Program Overview
Sang-Hun Lee
APCV2012 Program Committee Chair
The program of the APCV 2012 offers four types of podium for scientific discussion: Keynote lectures, Symposia, Talk and Poster sessions. To promote informal communication and friendship among vision scientists from the hosting and visiting countries, two social night events (reception party and banquet) and coffee/tea breaks will be sprinkled over in between the science sessions. The program committees thank the 3 keynote and 29 symposium speakers, who are specialized in various research methodologies (psychophysics /single cell/brain imaging/brain stimulation) from diverse regions all over the world (31 institutions in 9 countries), for their enthusiastic support and contributions to the conference. Below, we provide brief sketches of the keynote lectures and symposia that we will offer at the conference.
APCV 2012 Program Schedule

Time/Date

July 13 (Fri)

July 14 (Sat)

July 15 (Sun)

08:00~09:00
Registration
   
09:00~11:00
Oral session O1
Oral session O3
Oral session O5
11:00~11:30
Coffee Break
11:00~12:30
12:30~13:30
Lunch
Lunch
(Council Meeting)
Lunch
13:30~14:30
Poster session P1
Poster session P2
Poster session P3
14:30~16:30
Oral session O2
Oral session O4
Oral session O6
16:30~17:00
Coffee Break
17:00~18:30
18:30~
Welcoming Reception
Banquet
Business Meeting
[Keynote lectures]
K1: Your Wandering Mind: Neuronal Correlates and Behavioral Consequencesby John Maunsell
K2: Probing visual processing outside of conscious awareness by Randolph Blake
K3: Feature-based attention in health and disease by Jason Mattingley
[Symposia and Talks]
S1. Seeing Biological Motion Through Different Eyes, organized by Songjoo Oh
S2: The brain in action, organized by JorisVangeneugden
S3: Adaptation and Aftereffects, organized by ArniKristjansson
S4: Mechanisms of visual motion perception, organized by DujeTadin
S5: New Perspectives on Ecological Optics, organized by Nam-Gyoon Kim
S6: Across the surface of conscious visual awareness, organized by Chai-Youn Kim
T1A~T3P: TBA

 

Keynote Lectures (K1~K3)
The Keynote Lecture series will feature three leading vision scientists, who enthusiastically accepted our invitation to deliver a 90-minute in-depth review of the recent progresses in their work on visual systems. Dr. John Maunsell will discuss how he could track down the footprints of wandering mind by recording simultaneously from dozens of neurons in visual cerebral cortex. Dr. Randolph Blake will reveal how he uses binocular rivalry to peek behind the curtain of visual awareness to probe unconscious visual processing. Dr. Jason Mattingley will conclude the keynote series by showing the differential landscapes of healthy and dysfunctional minds through multiple windows of probing tools such as psychophysics, brain stimulation and imaging.
K1. Your Wandering Mind: Neuronal Correlates and Behavioral Consequences
Hours: 05:00 PM ~06:30 PM, July 13, Friday
Keynote Lecture, Premier Ballroom C
Speaker: John Maunsell,
                 Alice and Rodman W. Moorhead III Professor of Neurobiology at Harvard Medical School / USA
K1 John Maunsell
Dr. John Maunsell has made many important contributions to our understanding of the function and organization of the visual cerebral cortex. His work as a graduate student at the California Institute of Technology with Dr. David Van Essen included anatomical studies with which he formulated the original version of the now well-known scheme showing a hierarchy of visual cortical areas. This hierarchy has been important framework for understanding the functional organization of visual cortex.
As a postdoctoral fellow with Dr. Peter Schiller at the Massachusetts Institute of Technology, Maunsell characterized the separate visual "ON" and "OFF" pathways, and the role of these and other parallel pathways in processing specific attributes of visual stimuli. He continued work on the general problem of the significance of parallel visual pathways when he set up his own lab at the University of Rochester, where he provided the first detailed description of the relationship between subcortical and cortical visual processing pathways. Maunsell's work provided basic underpinnings for much of our current understanding of both hierarchical and parallel organization in the visual system.
When Maunsell moved to the Baylor College of Medicine, he focused on the challenging question of the effects of behavioral state on the processing of visual information, a question he currently pursues at Harvard Medical School, where he is the Alice and Rodman W. Moorhead III Professor of Neurobiology. By recording the activity of individual neurons in monkey trained to perform carefully engineered visual tasks, Maunsell has shown that neural signals throughout much of visual cortex are profoundly affected by attention. His recent work has revealed that this modulation by attention is greatly influenced by normalization mechanisms that exist at all levels of sensory processing.
Maunsell's contributions have been recognized by many awards and honors, including election to the American Association for the Advancement of Science. His research has been funded by the National Institutes of Health, the Howard Hughes Medical Institute and the Office of Naval Research. Maunsell has served on many panels and editorial boards, and has been a handling editor for Vision Research and Visual Neuroscience. He currently serves as Section Head for Sensory Systems for the Faculty of 1000 and Editor-in-Chief for The Journal of Neuroscience.
" No matter how hard we focus on a task, we cannot prevent our attention from wandering. By recording simultaneously from dozens of neurons in visual cerebral cortex, it is now possible to obtain a nearly-instantaneous measure of how visual attention is allocated. This approach is providing new insights into the mechanisms that control attention to locations and features, and how short-term drifts in attention affect behavioral performance."
 
K2. Probing Visual Processing Outside of Conscious Awareness
Hours: 05:00 PM ~ 06:30 PM, July 14, Saturday
Keynote Lecture, Premier Ballroom C
Speaker: Randolph Blake, Centennial Professor of Psychology/Opthalmology at Vanderbilt University
                 and Professor of Brain & Cognitive Sciences at SNU
K2 Randolph Blake
Blake’s influential work artfully blends psychophysics, comparative psychology, neural modeling and brain imaging to study important aspects of perception including binocular vision, motion perception, visual grouping, multisensory integration and synesthesia. Besides advancing our understanding of perception and its neural bases, his work bears on clinical conditions including autism and schizophrenia.
Born December 22, 1945, Dallas Texas; BA University of Texas, Arlington, 1967; Ph.D. Vanderbilt University, 1972; NIHM Postdoctoral Fellow, Baylor College of Medicine, 1972-74; Assistant to Full Professor, Northwestern University, 1974-1987; Professor of Psychology/Kennedy Center Fellow, Vanderbilt University, 1987–2001; Centennial Professor, Vanderbilt University, 2001–present. Elected Fellow, American Association for the Advancement of Science, 1987; Elected Fellow, American Psychological Association, 1990; Fellow, Japan Society for Promotion of Science, 1992; William Evans Professorship, Otago University, 1995; Elected Fellow, Society of Experimental Psychologists, 2005; Elected Fellow, American Academy of Arts and Science, 2006; Earl Sutherland Award, 2000; American Psychological Association, Early Career Award, 1977; NIH Career Development Award, 1978-83; Distinguished Alumni Award, University of Texas, Arlington, 2002; Distinguished Faculty Award, Vanderbilt University, 2002; Ig Nobel Prize, AIR/Harvard, 2006; Jefferson Award, Vanderbilt University, 2008; Elected Fellow, Association for Research in Vision and Ophthalmology. 2010; Foreign Scholar, World Class University Initiative, South Korea, 2010-12; Elected Member, National Academy of Sciences, 2012.
During his career spanning close to four decades, Randolph Blake has made lasting contributions, empirical and theoretical, to our understanding of visual perception. During his early career, Blake published a series of fascinating papers on vision in the cat, at that time the species of choice in neurophysiological studies of mammalian vision. His later work on motion perception established clear links between binocular stereopsis and 3D structure from motion, culminating in a highly original neural model of kinetic depth. Most notably, Blake has intensively studied human binocular vision, publishing landmark papers on binocular summation, stereopsis and binocular rivalry. His Psychological Review paper on rivalry, the most widely cited theoretical paper on that topic, stimulated an explosion of interest in rivalry within cognitive neuroscience and neurophysiology. Blake is the acknowledged expert on rivalry and perceptual bistability, as evidenced by his numerous invited chapters and edited volume. Blake has also devised clever, revealing “psychoanatomical” strategies for identifying neural sites of action within human vision, and he now supplements those strategies with innovative studies using brain imaging. Blake’s recent psychophysical and brain imaging work on perception of biological motion has sparked keen interest in that topic, and his innovative studies of synesthesia have confirmed the perceptual reality of this beguiling phenomenon. Blake has published over 250 articles in major psychology and neuroscience journals (h-index = 58), including 14 in the Nature journals, 9 in Science and 4 in PNAS; he has authored 25 chapters in edited volumes, and he was co-editor of Binocular Rivalry (MIT Press, 2005), the definitive source on this popular phenomenon. His research has been funded by grants from the National Institutes of Health and/or the National Science Foundation. During his career Blake has supervised 45 doctoral and postdoctoral students, many who have assumed successful research careers at universities and health science centers. He is active in many scientific organizations and in the public promotion of science education.
" Visual awareness seems to occupy center stage in our perceptual world, but is that just an illusion? To rephrase that question in a tractable form, what aspects of visual processing transpire outside of awareness? Binocular rivalry – fluctuations in perceptual dominance between conflicting visual stimuli -- affords one useful tool for answering that question, and this talk highlights some surprising discoveries that have been made using that tool."
 
K3. Feature-based Attention in Health and Disease
Hours: 05:00 PM ~ 06:30 PM, July 15, Sunday
Keynote Lecture, Premier Ballroom C
Speaker: Jason Mattingley, Foundation Chair in Cognitive Neuroscience of the Queensland Brain Institute
                 and the School of Psychology at the University of Queensland
K3 Jason Mattingley
Professor Jason Mattingley is Foundation Chair in Cognitive Neuroscience at The University of Queensland, where he holds a joint appointment between the Queensland Brain Institute and School of Psychology.
He received his PhD in neuropsychology from Monash University in 1994, and subsequently spent several years as a post-doctoral research fellow in Cambridge, England, where he was also elected a Fellow of King’s College. His research spans the broad field of cognitive neuroscience, with particular emphasis on mechanisms underlying visual perception, selective attention and motor control. His research team employs brain imaging and brain stimulation techniques to investigate various aspects of cognition in healthy individuals and in patients with neuropsychological impairments arising from brain injury.
He has published more than 150 articles in scholarly journals and books, including numerous papers in Nature, Science and Nature Neuroscience. His work has received more than 6,000 citations (h-index = 44). Professor Mattingley currently sits on the editorial boards of several international journals, including Brain & Cognition, Cognitive Neuroscience, Cortex, and Neuropsychologia. His research is funded by grants from both the Australian Research Council and the National Health and Medical Research Council. In 2012 he was awarded a prestigious Australian Research Council Laureate Fellowship. Professor Mattingley has received Early Career Awards from the Academy of Social Sciences in Australia and the Australian Psychological Society. In 2007 he was elected a Fellow of the Academy of Social Sciences in Australia. He currently sits on the Australian Academy of Science’s National Committee for Brain and Mind.
Professor Mattingley has supervised more than 40 graduate students and post-doctoral research fellows, many of whom now occupy senior faculty positions in Australia and Europe. He has made a sustained contribution to promoting science in the community, and is a founding member of The University of Queensland’s Science of Learning Centre.
" Mechanisms of attention are crucial for prioritizing sensory inputs that are currently relevant for guiding behavior. Much recent work has focused on how the human visual system selects subsets of stimuli based upon elementary features such as color. I will review recent work in which we have used novel behavioral tasks, combined with non-invasive imaging and stimulation techniques, to investigate feature-based selection processes in the healthy brain and in patients with central and peripheral visual dysfunction."
Symposia (S1~S6)
Each of the 6 symposia consists of a set of thematically focused oral presentations on a particular topic, with an organizer promoting active discussion and integration. Two symposia will be held for each day, one in the first 2 hours of the morning session and the other after poster sessions in the afternoon.
S1. Seeing Biological Motion Through Different Eyes
Hours: 09:00 AM ~ 11:00 AM, July 13, Friday
Symposium Session, Room 113, 114
 
S1-1
Individual differences in the perception of biological motion
 
 
Ian Thornton
Swansea University, UK
 
S1-2
The temporal aspect of neural activities underlying the perception of biological motion
 
 
in infants, children, adults and patients with
 
 
Masahiro Hirai
Institute for Developmental Research, Aichi Human service Center, Japan
 
S1-3
Perception of biological motion in schizophrenia and obsessive-compulsive disorder
 
 
Jejoong Kim
Duksung Women’s University, Korea
 
S1-4
Experience dependent differences in brain mechanisms of action observation:
 
 
From watching dance to CCTV surveillance
 
 
Frank Pollick
University of Glasgow, UK
 
S1-5
TBA(To be announced)
 
 
Songjoo Oh
Seoul National University, Korea (Organizer)
"Our ability to perceive the actions of others is crucial for survival. Surprisingly, recent evidence suggests that this ability can vary quite considerably from individual to individual. In this symposium we will explore the nature and development of biological motion processing ability in the normal population, in clinical settings and as a function of domain-specific expertise."
 
S2. The Brain in Action
Hours: 02:30 PM ~ 04:30 PM, July 13, Friday
Symposium Session, Room 113, 114
 
S2-1
The contribution of form and motion to the perception of human actions
 
 
James C. Thompson
George Mason University, USA
 
S2-2
Body Movements: From Dots to Bots
 
 
Ayse Pinar Saygin
UCSD, USA
 
S2-3
Double dissociation between the extrastriate body area and the posterior superior temporal sulcus
 
 
during biological motion perception: converging evidence from TMS and fMRI
 
 
Joris Vangeneugden
Italian Institute of Technology, Italy
 
 
 
BIDCM, Harvard, USA (Organizer)
 
S2-4
On the (in)dependence of visual cues and cortical regions for judging trustworthiness and
 
 
sex from faces: TMS, behavioural and human lesion evidence
 
 
 Anthony Atkinson
Durham University, UK
"The perception of acting conspecifics engages a number of brain regions. Typically pSTS counts as the protagonist, but also the premotor cortex and areas co-activated by static bodies (EBA) and faces (OFA/FFA) light up. Thompson will talk about a parsimonious conceptual dichotomy (form vs. motion) using fMRI in humans, supplemented with fMRI data both from humans and macaque monkeys by Orban. The other talks all employ TMS over pSTS and a stimulation focus on premotor (Sayin), EBA (Vangeneugden) or OFA (Atkinson), all aiming at a better understanding of the neural underpinnings of the action perception network."
 
S3. Adaptation and Aftereffects
Hours: 09:00 AM ~ 11:00 AM, July 14, Saturday
Symposium Session, Room 113, 114
 
S3-1
The serial dependence of visual perception
 
 
David Whitney
UC Berkeley, USA
 
S3-2
Colorfulness perception adapting to natural scenes
 
 
Yoko Mizokami
Chiba University, Japan
 
S3-3
Misbinding of color and motion in human V2 revealed by color-contingent motion adaptation
 
 
Fang Fang
Peking University, China
 
S3-4
The tilt aftereffect and position-shift illusions
 
 
Ikuya Murakami
Tokyo University, Japan (Organizer)
 
S3-5
Adaptive coding of the input: Functional benefits from adaptation to motion,
 
 
tilt and brightness variation
 
 
Arni Kristjansson
U Iceland, Iceland (Organizer)
"There are many well-known aftereffects in vision thought to reflect how the visual system adapts to the input statistics in the environment. Such aftereffects may therefore be no mere curiosities but may instead reflect strategic gain modulations and changes of responding on behalf of the visual system. The symposium will bring together speakers who have investigated such adaptation, with the aim of uncovering its' functional benefits."
 
S4. Mechanisms of Motion Perception
Hours: 02:30 PM ~ 04:30 PM, July 14, Saturday
Symposium Session, Room 113, 114
 
S4-1
Motion detection based on recurrent network dynamics
 
 
Bart Krekelberg
Rutgers University, USA
 
S4-2
Hierarchy of direction-tuned motion adaptation in human visual cortex
 
 
Sang-Hun Lee
Seoul National University, Korea
 
S4-3
Spatial processing of visual motion
 
 
Shin’ya Nishida
NTT Communication Science Laboratories, Japan
 
S4-4
Optimal signal integration across spatiotemporal frequency channels in visual speed perception
 
 
Alan Stocker
University of Pennsylvania, USA
 
S4-5
Perceptual and neural consequences of rapid motion adaptation
 
 
Duje Tadin
University of Rochester, USA (Organizer)
"Motion perception is arguably the best understood visual sub-modality, largely because of longstanding research focus using a range of converging methodological approaches. This symposium will present recent advances in this active field of research. Talks will report results from psychophysics, neurophysiology, computational modeling and neuroimaging."
 
S5. New Perspectives on Ecological Optics
Hours: 09:00 AM ~ 11:00 AM, July 15, Sunday
Symposium Session, Room 113, 114
 
S5-1
Accuracy of walking direction with limited or no visual feedback
 
 
Jeffrey Saunders
Hong Kong University
 
S5-2
Shifting the perspective on biological movement perception
 
 
Zsolt Palatinus
University of Connecticut, USA
 
S5-3
Dynamic invariants in walking though an aperture while holding a tray with two hands
 
 
Endre Kadar
University of Portsmouth, UK
 
S5-4
Formal Modeling of Affordance in Human-included Systems
 
 
Namhun Kim
Ulsan National Univ. of Science and Technology, Korea
 
S5-5
Dynamic occlusion deficiency in patients with Alzheimer’s disease
 
 
Nam-Gyoon Kim
Keimyung University, Korea
"This symposium will provide a forum in which participants explore both the successes and the future challenges posed by “ecological optics”. Participants will examine the contributions of Gibson's theory of ecological optics to current research efforts as they explore the ongoing challenges posed by such key Gibsonian concepts as "affordance" and "optical invariants," as well as the role of vision in controlling movement, Gibson's paradigmatic example."
 
S6. Across the Surface of Conscious Visual Awareness
Hours: 02:30 PM ~ 04:30 PM, July 15, Sunday
Symposium Session, Room 113, 114
 
S6-1
Attention and Awareness
 
 
Sheng He
University of Minnesota, USA
 
S6-2
Neural representation in the apparent motion path
 
 
Won Mok Shim
Dartmouth College, USA
 
S6-3
Using visual consciousness to explore mental imagery and visual working memory
 
 
Joel Pearson
University of New South Wales, Australia
 
S6-4
Visual awareness modulated by conditioned fear during bistable perception
 
 
Chai-Youn Kim
Korea University, Korea
 
S6-5
Visual consciousness tracked with direct intracranial recording from early and
 
 
high-level visual cortices in humans and monkeys
 
 
Naotsugu Tsuchiya
Monash University, Australia; Japan Science and Technology Agency, Japan
"We will present recent studies exploiting various paradigmatic phenomena for manipulating conscious visual awareness, which includes bistable perception, crowding, and continuous flash suppression. The symposium will further explore factors influencing our becoming consciously aware of visual stimuli; attention, imagery, emotion, and learning will be considered. The neural correlates of conscious visual awareness will also be discussed."
Oral Schedule
O1. Eye & Brain
Hours: 09:00 AM ~ 11:00 AM, July 13, Friday
Oral Session, Room 116, 117
 
09:00 am O1-1
Decomposition of BOLD activity into tuned and untuned components reveals
 
 
cohabitation of stimulus and choice information in V1
 
 
Kyoung whan Choe
 
 
09:20 am O1-2
Suppression of spontaneous activity before visual response in the
 
 
primate V1 neurons during a visually-guided saccade task
 
 
Choongkil Lee
 
10:00 am O1-3
Action word related to walk heard by the ears activates visual cortex and superior
 
 
temporal gyrus: An fMRI study
 
 
Naoyuki Osaka
 
 
10:20 am O1-4
The contributions of the ON and OFF gain difference to the contextual effect in macaque
 
 
monkey V1
 
 
Chun-I Yeh
 
 
10:40 am O1-5
The correlation between subjective and objective visual function test in optic neuropathy
 
 
patients
 
 
Ungsoo Kim
 
 
 
O2. Attention
Hours: 14:30 pm – 16:30 pm, July 13, Friday
Oral Session, Room 116, 117
 
14:30 pm O2-1
Decoupling orientation specificity from perceptual learning in pmblyopic vision
 
 
Cong Yu
 
 
14:50 pm O2-2
Expmining Vision and Attention in Sports Performance Using a Gaze-Contingent Paradigm
 
 
Donghyun Ryu
 
15:10 pm O2-3
Temporal order of attentional disengagement and reengagement:
 
 
estimation with steady-state visual evoked potential
 
 
Satoshi Shioiri
 
 
15:30 pm O2-4
Selective attention modulates the nonlinear interaction between stimuli,
 
 
YeeJoon Kim
 
 
15:50 pm O2-5
Tracking location and features of objects within visual working memory
 
 
Michael Patterson
 
 
16:10 pm O2-6
Predicting Performance in Natural Scene Searches
 
 
Matthew Asher
 
 
 
O3. Grouping
Hours: 09:00 AM ~ 11:00 AM, July 14, Saturday
Oral Session, Room 116, 117
 
09:00 am O3-1
Large-scale contextual effects in early human visual cortex
 
 
Sung Jun Joo
 
 
09:20 am O3-2
Asynchrony detection in amblyopes
 
 
Pi-Chun Huang
 
09:40 am O3-3
Functional architecture of noise correlations in human early visual cortex
 
 
and its relationship with coherent spontaneous activity,
 
 
Jungwon Ryu
 
 
10:00 am O3-4
Two types of crowding effects revealed by word inversion experiments
 
 
Chien-Chung Chen
 
 
10:20 am O3-5
The effects of segmentation and spatial geometry on the tilt illusion
 
 
Cheng Qiu
 
 
10:40 am O3-6
Contextual influence on perceptual judgment is independent of the eye of
 
 
origin of the contextual inputs: implications for extra-striate
 
 
Zhai Fangwen
 
 
 
O4. Form & Depth
Hours: 14:30 pm – 16:30 pm, July 14, Saturday
Oral Session, Room 116, 117
 
14:30 pm O4-1
The Visibility of Temporal Artifacts in Stereo 3D Displays
 
 
Joohwan Kim
 
 
14:50 pm O4-2
Centre-surround interactions in the aging system:
 
 
effects of centre-surround contrast and stimulus duration
 
 
Allison McKendrick
 
15:10 pm O4-3
Perceived blur is integrated locally in natural images,
 
 
Christopher Taylor
 
 
15:30 pm O4-4
Medial Axis for the Cortical Representation of 3D Shape
 
 
Wei Qiu
 
 
15:50 pm O4-5
How does binocular disparity affect the impressions in viewing stereogrpms?
 
 
Makoto Ichikawa
 
 
16:10 pm O4-6
Perception of border ownership by multiple Gestalt factors
 
 
Shohei Matsuoka
 
 
 
O5. Object & Face
Hours: 09:00 AM ~ 11:00 AM, July 15, Sunday
Oral Session, Room 116, 117
 
09:00 am O5-1
Cognitive functions influence lightness perception
 
 
Suncica Zdravkovic
 
 
09:20 am O5-2
Mona Lisa effect of eyes and face
 
 
Takao Sato
 
09:40 am O5-3
Dissociating Face Identity and Facial Expression processing via Visual Adaptation
 
 
Hong Xu
 
 
10:00 am O5-4
Do kids see what adults see despite a transient disadvantage?
 
 
Sheila Crewther
 
 
10:20 am O5-5
When the world changes in your hands: similarity ratings of objects morphing
 
 
during active exploration
 
 
Haemy Lee
 
 
10:40 am O5-6
Mapping the other-race-effect in face recognition using a three-experiment test battery
 
 
BoRa Kim
 
 
 
O6. Motion
Hours: 14:30 pm – 16:30 pm, July 15, Sunday
Oral Session, Room 116, 117
 
14:30 pm O6-1
Perceived timing of different features at surface formation
 
 
Daniel Linares
 
 
14:50 pm O6-2
Relationship between orientation- and direction-selective responses in
 
 
the human visual cortex
 
 
Sang Wook Hong
 
15:10 pm O6-3
Hic-et-nunc (here-and-now) encoding of a moving target for its saccadic foveation
 
 
Laurent Goffart
 
 
15:30 pm O6-4
Visual perception of object motion during self-motion does not depend on
 
 
heading perception
 
 
Diederick C. Niehorster
 
 
15:50 pm O6-5
The relationship between pursuit eye movements and perception during binocular rivalry
 
 
Laila Hugrass
 
 
16:10 pm O6-6
Curved apparent motion initiated by a causal launch
 
 
Sung-Ho Kim
 
 
 
Poster Schedule
P1. Action & Virtual Environment
       Color & Lightness
       Multisensory Perception
       Form & Depth
Hours: 11:30 pm – 12:30 pm, July 13, Friday
Poster Session, Lobby 2F
 
P1-1
The effect of convergence training on visual discomfort in 3D TV viewing
 
 
Hyun Min Jeon
 
 
P1-2
Action makes it clear: Motor capability enhances visual sensitivity in distant space
 
 
Jeongho Park
 
P1-3
Individual differences in chromostereopsis under natural viewing conditions
 
 
Takefumi Hayashi
 
 
P1-4
Neural correlates of fading illusion revealed in responses of V1 neurons
 
 
Kohei Kurihara
 
 
P1-5
Effect of luminance contrast on the color selective responses in the inferior temporal cortex
 
 
neurons of the macaque monkey
 
 
Tomoyuki Namima
 
 
P1-6
The correlation in appearance between gold and metallic gloss
 
 
Tomohisa Matsumoto
 
 
P1-7
Modern Display Technology in Vision Science: Assessment of OLED and LCD Monitors
 
 
Tobias Elze
 
 
P1-8
The effect of spatial frequency, color and width of interval on chromatic induction
 
 
Cha Hannim
 
 
P1-9
Relationship between color shifts in Land__s two-color method and higher- and
 
 
lower-level visual information
 
 
Saki Iwaida
 
 
P1-10
The Association between Colors and Emotions
 
 
Chen Yen-Yu
 
 
P1-11
Visual function and neurotoxic symptoms related to exposure to organic solvents
 
 
Ingrid Jimenez Barbosa
 
 
P1-12
Different double-pulse distinguishability among the luminance opponency, the red-green opponency,
 
 
and the blue-yellow opponency
 
 
Lin Shi
 
 
P1-13
Color induction from surround color under interocular suppression
 
 
Ichiro Kuriki
 
 
P1-14
Relationship between colorfulness adaptation and spatial frequency components in natural image
 
 
Shun Sakaibara
 
 
P1-15
Categorical color perception of LED illuminant color for deuteranomal
 
 
Saeko Oishi
 
 
P1-16
The effect of visual stimuli of LED lighting by color temperature and illuminance control on attention
 
 
and meditation level of mind
 
 
Chan-Su Lee
 
 
P1-17
Pseudo-Haptics using motion in depth stimulus and second order motion stimulus
 
 
Shuichi Sato
 
 
P1-18
The Effect of Background Music on Working Memory
 
 
Ding-Hao Liu
 
 
P1-19
Horizontal vertical illusion by touch
 
 
Yoshinari Kinoshita
 
 
P1-20
The relation of eye and hand movement during multimodal recall memory
 
 
Eun-Sol Kim
 
 
P1-21
A study on stereoanomalies: comparison of upper and lower visual field
 
 
Masahiro Ishiia
 
 
P1-22
Upper-lower asymmetry in slant perception and natural scene statistics
 
 
Makoto Inagami
 
 
P1-23
The difference between the perceived depth of shapes with and without head movement
 
 
Aya Shiraiwa
 
 
P1-24
Neural representation of gloss in the macaque inferior temporal cortex
 
 
Akiko Nishio
 
 
P1-25
Filling-in the blind spot with the average direction
 
 
Sang-Ah Yoo
 
 
P1-26
Influence of depth from luminance contrast on vergence eye movements
 
 
Akinori Hiratani
 
 
P1-27
Localizing regions activated by surface gloss in macaque visual cortex by fMRI
 
 
Gouki Okazawa
 
 
P1-28
Supranormal orientation selectivity of visual neurons in orientation-restricted animals
 
 
Kota S. Sasaki
 
 
P1-29
Banding detection exceeds spatial frequency limit of the visual system by single frequency grating
 
 
and jitter
 
 
Koichiro Shinohara
 
 
P1-30
Axis orientation effects on interaction between color-selective symmetry detectors
 
 
Chia-Ching Wu
 
 
P1-31
Mahjong tile illusion: Illusory shape perception induced by object surface texture
 
 
Ryosuke Niimi
 
 
P1-32
Response of human visual system to paranormal stimuli appearing in three-dimensional display
 
 
Jisoo Hong
 
 
 
P2. Attention & Learning
       Object, Face & Body
Hours: 11:30 pm – 12:30 pm, July 14, Saturday
Poster Session, Lobby 2F
 
P2-1
Visual short-term memory lacks sensitivity to stereoscopic depth changes but is much sensitive to
 
 
monocular depth changes
 
 
Kang Hae-In
 
 
P2-2
Effects of color preview history on inter-trial inhibition of selective attention
 
 
Eunsam Shin
 
P2-3
Visibility modulates the effect of spatial attention
 
 
Ye Ran Jung
 
 
P2-4
What is special about action video games for training visual cognition?
 
 
Adam Oei
 
 
P2-5
Retrospective perceptual distortion of position representation does not lead to delayed localization
 
 
Ricky K. C. Au
 
 
P2-6
Redundancy effects on Stroop interference
 
 
Ji Young Lee
 
 
P2-7
Encoding of graded changes in validity of spatial priors in human visual cortex
 
 
Yuko Hara
 
 
P2-8
Applications of the Magnocellular Advantage Model: Developmental Aspects of
 
 
Dorsal Stream Processing
 
 
Melanie Murphy
 
 
P2-9
Spatial characteristics of visual attention estimated by SSVEP
 
 
Hajime Honjo
 
 
P2-10
Salient local targets receive higher interference from collinear global distractors.
 
 
Ming-Chun Hua
 
 
P2-11
Attentional control setting did not alter the interference from global collinear distractor in
 
 
visual search
 
 
Wan-Chen Chang
 
 
P2-13
Location word cues__ effect on location discrimination task: cross-modal study
 
 
Satoko Ohtsuka
 
 
P2-14
Noise Effect to Cross-Modality Stop Signal Task in Patients with Attention-Deficit /
 
 
Hyperactivity Disorder
 
 
Hisn-Wei Wu
 
 
P2-15
EEG Analysis on Story Change in TV Drama
 
 
Chung-Yeon Lee
 
 
P2-16
Dual-bound model and the role of time bound in perceptual decision making
 
 
Daeseob Lim
 
 
P2-17
Individual Differences in Dynamic Criterion Shifts during Perceptual Decision Making
 
 
Issac Rhim
 
 
P2-18
Temporal and featural separation of memory items play little role for VSTM-based change detection
 
 
Dae-Gyu Kim
 
 
P2-19
The effect of item repetition on item-context association depends on the prior exposure of items
 
 
Hongmi Lee
 
 
P2-21
Searching for Multiple Targets using the iPad
 
 
Ian Thornton
 
 
P2-22
Aging effects on the visual scanning of emotional faces
 
 
Suzane Vassallo
 
 
P2-23
Deficits on preference but not attention in patients with depression: Evidence from gaze cue
 
 
Li Jingling
 
 
P2-24
Emotional contents of faces are not only determined by visual characteristics of facial features alone
 
 
but also by what the features do stand for
 
 
Joo-Seok Hyun, Ph.D.
 
 
P2-25
Love priming and perception bias
 
 
Hong Im Shin
 
 
P2-26
Comparison between normal people and schizophrenic patients on face recognition
 
 
Yl-Woo Lee
 
 
P2-27
Electrophysiological correlates of conscious and unconscious processing of emotional faces in
 
 
individuals with high and low autistic traits
 
 
Svjetlana Vukusic
 
 
P2-28
An amplification of feedback from facial muscles strengthened sympathetic activations to
 
 
emotional facial cues
 
 
Younbyoung Chae
 
 
P2-29
Comparing the other-race-effect and congenital Prosopagnosia using a three-experiment test battery
 
 
Janina Esins
 
 
P2-30
Discrimination of facial expressions in patients with Parkinson's disease
 
 
Chia-Yao Lin
 
 
P2-31
In-group advantage in negative facial expressions
 
 
Li-Chuan Hsu
 
 
P2-32
Influence of spatial frequency information on face gender with different expressions
 
 
kuei-an li
 
 
P2-33
Influence of emotional context on memory: Déjà-vu made me hesitated
 
 
Guei Gen Tsai
 
 
P2-34
Similar dimensions underlie emotional and conversational expressions in Korean and German
 
 
cultural contexts
 
 
Ahyoung Shin
 
 
P2-35
The KU facial expression database: a validated database of emotional and conversational expressions
 
 
Haenah Lee
 
 
P2-36
Spatial frequency characteristics of Chinese character recognition in different complexity categories
 
 
On-Ting Lo
 
 
P2-37
Processing affordance information from invisible tool images
 
 
Shinho Cho
 
 
P2-38
What gives a face its race?
 
 
Wonmo Jung
 
 
 
P3. Eye & Brain
       Grouping & Perceptual organization
       Object & Biological Motion
       Perception of Art
Hours: 11:30 pm – 12:30 pm, July 15, Sunday
Poster Session, Lobby 2F
 
P3-1
Ophthalmologic factors influencing asthenopia with watching 3D displays
 
 
Sungwook Wee
 
 
P3-2
Brain activity correlated with visual discomfort during stereoscopic depth perception
 
 
Hanmo Kang
 
P3-3
Differences in EEG signals between the 3D and 2.5D Motion Pictures
 
 
Dal-Young Kim
 
 
P3-4
Binocular Visual Acuity in Exotropia
 
 
Yang Heekyung
 
 
P3-5
Temporal interactions between binocular inputs in visual evoked-potentials
 
 
Sunkyue Kim
 
 
P3-6
A method to estimate the pupil center from eye image
 
 
Hyuma Morita
 
 
P3-7
On prototyping a visual prosthesis system with artificial retina and optic nerve based on
 
 
arrayed microfibers
 
 
Jian Hong, Chen
 
 
P3-8
Eye position distribution depending on head orientation in natural scene viewing
 
 
Ryoichi Nakashima
 
 
P3-9
Roles of subthreshold LFP induced by receptive field surround for response modulation in monkey V1
 
 
Kayeon Kim
 
 
P3-10
Crossmodal perceptual grouping modulates subjective causality between action and outcome
 
 
Takahiro Kawabe
 
 
P3-11
Individual differences in the perception of biological motion and fragmented figures are
 
 
not correlated
 
 
Eunice L Jung
 
 
P3-13
Dynamics of unconscious contextual effects in orientation processing
 
 
Isabelle Mareschal
 
 
P3-14
The cross-modal double flash illusion cannot be explained by interactions between primary sensory
 
 
representations
 
 
Warrick Roseboom
 
 
P3-15
Perceived 3D shape from motion for small and large perspective changes
 
 
Young Lim Lee
 
 
P3-16
Neural substrates of interval timing in the human brain
 
 
Hansem Sohn
 
 
P3-17
Why is it difficult to see moving objects in the dusk? ? Visual motion priming reveals two motion
 
 
mechanisms functioning under mesopic vision
 
 
Sanae Yoshimoto
 
 
P3-18
Examining neural representation of bi-directional motions with directional performance in
 
 
transparency perception
 
 
Osamu Watanabe
 
 
P3-19
Failure to extract velocity information from contours induces the footsteps illusion
 
 
Tsubasa Tano
 
 
P3-20
Two and four stroke apparent motions can induce self-motion perception
 
 
Shinji Nakamura
 
 
P3-21
Detection of focal points of hierarchical motion using point-light display
 
 
Reiko Yakushijin
 
 
P3-22
Perception of emotion on object movement
 
 
Moritaka Kouroki
 
 
P3-23
Center/surround motion interactions measured using a nulling procedure
 
 
Soo Hyun Park
 
 
P3-24
Pre-Existing Brain States Predict Aesthetic Judgments
 
 
Po-Jang (Brown) Hsieh
 
 
P3-25
Creativity in Drawing: The Role of Visual Perception in Postural Changes
 
 
Miho Nishizaki
 
 
P3-26
The "perceptual novelty" and the education effect; a neuroaesthetic study
 
 
Eunae Lee
 
 
P3-27
Eye-movement of observers viewing implied motion in abstract paintings
 
 
Ji-Eun, Kim
 
 
P3-28
Triadic Perception: The Alignment of Three (or More) Visual Cues Allows for the Inference of
 
 
3D Depth in a 2D Picture
 
 
Norman D. Cook