Performance XVI: Information Integration in Perception & Communication. T. M. Inui, J. L. Cambridge, Massachusetts London, England, MIT Press: 237-261.

Lowther, K. and C. Ware (1996). Vection With Large Screen 3D Imagery CHI 96 ACM SIGCHI, the ACM (Association for Computing Machinery) Special Interest Group on Computer-Human Interaction.

Regan, D. (1996). Visual and Auditory Sensitivities and Discriminations. North York Ontario, York University: 163 Pages(s).

Anstis, S. (1998). "Picturing peripheral acuity " Perception 27(7): pages 817-825

Blakemore, C. (1998). The Neural Basis and Functional Characteristics of Peripheral Vision Oxford University.

Gurnsey, R., D. Fleet, et al. (1998). "Second-order motions contribute to vection." Vision Research 38(18): 2801-2816.

Prothero, J. (1998). The Role of Rest Frames in Vection, Presence and Motion Sickness University of Washington. PhD.

Stoffregen, T. A. and J. L. J. Smart (1998). "Postural instability precedes motion sickness." Brain Research Bulletin 47(5): 437-448.

Zikkovitz, D. C. (1998). Self-Motion Perception through Visual Optic Flow and Vestibular Cues. Science. North York, Ontario, York University. M.Sc.: 73.

Donath, D., E. Kruijff, et al. (1999). Spatial knowledge implications by using a Virtual Environment during design review ACADIA'99: media effect on architectural design, Salt Lake City, USA, .

Faubert, J. and A. M. Herbert (1999). "The peripheral drift illusion : A motion illusion in the visual periphery." Perception 28(5): 617-621.

Harris, L., M. Jenkin, et al. (1999). Vestibular cues and virtual environments: choosing the magnitude of the vestibular cue. Virtual Reality, 1999. Proceedings., IEEE, Houston, TX. .

Ito, H. and T. Shibao (1999). "Motion direction distribution as a determinant of circular vection." Perceptual and motor skills 89(2): 564-70.

Kuno, S., T. Kawakita, et al. (1999). "Postural adjustment response to depth direction moving patterns produced by virtual reality graphics." The Japanese Journal of Physiology 49(5): 417-424.

Nakamura, S. and S. Shimojo (1999). "Critical role of foreground stimuli in perceiving visually induced self-motion (vection)." Perception 28(7): 893-902.

Turano, K. A. and S. M. Heidenreich (1999). "Eye movements affect the perceived speed of visual motion." Vision Research 39(6): 1177-1187.

Aoki, M., K. V. Thilo, et al. (2000). "Autonomic response to real versus illusory motion (vection)." Clinical Autonomic Research 10(1): 23-28.

Freeman, J., D. E. Pearson, et al. (2000). "Using Behavioral Realism to Estimate Presence: A Study of the Utility of Postural Responses to Motion Stimuli." Presence: Teleoperators and Virtual Environments 9(2): 149-164.

Harris, L. R., M. Jenkin, et al. (2000). "Visual and non-visual cues in the perception of linear self motion " Experimental Brain Research 135(1): 12-21.

IJsselsteijn, W., A., H. de Ridder, et al. (2000). Presence: Concept, determinants and measurement SPIE, Human Vision and Electronic Imaging V, San Jose, CA.

IJsselsteijn, W., J. Freeman, et al. (2000). Towards an Objective Corroborative Measure of Presence: Postural Responses to Moving Video PRESENCE 2000 - 3rd International Workshop on Presence,, Delft, The Netherlands, 27-28 March 2000.

Kemeny, A. (2000). Simulation et Perception du Mouvement, Technocentre Renault.

Keshner, E. A. and R. V. Kenyon (2000). "The influence of an immersive virtual environment on the segmental organization of postural stabilizing responses " Journal of Vestibular Research 10(4-5): 207â219

Nakamura, S. and S. Shimojo (2000). "A slowly moving foreground can capture an observer's self-motion - a report of a new motion illusion: inverted vection " Vision Research 40(21): 2915-2923.

Palmisano, S., B. J. Gillam, et al. (2000). "Global-perspective jitter improves vection in central vision." Perception 29(1): 57-67.

Raymond, J. E. (2000). "Attentional modulation of visual motion perception." Trends in Cognitive Sciences 4(2): 42-50.

Regan, D. (2000). Visual and Auditory Sensitivities and Discriminations Toronto, York University: 106.

Stevens, J. A., P. Fonlupt, et al. (2000). "New aspects of motion perception: selective neural encoding of apparent human movements." Neuroreport 11(1): 109-115.

Webb, N. A. (2000). Visual Acuitiy, Eye Movements, the Illusion of Motion and Motion Sickness with Optokinetic Stimuli. Faculty of Engineering and Applied Science, University of Southampton. PhD.

Assaïtante, C. (2001). Ãtudes du développement moteur chez lâenfant : vers une approche multidimensionnelle. Un Etat des lieux de la recherche sur les apprentissages et les motrices de la danse chorégraphiée, Rapport final, pour la synthèse "Développement et apprentissage des activités et perceptions artistiques". S. Faure, Université René Descrates

Eggert, T., J. Ditterich, et al. (2001). "Mislocalization of peripheral targets during fixation." Vision research 41(3): 343-352.

Harris, L. R., M. Jenkin, et al. (2001). "Simulating self motion I : cues for the perception of motion." Virtual Reality 6: 75 - 85

Mars, F. (2001). La désorientation spatiale en aéronautique - Contribution des Neurosciences integratives à la conception des postes de pilotage UMR-CNRS "Mouvement & Perception". Marseille, Université de la Méditerranée. Thèse de Doctorat en Neurosciences: 161.

Nakamura, S. (2001). "The perception of self-motion induced by central and peripheral visual stimuli moving in opposite directions " Japanese Psychological Research 43(3): 113-120.

Verstraten, F. A. J., I. T. C. Hooge, et al. (2001). "Systematic eye movements do not account for the perception of motion during attentive tracking " Vision Research 41(25-26): 3505-3511.

IJsselsteijn, W. A., J. Freeman, et al. (2002). Presence as an experiential metric for 3-D display evaluation The Society for Information Display's International Conference, Symposium, and Exhibition Boston, MA, USA, SID International symposium digest of technical papers.

Kitagawa, N. and S. Ichihara (2002). "Hearing visual motion in depth." Nature 416(6877): 172-174.

Kleinschmidt, A., K. V. Thilo, et al. (2002). "Neural Correlates of Visual-Motion Perception as Object- or Self-motion." NeuroImage 16(4): 873-882.

Smart, J. L., T. A. Stoffregen, et al. (2002). "Visually Induced Motion Sickness Predicted by Postural Instability " Human Factors 44(3): 15.

Webb, N. A. and M. J. Griffin (2002). "Optokinetic stimuli: motion sickness, visual acuity and eye movements." Aviation, Space and Environmental Medicine 73(4): 351-358.

Freeman, T. C. A., J. H. Sumnall, et al. (2003). "The extra-retinal motion aftereffect." Journal of Vision 3(11): 771-779.

Kitaoka, A. and H. Ashida (2003). "Phenomenal characteristics of the peripheral drift illusion." Vision 15(4): 261-262.

Klam, F. (2003). Perception du mouvement et mouvement propre, Université de Paris VI L ab. Physiol. Perception & Action at the Collège de France.

McMahon, J. A. (2003). "Perceptual constraints and perceptual schemata: The possibility of perceptual style." The Journal of aesthetics and art criticism 61(3): 259-272.

Nakamura, S. and S. Shimojo (2003). "Sustained deviation of gaze direction can affect âinverted vection❠induced by the foreground motion. ." Vision Research 43(7): 745-749.

Regan, D. M. (2003). Visual and Auditory Sensitivities and Discriminations Toronto, York University: 152.

Schulte-Pelkum, J., B. E. Riecke, et al. (2003). Circular vection is facilitated by a consistent photorealistic scene Proceedings of Presence 2003, Aalborg, Denmark, Beteiligte Max-Planck-Institute MPI für biologische Kybernetik.

Soto-Faraco, S., A. Kingstone, et al. (2003). "Multisensory contributions to the perception of motion." Neuropsychologia 41(13): 1847-1862.

Webb, N. A. and M. J. Griffin (2003). "Eye Movement, Vection, and Motion Sickness with Foveal and Peripheral Vision " Aviation, Space, and Environmental Medicine 74(6): 622-25.

Westheimer, G. (2003). "The distribution of preferred orientations in the peripheral visual field." Vision Research 43(1): 53-57.

Clark, P. J., Jr (2004). Long Range Lateral Interaction in the On and Off Visual Pathways of Humans Anatomy and Physiology. Birmingham University of Alabama at Birmingham. PhD: 121.

Keshner, E. A., R. V. Kenyon, et al. (2004). "Postural responses exhibit multisensory dependencies with discordant visual and support surface motion " Journal of Vestibular Research 14(3): 307 - 319.

Kline, K., A. O. Holcombe, et al. (2004). "Illusory motion reversal is caused by rivalry, not by perceptual snapshots of the visual field." Vision Research 44(23): 2653-2658.

Mollenhauer, M. A. (2004). Simulator Adaptation Syndrome Literature Review, Realtime technologies, inc: 41.

Riecke, B. E., J. Schulte-Pelkum, et al. (2004). Enhancing the Visually Induced Self-Motion Illusion (Vection) under Natural Viewing Conditions in Virtual Reality The 7th Annual International Workshop on Presence, Valencia, Spain.

Riecke, B. E., J. J. Schulte-Pelkum, et al. (2004). Top-down influence on visually induced self-motion perception (vection) Max Planck Institute for Biological Cybernetics, Perception Conference Tübingen.

Rybarczyk, Y. (2004). Etude de lâappropriation dâun système de téléopération dans lâoptique dâune Coopération Homme-Machine Robotique & Neurosciences Université d'Evry PhD: 176.

VanRullen, R. and S. J. Thorpe (2004). Perception, decision, attention visuelles: ce que les potentiels evoques nous apprennent sur le fonctionnement du systeme visuel. L'imagerie cérébrale fonctionnelle électrique (EEG) et magnétique (MEG) : ses applications en sciences cognitives. B. Renault. Paris, Hermes: 95-121.

Vidal, P.-P. (2004). Représentations du mouvement propre visuellement induit (vection) : approches comportementales, EMG, EEG et MEG chez des sujets sains et des patients vestibulaires. Paris, UMR 7060,CNRS â Paris 5 â Paris 7.

Guerraz, M. and B. L. Day (2005). "Expectation and the Vestibular Control of Balance." Journal of Cognitive Neuroscience 17(3): 463-469.

Kim, Y. Y., H. J. Kim, et al. (2005). "Characteristic changes in the physiological components of cybersickness." Psychophysiology 42(5): 616 - 625.

Mohler, B. B., B. Riecke, et al. (2005). Measuring Vection in a Large Screen Virtual Environment 2nd Symposium on Applied Perception in Graphics and Visualization (APGV), La Coruña, Spain, Max-Planck-Institut für Biologische Kybernetik

Regan, D. (2005). Visual and Auditory Sensitivities and Discriminations Toronto, York University: 51.

Riecke, B., J. J. Schulte-Pelkum, et al. (2005). Scene Consistency and Spatial Presence Increase the Sensation of Self-Motion in Virtual Reality. . 2nd symposium on Applied perception in graphics and visualization, ACM International Conference Proceeding Series; Vol. 95 archive.

Riecke, B., J. J. Schulte-Pelkum, et al. (2005). Influence of Auditory Cues on the visually-induced Self-Motion Illusion (Circular Vection) in Virtual Reality 8th international workshop on Presence 2005, Max Planck Institute for Biological Cybernetics.

Riecke, B., J. J. Schulte-Pelkum, et al. (2005). Spatialized auditory cues enhance the visually-induced self-motion illusion (circular vection) in Virtual Reality. 8th international workshop on Presence 2005, Max Planck Institute for Biological Cybernetics.

Sutton, T. (2005). "Immersive Contemplation in Video Art Environments." Contemporary Aesthetics 3.

Väljamäe, A., P. Larsson, et al. (2005). Travelling without Moving: Auditory Scene Cues for Translational Self-Motion. ICAD 05-Eleventh Meeting of the International Conference on Auditory Display, Limerick, Ireland.

Wright, W. G., P. DiZioa, et al. (2005). "Vertical linear self-motion perception during visual and inertial motion: More than weighted summation of sensory inputs " Journal of Vestibular Research 15.

Bonato , F., A. Bubka, et al. (2006). "Changing and steady vection effects on simulator sickness." Journal of Vision 6(6): 383.

Bubka, A., F. Bonato, et al. (2006). "Rotation Velocity Change and Motion Sickness in an Optokinetic Drum." Aviation, Space, and Environmental Medicine 77(8): 811 - 815.

Kitazaki, M. and T. Hashimoto (2006). "Effects of perspective jitter on vection and visual control of posture are dissociated." Journal of Vision 6(6): 149a.

Montero, B. (2006). "Proprioception as an Aesthetic Sense " Journal of Aesthetics and Art Criticism 64(2): 231-242.

Murakami, I., A. Kitaoka, et al. (2006). "A positive correlation between fixation instability and the strength of illusory motion in a static display." Vision Research 46(15): 2421-2431.

Riecke, B. E., J. J. Schulte-Pelkum, et al. (2006). "Cognitive Factors Can Influence Self-Motion Perception (Vection) in Virtual Reality " ACM Transactions on Applied Perception (TAP) 3(3): 194 - 216.

Tossavainen, T., E. Toppila, et al. (2006). "Virtual Reality in Posturography " IEEE Transactions on Information Technology in Biomedecine 10(2).

Cole, J. and B. Montero (2007). "Affective Proprioception." Janus Head: Journal of Interdisciplinary Studies in Literature, Continental Philosophy, Phenomenological Psychology, and the Arts 9(2): 299-317.