Plaid. Livingstone and Hubel Ramachandran and Gregory Hawken, Gegenfurtner and Tang Seiffert and Cavanagh
|
|
- Stewart Hood
- 7 years ago
- Views:
Transcription
1 Livingstone and Hubel Ramachandran and Gregory Plaid motion 2 component grating plaid plaid pattern 2 Aplaid motion Kooi and De Valois 1992 B B Plaid 7 Hawken, Gegenfurtner and Tang Seiffert and Cavanagh positiontracking 17
2 Cropper and Derrington Cropper and Derrington ms 1 Stromeyer, Chaparro and Kronauer Yoshizawa, Mullen and Baker 2000, 2000, Baker, Boulton and Mullen Yoshizawa Gabor Micropattern Kinematogram: GMK , 15 Yoshizawa 2000, , 17, 18 1 signed Willis and Anderson , 27 parvo parvo 21, 27 Fylan, Holliday, Singh, Anderson and Harding MEG V1 29, cone contrast space 34 Yoshizawa Gabor Micropattern Kinematogram quasi-linear nonlinear
3 2 17, 18 Dobkins and Albright 1993, 1994 M-type ganglion 19 LGN magnocellular frequency-doubling 1 2 signed unsigned chromatic border signal 2 Papathomas, Gorea and Julesz Gorea, Papathomas and Kovacs Morgan and Ingle Dobkins and Albright 1993, , Mullen, Yoshizawa and Baker cone space S-cone - 1 Cropper and Derrington Nguyen-Tri and Faubert S-cone L-M- - Scone L-M 37, 38 L-M S-cone Dobkins and Albright 1993, 1994 signed chromatic motion unsigned chromatic motion Dobkins and Albright 1 ganglion LGN 2 2 MT/V5 39 MT Saito, Tanaka, Isono, Yasuda and Mikami MT Dobkins and Albright Wandell, Newsome, Baseler, Boynton, Huk, Gandhi and Sharpe
4 MT+ fmri Cavanagh, He naff, Landis, Troscianko and Intriligator MT+ /V5 V1 Hubel and Wiesel V1 Lennie, Krauskopf, Sclar V1 V1 Engel, Zhang, Wandell fmri V1 Johnston, Hawken, Shapley V1 Yoshizawa and Hawken V1 V1 Yoshizawa Maunsell Nealey and DePriest MT Ferrera, Nealey and Maunsell V4 parvocellular magnocellular Maunsell and Van Essen V4 MT Cicerone Chen and Cicerone Chen and Cicerone still image apparent motion Gegenfurtner and Hawken
5 V1 MT magnocellular V1 MT Stromeyer Yoshizawa Cavanagh and Anstis M. S. Livingstone and D. H. Hubel: Psychological evidence for separate channels for the perception of form, color, movement, and depth. Journal of Neuroscience,, , V. S. Ramachandran and R. L. Gregory: Does colour provide an input to human motion perception? Nature,, 55-56, P. Cavanagh, C. W. Tyler and O. E. Favreau: Perceived velocity of moving chromatic gratings. Journal of the Optical Society of America, A,, , T. Troscianko and M. Fahle: Why do isoluminant stimuli appear slower? Journal of the Optical Society of America, A,, , K. T. Mullen and J. C. Boulton: Interaction between colour and luminance contrast in the perception of motion. Ophthalmic and Physiological Optics,, , K. T. Mullen and J. C. Boulton: Absence of smooth motion perception in color vision. Vision Research,, , F. L. Kooi and K. K. De Valois: The role of color in the motion system. Vision Research,, , M. J. Hawken, K. R. Gegenfurtner and C. Tang: Contrast dependence of colour and luminance motion mechanisms in human vision. Nature,, , A. E. Seiffert and P. Cavanagh: Position-based motion perception for color and texture stimuli: effects of contrast and speed. Vision Research,, , S. J. Cropper and A. M. Derrington: Motion of chromatic stimuli: first-order or second-order? Vision Research,, 49-58, S. J. Cropper and A. M. Derrington: Rapid colourspecific detection of motion in human vision. Nature,, 72-74, C. F. Stromeyer III, A. Chaparro and R. E. Kronauer: Thecolor and motion of moving-colored patterns are processed independently? Investigative Ophthalmology and Visual Science supplement,, 916, T. Yoshizawa, K. T. Mullen and C. L. Baker Jr.: Absence of a chromatic linear motion mechanism in human vision. Vision Research,, , T. Yoshizawa, K.T. Mullen and C.L. Baker Jr.: The motion of red-green chromatic gratings is mediated by a luminance-based mechanism. Investigative Ophthalmology and Visual Science supplement,, 4, S525, T. Yoshizawa, K. T. Mullen and C. L. Baker Jr.: Signed chromatic apparent motion is mediated by luminance signals. Investigative Ophthalmology and Visual Science supplement,, 4, S869, C. L. Baker Jr., J. C. Boulton and K. T. Mullen: A nonlinear chromatic motion mechanism. Vision 21
6 Research,, , K. R. Dobkins and T. D. Albright: What happens if it changes color when it moves?: psychophysical experiments on the nature of chromatic input to motion detectors. Vision Research,, , K. R. Dobkins and T. D. Albright: What happens if it changes color when it moves?: the nature of chromatic input to macaque visual area MT. Journal of Neuroscience,, , B. B. Lee, P. R. Martin and A. Valberg: The physiological basis of heterochromatic flicker photometry demonstrated in the ganglion cells of the macaque retina. Journal of Physiology,, , P. H. Schiller and C. L. Colby: The responses of single cells in the lateral geniculate nucleus of the rhesus monkey to color and luminance contrast. Vision Research,, , A. M. Derrington, J. Krauskopf and P. Lennie: Chromatic mechanisms in lateral geniculate nucleus of macaque. Journal of Physiology,, , N. K. Logothetis, P. H. Schiller, E. R. Charles and A. C. Hurkbert: Perceptual deficits and the activity of the color-opponent and broad-band pathways at isoluminance. Science,, , T. V. Papathomas, A. Gorea and B. Julesz: Two carriers for motion perception: color and luminance. Vision Research,, , A. Gorea, T. V. Papathomas and I. Kovacs: Motion perception with spatiotemporally matched chromatic and achromatic information reveals a 'slow' and a 'fast' motion system. Vision Research,, , M. J. Morgan and G. Ingle: What direction of motion do we see if luminance but not colour contrast is reversed during displacement? Psychophysical evidence for signed-colour input to motion detection. Vision Research,, , A. Willis and S. J. Anderson: Separate colour pathways underlie the detection and discrimination of moving chromatic targets. Proceedings of the Royal Society of London, B,, , T. N. Wiesel and D. H. Hubel: Spatial and chromatic interactions in the lateral geniculate body of the rhesus monkey. Journal of Neurophysiology,, , F. Fylan, I. E. Holliday, K. D. Singh, S. J. Anderson and G. F. A. Harding: Magnetoencephalographic investigation of human cortical area V1 using color stimuli. Neuroimage,, 47-57, P. Cavanagh and S. M. Anstis: The contribution of color to motion in normal and color-deficient observers. Vision Research,, , E. C. Chichilnisky, D. Heeger and B. A. Wandell: Functional segregation of color and motion perception examined in motion nulling. Vision Research,, , K. T. Mullen and C. L. Baker Jr.: A motion after effect from an isoluminant stimulus. Vision Research,, , P. Cavanagh and O. E. Favreau: Color and luminance share a common motion pathway. Vision Research,, , A. M. Derrington and D. R. Badcock: The low level motion system has both chromatic and luminance inputs. Vision Research,, , C. F. Stromeyer III, R. E. Kronauer, A. Ryu, A. Chaparro and R. T. Eskew Jr: Contributions of human long-wave and middle-wave cones to motion detection. Journal of Physiology,, , K. T. Mullen, T. Yoshizawa and C. L. Baker Jr: Temporal chromatic aberration: why the motion of red-green equiluminous gratings is detected by the luminance system. Perception supplement,, D. Nguyen-Tri and J. Faubert: The perceived speed of drifting chromatic gratings is mechanismdependent. Vision Research,, , S. H. C. Hendry and T. Yoshioka: A neurochemically 22
7 distinct third channel in the macaque dorsal lateral geniculate nucleus. Science,, , S. G. Solomon, A. J. R. White and P. R. Martin: Temporal contrast sensitivity in the lateral geniculate nucleus of New World monkey, the marmoset Callithrix Jacchus. Journal of Physiology,, , S. M. Zeki: Functional organization of a visual area in the posterior bank of the superior temporal sulcus of the rhesus monkey. Journal of Physiology,, , H. Saito, K. Tanaka, H. Isono, M. Yasuda and A. Mikami: Directionally selective response of cells in the middle temporal area MT of the macaque monkey to the movement of equiluminous opponent color stimuli. Experimental Brain Research,, 1-14, B. A. Wandell, A. B. Newsome, H. A. Baseler, G. M. Boynton, A. Huk, S. Gandhi and L. T. Sharpe: Color signals in human motion-selective cortex. Neuron,, , P. Cavanagh, M. -A. Henaff, F. Michel, T. Landis, T. Troscianko and J. Intriligator: Complete sparing of high-contrast color input to motion perception in cortical color blindness. Nature Neuroscience,, , D. H. Hubel and T. N. Wiesel: Receptive fields and functional architecture of monkey striate cortex. Journal of Physiology,, , P. Lennie, J. Krauskopf and G. Sclar: Chromatic mechanisms in striate cortex of macaque. Journal of Neuroscience,, , S. A. Engel, X. Zhang and B. A. Wandell: Color tuning in human visual cortex measured using functional magnetic resonance imaging. Nature,, 68-71, E. N. Johnson, M. J. Hawken and R. Shapley: The spatial transformation of color in the primary visual cortex of the macaque monkey. Nature Neuroscience,, , T. Yoshizawa and M. J. Hawken: Macaque V1 neurons respond isoluminant and luminance motion. private communication, J. H. R. Maunsell, T. A. Nealey and D. D. DePriest: Magnocellular and parvocellular contributions to responses in the middle temporal visual area MT of the macaque monkey. Journal of Neuroscience,, , V. P. Ferrera, T. A. Nealey and J. H.R. Maunsell: Mixed parvocellular and magnocellular geniculate signals in visual area V4. Nature, , J. H. R. Maunsell and D. C. Van Essen: The connections of the middle temporal visual area MT and their relationship to cortical hierarchy in the macaque monkey. Journal of Neuroscience,, , C. M Cicerone, D. D. Hoffman, P. D. Gowdy and J. S. Kim: The perception of color from motion. Perception and Psychophysics,, , C. M Cicerone and D. D. Hoffman: Color from motion: dichoptic activation and a possible role in breaking camouflage. Perception,, , V. J. Chen and C. M. Cicerone: Subjective color from apparent motion. Journal of Vision,, , K. R. Gegenfurtner and M. J. Hawken: Temporal and chromatic properties of motion mechanisms. Vision Research,, , K. R. Dobkins and T. D. Albright: The influence of chromatic information on visual motion processing in the primate visual system. T. Watanabe ed : High-level motion processing. The MIT Press, Cambridge, 53-94, K. R. Gegenfurtner and M. J. Hawken: Interaction of motion and color in the visual pathways. Trends in Neurosciences,, , M. J. Hawken and K. R. Gegenfurtner: Interactions between color and motion in the primate visual system. K. R. Gegenfurtner and L. T. Sharpe Eds : Color Vision. Cambridge University Press, ,
Perceptual motion standstill in rapidly moving chromatic displays
Perceptual motion standstill in rapidly moving chromatic displays Zhong-Lin Lu*, Luis A. Lesmes*, and George Sperling *Laboratory of Brain Processes (LOBES), Department of Psychology, University of Southern
More informationVisual area MT responds to local motion. Visual area MST responds to optic flow. Visual area STS responds to biological motion. Macaque visual areas
Visual area responds to local motion MST a Visual area MST responds to optic flow MST a Visual area STS responds to biological motion STS Macaque visual areas Flattening the brain What is a visual area?
More informationSpatial and Temporal Properties of Cone Signals in Alert Macaque Primary Visual Cortex
10826 The Journal of Neuroscience, October 18, 2006 26(42):10826 10846 Behavioral/Systems/Cognitive Spatial and Temporal Properties of Cone Signals in Alert Macaque Primary Visual Cortex Bevil R. Conway
More informationThe Visual Cortex 0 http://www.tutis.ca/neuromd/index.htm 20 February 2013
T he Visual Cortex 0 Chapter contents Contents Chapter 2... 0 T he Visual Cortex... 0 Chapter Contents... 1 Introduction... 2 Optic Chiasm... 2 Where do the eye's ganglion cells project to?... 3 To where
More informationCurriculum Vitae. Adriane E. Seiffert. January 5, 2010
Curriculum Vitae Adriane E. Seiffert January 5, 2010 Degrees Earned Bachelors of Science, Honors, Co-op in Psychology earned in 1994 University of Waterloo, Waterloo, Ontario, Canada MA in Psychology,
More informationThe Number of Cortical Neurons Used to See
The Number of Cortical Neurons Used to See Krisha Mehta Bronx High School of Science Mentor: Dr.Denis Pelli Teacher: Mr.Lee K. K. Mehta (2013) The number of cortical neurons used to see. Intel Science
More informationEuropean Journal of Neuroscience. Retinotopic distribution of chromatic responses in human primary visual cortex
Retinotopic distribution of chromatic responses in human primary visual cortex Journal: Manuscript ID: Manuscript Type: Date Submitted by the Author: Complete List of Authors: Key Words: EJN-2006-01-10155.R2
More informationProblem-Based Group Activities for a Sensation & Perception Course. David S. Kreiner. University of Central Missouri
-Based Group Activities for a Course David S. Kreiner University of Central Missouri Author contact information: David Kreiner Professor of Psychology University of Central Missouri Lovinger 1111 Warrensburg
More informationModel networks!!!primary visual cortex (V1):!!!Orientation and spatial frequency!
Primary visual cortex (V1) 1 Model networks Primary visual cortex (V1): Orientation and spatial frequency Suggested reading: Chapter.3 in Dayan, P. & Abbott, L., Theoretical Neuroscience, MIT Press, 001.
More informationCOGNITIVE INFLUENCES ON SENSORY PROCESSING
COGNITIVE INFLUENCES ON SENSORY PROCESSING OF VISUAL MOTION Dissertation zur Erlangung des Doktorgrades der Mathematisch-Naturwissenschaftlichen Fakultäten der Georg-August Universität zu Göttingen vorgelegt
More informationFunctional Properties of Neurons in Macaque Area V3
Functional Properties of Neurons in Macaque Area V3 KARL R. GEGENFURTNER, 1 DANIEL C. KIPER, 2 AND JONATHAN B. LEVITT 3 1 Max-Planck-Institut für Biologische Kybernetik, 72076 Tubingen, Germany; 2 Institut
More informationLocal contrast in natural images: normalisation and coding efficiency
Perception,, volume 9, pages 141 ^ 155 DOI:1.168/p996 Local contrast in natural images: normalisation and coding efficiency Nuala Brady Department of Psychology, University College Dublin, Belfield, Dublin
More informationfmri and visual brain function
Brief history of brain imaging fmri and visual brain function 1895 First human X-ray image 1950 First human PET scan - uses traces of radioactive material (carbon, nitrogen, fluorine or oxygen) to map
More informationARTIFICIAL INTELLIGENCE LABORATORY. and. A.I. Memo No. 1415 October, 1994. Pattern motion perception: feature tracking or.
MASSACHUSETTS INSTITUTE OF TECHNOLOGY ARTIFICIAL INTELLIGENCE LABORATORY and CENTER FOR BIOLOGICAL AND COMPUTATIONAL LEARNING DEPARTMENT OF BRAIN AND COGNITIVE SCIENCES A.I. Memo No. 11 October, 199 C.B.C.L.
More informationAttraction of flashes to moving dots
Vision Research 47 (2007) 2603 2615 www.elsevier.com/locate/visres Attraction of flashes to moving dots Ozgur Yilmaz a, *, Srimant P. Tripathy a,c, Saumil S. Patel a,b,d, Haluk Ogmen a,b,c a University
More informationNeuropsychologia 50 (2012) 153 159. Contents lists available at SciVerse ScienceDirect. Neuropsychologia
Neuropsychologia 50 (2012) 153 159 Contents lists available at SciVerse ScienceDirect Neuropsychologia jo u rn al hom epa ge : www.elsevier.com/locate/neuropsychologia Psychophysical evidence for interactions
More informationPerception of Fourier and non- Fourier motion by larval zebrafish
Perception of Fourier and non- Fourier motion by larval zebrafish Michael B. Orger 1, Matthew C. Smear 1, Stuart M. Anstis 2 and Herwig Baier 1,3 1 Department of Physiology and Program in Neuroscience,
More informationEarly vision: Images, context and memory
Brain Theory - Biological Basis and Computational Principles A. Aertsen and V. Braitenberg (Editors) 1996 Elsevier Science B.V. All rights reserved. Early vision: Images, context and memory Dov Sagi* Department
More informationMotion processing: the most sensitive detectors differ in temporally localized and extended noise
ORIGINAL RESEARCH ARTICLE published: 15 May 2014 doi: 10.3389/fpsyg.2014.00426 Motion processing: the most sensitive detectors differ in temporally localized and extended noise Rémy Allard 1,2,3 * and
More informationIntegration, segregation, and binocular combination
38 J. Opt. Soc. Am. A/ Vol. 22, No. 1/ January 2005 Mansouri et al. Integration, segregation, and binocular combination Behzad Mansouri and Robert F. Hess McGill Vision Research, 687 Pine Avenue W, H4-14
More informationA Model of Visual Masking for Computer Graphics
A Model of Visual Masking for Computer Graphics James A. Ferwerda, Cornell University Peter Shirley, University of Utah Sumanta N. Pattanaik, Cornell University Donald P. Greenberg, Cornell University
More informationEARLY VISUAL DEVELOPMENT: DIFFERENTIAL FUNCTIONING OF PARVOCELLULAR AND MAGNO CELLULAR PATHWAYS
EARLY VISUAL DEVELOPMENT: DIFFERENTIAL FUNCTIONING OF PARVOCELLULAR AND MAGNO CELLULAR PATHWAYS Cambridge INTRODUCTION The idea of two visual systems arose out of comparative studies of vision across different
More informationVisual development in babies and infants
Visual development in babies and infants Marko Nardini UCL Institute of Ophthalmology Vision a major function of the primate brain vision develops rapidly in early life and serves as a base for development
More informationAnalysis of Optic Flow in the Monkey Parietal Area 7a
Analysis of Optic Flow in the Monkey Parietal Area 7a Ralph M. Siegel and Heather L. Read Center for Molecular and Behavioral Neuroscience, Rutgers University, Newark, NJ, USA Environmentally relevant
More informationMasters research projects. 1. Adapting Granger causality for use on EEG data.
Masters research projects 1. Adapting Granger causality for use on EEG data. Background. Granger causality is a concept introduced in the field of economy to determine which variables influence, or cause,
More informationIndependence of color and luminance edges in natural scenes
Visual Neuroscience (29), 26, 35 49. Printed in the USA. Copyright Ó 29 Cambridge University Press 952-5238/9 $25. doi:.7/s952523888796 Independence of color and luminance edges in natural scenes THORSTEN
More informationMoving objects appear to slow down at low contrasts
Neural Networks 16 (2003) 933 938 www.elsevier.com/locate/neunet 2003 Special issue Moving objects appear to slow down at low contrasts Stuart Anstis* Department of Psychology, University of California,
More informationconsciousness vision: WHEN YOU first look at the
IN THEIR SEARCH FOR THE MIND, SCIENTISTS ARE FOCUSING ON VISUAL PERCEPTION HOW WE INTERPRET WHAT WE SEE vision: consciousness a window BY NIKOS K. LOGOTHETIS WHEN YOU first look at the center image in
More informationMoro, S. (2004). A study of pupil response components in human vision. (Unpublished Doctoral thesis, City University London)
Moro, S. (2004). A study of pupil response components in human vision. (Unpublished Doctoral thesis, City University London) City Research Online Original citation: Moro, S. (2004). A study of pupil response
More informationPerception of Light and Color
Perception of Light and Color Theory and Practice Trichromacy Three cones types in retina a b G+B +R Cone sensitivity functions 100 80 60 40 20 400 500 600 700 Wavelength (nm) Short wavelength sensitive
More informationThe role of context in Müller-Lyer illusion: The case of negative Müller-Lyer illusion
Review of Psychology, 2013, Vol. 20, No. 1-2, 29-36 UDC 159.9 The role of context in Müller-Lyer illusion: The case of negative Müller-Lyer illusion PAVLE VALERJEV and TANJA GULAN The Müller-Lyer illusion
More informationAttentive tracking shifts the perceived location of a nearby flash q
Vision Research xxx (2005) xxx xxx www.elsevier.com/locate/visres Attentive tracking shifts the perceived location of a nearby flash q Won Mok Shim *, Patrick Cavanagh Department of Psychology, Harvard
More informationOptical Illusions and Their Causes: Examining Differing Explanations
Olin College of Engineering DigitalCommons@Olin 2006 AHS Capstone Projects AHS Capstone Projects 4-1-2006 Optical Illusions and Their Causes: Examining Differing Explanations Sarah Oliver Franklin W. Olin
More informationThe Binding Problem Solutions to the spatial binding problem
The Binding Problem Objects have different features such as color, shape, sound, and smell. Some, such as color and sound, are represented separately from the instant they hit our sensory receptors. Other
More informationVision: Receptors. Modes of Perception. Vision: Summary 9/28/2012. How do we perceive our environment? Sensation and Perception Terminology
How do we perceive our environment? Complex stimuli are broken into individual features, relayed to the CNS, then reassembled as our perception Sensation and Perception Terminology Stimulus: physical agent
More informationPATTERN RECOGNITION MECHANISMS
PONTIFICIAE ACADEMIAE SCIENTIARVM SCRIPTA VARIA 54 STUDY WEEK on PATTERN RECOGNITION MECHANISMS April 25-29, 1983 EDITED BY CARLOS CHAGAS - RICARDO GATTASS - CHARLES GROSS EX AEDIBVS ACADEMICIS IN CIVITATE
More informationChapter 14: The Cutaneous Senses
Chapter 14: The Cutaneous Senses Skin - heaviest organ in the body Cutaneous System Epidermis is the outer layer of the skin, which is made up of dead skin cells Dermis is below the epidermis and contains
More informationToward a Perceptual Science of Multidimensional Data Visualization: Bertin and Beyond
Toward a Perceptual Science of Multidimensional Data Visualization: Bertin and Beyond Marc Green, Ph. D. ERGO/GERO Human Factors Science green@ergogero.com Available from ERGO/GERO in Word 97 format. ABSTRACT
More informationMEASURING BRAIN CHANGES IN HEARING LOSS AND ITS REMEDIATION
MEASURING BRAIN CHANGES IN HEARING LOSS AND ITS REMEDIATION Blake W Johnson 1,3, Stephen Crain 2,3 1 Department of Cognitive Science, Macquarie University 2 Department of Linguistics, Macquarie University
More informationWhat Saunders and van Brakel chose to ignore in Color and Cognition Research.
Kimberly A. Jameson Assistant Professor Department of Psychology University of California, San Diego 9500 Gilman Drive La Jolla, CA 92093-0109 kjameson@ucsd.edu What Saunders and van Brakel chose to ignore
More informationA SPARSE CODING MODEL OF V1 PRODUCES SURROUND SUPPRESSION EFFECTS IN RESPONSE TO NATURAL SCENES
A SPARSE CODING MODEL OF V1 PRODUCES SURROUND SUPPRESSION EFFECTS IN RESPONSE TO NATURAL SCENES A Thesis Presented to The Academic Faculty by Allie Del Giorno In Partial Fulfillment of the Requirements
More informationResearch. Investigation of Optical Illusions on the Aspects of Gender and Age. Dr. Ivo Dinov Department of Statistics/ Neuroscience
RESEARCH Research Ka Chai Lo Dr. Ivo Dinov Department of Statistics/ Neuroscience Investigation of Optical Illusions on the Aspects of Gender and Age Optical illusions can reveal the remarkable vulnerabilities
More informationProcessing the Image or Can you Believe what you see? Light and Color for Nonscientists PHYS 1230
Processing the Image or Can you Believe what you see? Light and Color for Nonscientists PHYS 1230 Optical Illusions http://www.michaelbach.de/ot/mot_mib/index.html Vision We construct images unconsciously
More informationEFFECTS OF SELECTIVE ATTENTION
EFFECTS OF SELECTIVE ATTENTION ON SENSORY PROCESSING OF VISUAL MOTION Dissertation zur Erlangung des Doktorgrades der Mathematisch-Naturwissenschaftlichen Fakultäten der Georg-August Universität zu Göttingen
More informationNext Generation Artificial Vision Systems
Next Generation Artificial Vision Systems Reverse Engineering the Human Visual System Anil Bharath Maria Petrou Imperial College London ARTECH H O U S E BOSTON LONDON artechhouse.com Contents Preface xiii
More information2 Neurons. 4 The Brain: Cortex
1 Neuroscience 2 Neurons output integration axon cell body, membrane potential Frontal planning control auditory episodes soma motor Temporal Parietal action language objects space vision Occipital inputs
More informationFunctional neuroimaging. Imaging brain function in real time (not just the structure of the brain).
Functional neuroimaging Imaging brain function in real time (not just the structure of the brain). The brain is bloody & electric Blood increase in neuronal activity increase in metabolic demand for glucose
More informationAnna Martelli Ravenscroft
Left vs Right processing of & Place in fovea & periphery Psych204b Background: Anna Martelli Ravenscroft Vision depends on multiple regions of the brain, from the specialized photoreceptors of the retina,
More informationModelling Primary Visual Cortex Dynamics with a Dynamic Neural Field Based on Voltage Sensitive Dyes
Modelling Primary Visual Cortex Dynamics with a Dynamic Neural Field Based on Voltage Sensitive Dyes A Dissertation submitted for the Degree of Philosophiae Doctoris (PhD) in Neuroscience at the International
More informationHuman Perception and Computer Graphics
Postgraduate Study Report DC-PSR-2004-06 Human Perception and Computer Graphics Martin Čadík Supervisor: Pavel Slavík January 2004 Department of Computer Science and Engineering Faculty of Electrical Engineering
More informationTwo visual systems and two theories of perception: An attempt to reconcile the constructivist and ecological approaches
BEHAVIORAL AND BRAIN SCIENCES (2002) 25, 73 144 Printed in the United States of America Two visual systems and two theories of perception: An attempt to reconcile the constructivist and ecological approaches
More informationChapter 8: Perceiving Depth and Size
Chapter 8: Perceiving Depth and Size Cues to Depth Perception Oculomotor - cues based on sensing the position of the eyes and muscle tension 1. Convergence knowing the inward movement of the eyes when
More informationVisibility of Noise in Natural Images
Visibility of Noise in Natural Images Stefan Winkler and Sabine Süsstrunk Audiovisual Communications Laboratory (LCAV) Ecole Polytechnique Fédérale de Lausanne (EPFL) 1015 Lausanne, Switzerland ABSTRACT
More informationEstimating Simple and Complex Cell Receptive Fields from Natural Image Stimuli and 2-Photon Imaging Recordings of the V1 in Ferrets
Estimating Simple and Complex Cell Receptive Fields from Natural Image Stimuli and 2-Photon Imaging Recordings of the V1 in Ferrets Philipp John Frederic Rüdiger E H U N I V E R S I T Y T O H F G R E D
More informationCognitive Neuroscience. Questions. Multiple Methods. Electrophysiology. Multiple Methods. Approaches to Thinking about the Mind
Cognitive Neuroscience Approaches to Thinking about the Mind Cognitive Neuroscience Evolutionary Approach Sept 20-22, 2004 Interdisciplinary approach Rapidly changing How does the brain enable cognition?
More informationSpace Perception and Binocular Vision
Space Perception and Binocular Vision Space Perception Monocular Cues to Three-Dimensional Space Binocular Vision and Stereopsis Combining Depth Cues 9/30/2008 1 Introduction to Space Perception Realism:
More informationHow To Understand The Effects Of Saccades On The Visual Cortex In Macaque Monkeys
Exp Brain Res (1998) 123:341 345 Springer-Verlag 1998 RESEARCH NOTE David A. Leopold Nikos K. Logothetis Microsaccades differentially modulate neural activity in the striate and extrastriate visual cortex
More informationWhat constitutes good visualization research?
Visualization Viewpoints Editor: TheresaMarie Rhyne Toward a Perceptual Theory of Flow Visualization Colin Ware University of New Hampshire What constitutes good visualization research? Are researchers
More informationThe when pathway of the right parietal lobe
Opinion TRENDS in Cognitive Sciences Vol.11 No.5 The when pathway of the right parietal lobe Lorella Battelli 1,2, Alvaro Pascual-Leone 1,3 and Patrick Cavanagh 2,4 1 Center for Noninvasive Brain Stimulation,
More informationHow To Create A Color Model For Relative Motion On A Color Screen
Birkeland, A., Turkay, C. & Viola, I. (2014). Perceptually Uniform Motion Space. IEEE Transactions on Visualization and Computer Graphics, 20(11), pp. 1542-1554. doi: 10.1109/TVCG.2014.2322363 City Research
More informationQASIM ZAIDI EDUCATION
QASIM ZAIDI EDUCATION Graduate Center for Vision Research, State University of New York, College of Optometry, 33 West 42nd St, New York, NY 10036. Office: 212-938-5542; Lab: 212-938-5756; Fax: 212-938-5537
More informationNatural Image Statistics and Divisive Normalization: Modeling Nonlinearities and Adaptation in Cortical Neurons
To appear as a chapter in: Statistical Theories of the Brain eds. R Rao, B Olshausen and M Lewicki MIT Press, 2001. Natural Image Statistics and Divisive Normalization: Modeling Nonlinearities and Adaptation
More information1 Cornea 6 Macula 2 Lens 7 Vitreous humor 3 Iris 8 Optic disc 4 Conjunctiva 9 Ciliary muscles 5 Sclera 10 Choroid
Anatomy and Physiology Quiz 1 Sample Question Answers Use the following table to answer Questions 1 2. 1 Cornea 6 Macula 2 Lens 7 Vitreous humor 3 Iris 8 Optic disc 4 Conjunctiva 9 Ciliary muscles 5 Sclera
More informationUnderstanding the Rotating Snakes illusion Student: Martin O'Reilly ; Supervisor: Alan Johnston
Understanding the Rotating Snakes illusion Student: Martin O'Reilly ; Supervisor: lan Johnston This paper explores potential mechanisms underlying Rotating Snakes - a piece of Op-rt by Kitaoka evoking
More informationCortical Regions Involved in Perceiving Object Shape
The Journal of Neuroscience, May 1, 2000, 20(9):3310 3318 Cortical Regions Involved in Perceiving Object Shape Zoe Kourtzi and Nancy Kanwisher Department of Brain and Cognitive Science, Massachusetts Institute
More informationBayesian probability theory
Bayesian probability theory Bruno A. Olshausen arch 1, 2004 Abstract Bayesian probability theory provides a mathematical framework for peforming inference, or reasoning, using probability. The foundations
More informationPop-Out Without Awareness: Unseen Feature Singletons Capture Attention Only When Top-Down Attention Is Available
Research Article Pop-Out Without Awareness: Unseen Feature Singletons Capture Attention Only When Top-Down Attention Is Available Psychological Science 22(9) 1220 1226 The Author(s) 2011 Reprints and permission:
More informationMasking efficiency as a function of stimulus onset asynchrony for spatial-frequency detection and identification
Masking efficiency as a function of stimulus onset asynchrony for spatial-frequency detection and identification ANDREI GOREA* Laboratoire de Psychologie Expérimentale (Université René Descartes et EPHE
More informationCHAPTER 6 PRINCIPLES OF NEURAL CIRCUITS.
CHAPTER 6 PRINCIPLES OF NEURAL CIRCUITS. 6.1. CONNECTIONS AMONG NEURONS Neurons are interconnected with one another to form circuits, much as electronic components are wired together to form a functional
More informationTransparency and Occlusion
Transparency and Occlusion Barton L. Anderson University of New South Wales One of the great computational challenges in recovering scene structure from images arises from the fact that some surfaces in
More informationPASSENGER/PEDESTRIAN ANALYSIS BY NEUROMORPHIC VISUAL INFORMATION PROCESSING
PASSENGER/PEDESTRIAN ANALYSIS BY NEUROMORPHIC VISUAL INFORMATION PROCESSING Woo Joon Han Il Song Han Korea Advanced Science and Technology Republic of Korea Paper Number 13-0407 ABSTRACT The physiological
More informationTHE APPLICATION OF COMPUTATIONAL MODELING TO DATA VISUALIZATION. Daniel S. Pineo.
THE APPLICATION OF COMPUTATIONAL MODELING TO DATA VISUALIZATION BY Daniel S. Pineo. B.S. University of Massachusetts, Amherst, MA (2000) DISSERTATION Submitted to the University of New Hampshire in partial
More informationNatural Image Statistics
Aapo Hyvärinen Jarmo Hurri Patrik O. Hoyer Natural Image Statistics A probabilistic approach to early computational vision February 27, 2009 Springer Contents overview 1 Introduction...................................................
More informationMICHAEL S. PRATTE CURRICULUM VITAE
MICHAEL S. PRATTE CURRICULUM VITAE Department of Psychology 301 Wilson Hall Vanderbilt University Nashville, TN 37240 Phone: (573) 864-2531 Email: michael.s.pratte@vanderbilt.edu www.psy.vanderbilt.edu/tonglab/web/mike_pratte
More informationVisual Perception and Attention
Visual Perception and Attention Tanja Schultz Felix Putze Dominic Heger 31.5.2012 Lecture Cognitive Modeling (SS 2012) 1/40 Outline Introduction Perception Human Senses and Computer sensors Neuroscientific
More informationEUSIPCO 2013 1569746737
EUSIPCO 2013 1569746737 HUE CORRECTION IN HDR TONE MAPPING Michal Seeman, Pavel Zemčík, Bronislav Přibyl Faculty of Information Technology, Brno University of Technology, Brno, Czech Republic ABSTRACT
More informationCorrelates of figure-ground segregation in fmri
Vision Research 40 (2000) 2047 2056 www.elsevier.com/locate/visres Correlates of figure-ground segregation in fmri G. Skiera a, D. Petersen b, M. Skalej b, M. Fahle a,c, * a Human-Neurobiology, Uni ersity
More informationTHE FUNCTIONAL ROLE OF CONTRAST ADAPTATION*
Vision Res. Vol. 28, No. 7, pp. 791-797, 1988 0042~6989/88 $3.00+0.00 Printed in Great Britain. All tights reserved 0 1988 Pergamon Press plc THE FUNCTIONAL ROLE OF CONTRAST ADAPTATION* MARK W. GREENLEE
More informationFigure 1 Typical BOLD response to a brief stimulus.
Temporal BOLD Characteristics and Non-Linearity Douglas C. Noll, Alberto Vazquez Dept. of Biomedical Engineering, University of Michigan, Ann Arbor, MI, USA Introduction While many early neuroimaging studies
More informationJohn A. Baro. Design and Programming Experience. jabaro@polyhedronlearning.com
Wheeling, WV 26003 jabaro@polyhedronlearning.com http://www.polyhedronlearning.com Design and Programming Experience 7/04 present Polyhedron Learning Media, Inc., Wheeling, WV Director of Software Development/Co-Founder
More informationArticle. Teri Lawton 1, PhD; Douglas Stephey 2, OD, MS 1. Perception Dynamics Institute, Del Mar, CA 2. Private Practice, Covina, CA
Article Field of View, Figure/Ground Discrimination, Sequential Memory, and Navigation Skills Improve Following Training on Motion Discrimination in Older Adults Teri Lawton 1, PhD; Douglas Stephey 2,
More informationTop ^ down control of visual perception: Attention in natural vision
Perception, 2008, volume 37, pages 333 ^ 354 doi:10.1068/p5877 Top ^ down control of visual perception: Attention in natural vision Edmund T Rolls Department of Experimental Psychology, University of Oxford,
More informationChapter 7: The Nervous System
Chapter 7: The Nervous System Objectives Discuss the general organization of the nervous system Describe the structure & function of a nerve Draw and label the pathways involved in a withdraw reflex Define
More information6 Space Perception and Binocular Vision
Space Perception and Binocular Vision Space Perception and Binocular Vision space perception monocular cues to 3D space binocular vision and stereopsis combining depth cues monocular/pictorial cues cues
More informationPLEASE SCROLL DOWN FOR ARTICLE
This article was downloaded by:[universite Rene Descartes Paris 5] On: 2 May 28 Access Details: [subscription number 773444237] Publisher: Psychology Press Informa Ltd Registered in England and Wales Registered
More informationSOOJIN PARK. Contact Information. Academic Appointments. Education. Research Interests. Curriculum Vitae October 2013
SOOJIN PARK Curriculum Vitae October 2013 Contact Information Cognitive Science Department Email: park@cogsci.jhu.edu Johns Hopkins University Room 237 Web: mind.cog.jhu.edu/~park 3400 North Charles Street
More informationGAZE STABILIZATION SYSTEMS Vestibular Ocular Reflex (VOR) Purpose of VOR Chief function is to stabilize gaze during locomotion. Acuity declines if
GAZE STABILIZATION SYSTEMS Vestibular Ocular Reflex (VOR) Purpose of VOR Chief function is to stabilize gaze during locomotion. Acuity declines if slip exceeds 3-5 deg/sec. Ex: Head bobbing and heel strike
More informationFall 2013 to present Assistant Professor, Department of Psychological and Brain Sciences, Johns Hopkins University
M A R I N A B E D N Y Johns Hopkins University Department of Psychological and Brain Sciences 3400 N. Charles Street, Ames Hall Baltimore, MD 21218 mbedny@mit.edu ACADEMIC POSITIONS Fall 2013 to present
More informationBrain Computer Interfaces (BCI) Communication Training of brain activity
Brain Computer Interfaces (BCI) Communication Training of brain activity Brain Computer Interfaces (BCI) picture rights: Gerwin Schalk, Wadsworth Center, NY Components of a Brain Computer Interface Applications
More informationVisual Attention and Emotional Perception
Visual Attention and Emotional Perception Luiz Pessoa 1 and Leslie G. Ungerleider 2 (1) Department of Psychology, Brown University, Providence, RI (2) Laboratory of Brain & Cognition, National Institute
More informationBANDWIDTH AFFECTS VISUAL LATERAL INTERACTIONS
BANDWIDTH AFFECTS VISUAL LATERAL INTERACTIONS Russell L Woods, Alex K Nugent, Eli Peli The Schepens Eye Research Institute, Harvard Medical School, Boston, MA Abstract Purpose: Usually a co-local, high-contrast
More informationAndrew Ilyas and Nikhil Patil - Optical Illusions - Does Colour affect the illusion?
Andrew Ilyas and Nikhil Patil - Optical Illusions - Does Colour affect the illusion? 1 Introduction For years, optical illusions have been a source of entertainment for many. However, only recently have
More informationContour Integration and Principles of Perceptual Grouping
Contour Integration and Principles of Perceptual Grouping Inaugural-Dissertation zur Erlangung des akademischen Grades eines Dr. phil. vorgelegt dem Fachbereich 02 Sozialwissenschaften, Medien und Sport
More informationTUNE INTO YOUR BIOLOGICAL RHYTHMS. Light for life HUMAN CENTRIC LIGHTING IN PRACTISE 2014/ HELEN LOOMES
TUNE INTO YOUR BIOLOGICAL RHYTHMS Light for life HUMAN CENTRIC LIGHTING IN PRACTISE AGENDA TUNE INTO YOUR BIOLOGICAL RHYTHMS A look at our biological responses to lighting Uses in Education - Research
More informationColour Assessment and Diagnosis (CAD) Test. Sally Evans Chief Medical Officer UK CAA
Colour Assessment and Diagnosis (CAD) Test Sally Evans Chief Medical Officer UK CAA Joint Project UK CAA City University FAA (Part 3) Colour Assessment and Diagnosis (CAD) Test Safety Human rights Applications
More informationCognitive Computational Models for Intelligent Engineering Systems
Cognitive Computational Models for Intelligent Engineering Systems Ph.D. Dissertation Barna Reskó Supervisor: Péter Baranyi, D.Sc. Co-supervisor: Péter Korondi, D.Sc. Budapest, 2008. Alulírott Reskó Barna
More informationC L I N I C A L A N D E X P E R I M E N T A L OPTOMETRY ORIGINAL PAPER. Contradictory influence of context on predominance during binocular rivalry
C L I N I C A L A N D E X P E R I M E N T A L Binocular rivalry Carter, Campbell, Liu and Wallis OPTOMETRY ORIGINAL PAPER Contradictory influence of context on predominance during binocular rivalry Clin
More informationBlind source separation of multichannel neuromagnetic responses
Neurocomputing 32}33 (2000) 1115}1120 Blind source separation of multichannel neuromagnetic responses Akaysha C. Tang *, Barak A. Pearlmutter, Michael Zibulevsky, Scott A. Carter Department of Psychology,
More informationThe Information Processing model
The Information Processing model A model for understanding human cognition. 1 from: Wickens, Lee, Liu, & Becker (2004) An Introduction to Human Factors Engineering. p. 122 Assumptions in the IP model Each
More informationSheep Brain Dissection
Sheep Brain Dissection http://www.carolina.com/product/preserved+organisms/preserved+animals+%28mammal s%29/sheep+organs/preserved+sheep+dissection.do Michigan State University Neuroscience Program Brain
More information