| Poster Sessions - Monday, 21 August 2006 |
| Binocular and Stereo Vision Monday 09:00-18:30 / Attended 10:30-11:30 |
| 1 |
I M Boychuk | Does stereopsis reflect different degree of binocular interaction in amblyopia? |
| 2 |
T Z wang | Why RDS (random-dot stereogram) can induce stereopsis without any monocular cues |
| 3 |
Y Loginovich | Binocular fusion limits in presence of colour contrast |
| 4 |
K Uehira | A model for depth perception of 3-D images displayed by two stereoscopic displays at diferent depths |
| 5 |
L C J van Dam | Saccadic retinal shifts correlate with perceptual alternations in binocular rivalry |
| 6 |
R Goutcher | Perception of multi-stable stereograms |
| 7 |
A Jurcoane | Cortical binocularity in human stereoblindness: A study with functional magnetic resonance imaging |
| 8 |
I Tsirlin-Zaharescu | Perceptual asymmetry in stereoscopic transparency |
| 9 |
D A Wismeijer | The influence of perceived surface slant of an ambiguous stimulus on vergence |
| 10 |
H Zhang | An indispensable factor for 3D illusory surface perception in binocular viewing |
| 11 |
S Veser | Observers perceptual states modulate ERP components differently in orientation- and colour rivalry |
| 12 |
A Najafian | Frohlich effect occurs beyond the level of binocular integration |
| 13 |
S Jainta, W Jaschinski, J Hoormann | A comparison of objective and psychophysical measurements of step responses in disparity vergence eye movements |
| 14 |
P Scarfe | Viewing an object from above: the role of height in the visual field and object contour in the perception of 3D shape |
| 15 |
R H Black, V | Spot more differences with a synopter: Reducing inter-ocular disparity increases participants ability to identify discordant regions in pictures and photographs |
| 16 |
E W Graf | Object information and binocular rivalry |
| 17 |
M S Treder | Breaking up symmetry in depth |
| 18 |
T Borra | The binocular oblique effect |
| 19 |
N N Vasiljeva | Age dynamics of ocular dominance assessed in conditions of binocular rivalry |
| 20 |
H Bridge | Mapping visual areas sensitive to binocular disparity using fMRI |
| 21 |
R J A van Wezel | Percept choices at the onset of ambiguous or binocular rivalry stimuli |
| 22 |
K Brecher | Monocular versus binocular perception of mirror anamorphoses |
| 23 |
H Kuribayashi | Minimum depth discrimination in a stereoscopic display using DFD effect |
| 24 |
T Knapen | Multiple slant rivalry stimuli alternate independently |
| 25 |
H Takada | Fusional limit of distance between front and rear images in the depth-fused 3-D visual illusion |
| 26 |
K M Schreiber | Retinal correspondence and the theoretical horopter |
| 27 |
C Q Wu | Binocular rivalry, binocular transparency, and layer 4C in V1 as neural substrate for phenomenal visual consciousness |
| 28 |
J J A van Boxtel | Exploring the parameter space of stimulus rivalry |
| 29 |
C M P Muller | Testing a counterintuitive prediction of optimal cue combination |
| 30 |
C Devisme | Depth aftereffects influence detection thresholds of concave or convex surface deformation |
| 31 |
L Chuang | Familiar form and motion influence perceptual dominance |
| 1D, 2D, 3D shape, scene, space Monday 09:00-18:30 / Attended 10:30-11:30 |
| 32 |
M Grosjean | Dividing attention between shape and depth |
| 33 |
B Ons | The effect of category learning on the representation of separable shape dimensions: Aspect ratio and curvature |
| 34 |
J Vangeneugden | The coding of 3D-shape from shading in macaque areas TE and TEO |
| 35 |
Vizireanu Dragos Nicolae | Generalized morphological 3D shape decomposition grayscale interframe interpolation method |
| 36 |
D M Bennett | Global shape coherence: Probing the mechanisms underlying shape detection |
| 37 |
W J Adams | The light-from-above prior in visual search and shape judgements |
| 38 |
C R Gillebert | The influence of categorisation on perceived shape similarity within natural object categories |
| 39 |
P Sarkheil | Repetition priming in 3-d form and motion recognition |
| 40 |
H Brettel | Contextual relativity of 3D object representations |
| 41 |
T Yoshizawa | Effect of contrast on motion surface labeling in 3D structure-from-motion |
| 42 |
O I Krasilnikova | Investigation of autocorrelation coefficients of 3D objects shells |
| 43 |
T Mukhitdinova | Perspectives of VR research in Kazakhstan |
| 44 |
G J Brelstaff | Perceptual tests for 3-D pseudo-holographic displays |
| 45 |
T Imura | Asymmetry on the perception of motion in depth by moving cast shadows |
| 46 |
M Wagner | Vergence eye movements based on monocular depth cues elicited by attention shifts between 2-D and 2½-D search layers |
| 47 |
H T Nefs | Induced motion-in-depth depends on eye movements |
| 48 |
R Sikl | Is the curvature of visual space isotropic? |
| 49 |
G G Van Belle | Transsaccadic memory for the position of stationary and moving objects in a 3D environment |
| 50 |
J W Huber | Station-point violation and its consequences for size perception in simulated minimal access surgery tasks |
| 51 |
M Demeyer | The early visual system’s confounded discrimination of object property and viewpoint changes contributes to the viewpoint-dependency of object recognition |
| 52 |
H Supèr | Distortions of visual space in fronto-parallel and saggital layouts |
| 53 |
O Toskovic | The geometry of visual space as a result of eye position shift |
| 54 |
A Koning | The role of objectness in the detection of visual regularities |
| Perceptual learning Monday 09:00-18:30 / Attended 10:30-11:30 |
| 55 |
H Kojima | Attentive visual search learning by practices |
| 56 |
K Parkosadze | Perceptual learning in roving conditions: Slow but specific |
| 57 |
K N Dudkin | Invariant visual-recognition in monkeys: Effect of the left prefrontal cortex lesion |
| 58 |
T G Tanner | Learning to use informative features in shape categorization |
| 59 |
E Tartaglia | Matching response to stimulus alternatives in perceptual learning |
| Vision Deceived Monday 09:00-18:30 / Attended 15:30-16:30 |
| 60 |
A K Dunn | Differential effects of the Judd illusion as a function of response modality: Hemispacial effects for pointing but not perceptual line matching |
| 61 |
| late withdrawal |
| 62 |
A-J Gutauskas | Illusion of the curvature with contrast variations |
| 63 |
D Bressanelli | A new optical-geometrical illusion |
| 64 |
I I Shoshina | The Poggendorff illusion in subjects with various psychophysiological state and various ways of presentation of the test figures |
| 65 |
U Budnik | The contribution of human brain areas for visual illusory effects. An fMRI-study on the illusory motion effect in the Pinna-Brelstaff-Figure |
| 66 |
A Barlasov Ioffe | Illusory world in retinal coordinates |
| 67 |
M Sinico | Interrupted side affects regularity of geometrical figures |
| 68 |
A Bielevicius | Perceived distortions of the straightness judgment |
| Perception in context Monday 09:00-18:30 / Attended 15:30-16:30 |
| 69 |
N Bulatova | Influence of contextual stripes on perceived distortions of length matching |
| 70 |
B Sayim | Effects of contextual elements on vernier thresholds in peripheral vision |
| 71 |
L O Nurminen | Long-range facilitatory interactions in suprathreshold contrast perception |
| 72 |
T P Saarela | Center-surround interactions in backward masking |
| 73 |
C Moutsiana | Activity evoked by a central moving stimulus depends on the direction of motion and spatial proximity of a surrounding stimulus; an fMRI study |
| 74 |
A Goujon | Implicit learning based on the semantic-category membership of the context |
| 75 |
A Bertulis | Influence of visual field anisotropy on curvature extrapolation |
| 76 |
R Van Lier | Catching Patches: Filling-in between edges |
| 77 |
P-C Gillet | Modulation of responses of simple and complex cells by differential contrast between center and periphery of receptive fields in area 17 of the cat |
| 78 |
G Chaumet | Visual object recognition: Priming of an object by the global organisation of the scene |
| Image processing, applications, models Monday 09:00-18:30 / Attended 15:30-16:30 |
| 79 |
V A Bunyakov | Robot visual sensing. Experience and future prospect |
| 80 |
L Paletta | Local descriptor groupings in reinforcement learning of sensory-motor attention |
| 81 |
L Paletta | Reinforcement learning for the selection of predictive cues in affordance-like perception |
| 82 |
M Lillholm | A category system on the shape index descriptor of local image structure induced by natural image statistics |
| 83 |
D R Schwarz | Synergetic model of recognition of Haken neural network |
| 84 |
V E Doubrovski | Benefits of exponent approximation of contrast sensitivity function for high spatial frequencies |
| 85 |
Vizireanu Dragos Nicolae | An new and improved error protection in video transmission method |
| 86 |
A Sadovnikov | Model based generation of random stimuli and parameter analysis for print unevenness evaluation |
| 87 |
A M Korsakov | Multiple angle shot computer vision systems. Future prospects |
| 88 |
A M Korsakov | Human vision system simulation for moving objects monitoring task solution |
| 89 |
V R Lutsiv | Computer simulation of attention fields in the task of image inspection and structural matching |
| 90 |
| late withdrawal |
| 91 |
B Choubey | Fixed pattern noise in natural visual system: a possible cause for contrast loss |
| 92 |
M A Hogervorst | Analysing the effect of filtering techniques on camera surveillance using eye movement recording |
| 93 |
J J McCann | Optical veiling glare limitations to in-camera scene radiance measurements |
| 94 |
Y E Shelepin | The foveola pixel discrimination and information capacity |
| 95 |
T Elze | Shorter than you think? Temporal precision of visual stimuli on computer monitors: Pitfalls and systematic errors |
| 96 |
P Kornprobst | Modeling cortical maps with feed-backs |
| 97 |
A J Noest | Statistical mechanics modelling of rivalrous dominance- and transition-durations |
| 98 |
S Capern | "Motion-Energy" model of primary visual cortex micro-column |
| 99 |
M I Trifonov | Automatic image contrast enhancement |
| 100 |
G Francis | Attentional effects on two stimulus afterimages: Theory and data |
| 101 |
P Kornprobst | Reverse-engeneering of the visual brain cortical maps computation using optical-imaging |
| 102 |
F W Cornelissen | Modelling fMRI edge responses in early visual cortex |
| 103 |
M-J Escobar | Can we recognize motion from spike train analysis? |
| 104 |
J S Lauritzen | Responses of model V1 neurons to contrast stimuli with phase offsets: an evaluation of different tuning models for non-specific suppression |
| 105 |
E V Isaev | A combined computer vision system for visually impaired people |
| 106 |
M Colomb | Visibility of targets in fog conditions with car headlights |
| 107 |
X Otazu | Several lightness induction effects with a computational multiresolution wavelet framework |
| 108 |
N Guyader | A biological model of low-level vision suitable for image analysis and cognitive visual perception |
| 109 |
L D Griffin | The 2nd order local-image-structure solid |
| 110 |
A J Nasrallah | Multi-local dependencies of gradient directions in natural images |
| 111 |
J D Victor | Classification image analysis of texture discrimination |