The Fall Vision Meeting Meeting was held October 4-6, 2003, in Tucson, Arizona, USA in
cooperation with the
Optical Society of
America. The following are the abstracts of that meeting.
ARVO holds the
copyright to Journal of Vision,
Vol. 3, No. 12, but not to the individual abstracts in that issue. ARVO has published these abstracts as a service to the vision science community.
| De Valois Symposium: Psychophysics |
1 |
Abramov & Gordon |
The problems of seeing red |
| 2 |
Howard |
Phantom fringes 1951-2003: Exciting the imaginations of psychologists, physiologists, and model builders |
| 3 |
Adams |
Color studies of cone pathway sensitivity in eye disease |
| 4 |
Switkes, Wilson, & De Valois |
Glass pattern studies of contrast effects in feature integration and segmentation |
| Cue Combination |
5 |
Sabes |
Sensory integration during motor planning |
| 6 |
Knill |
Combining depth cues for planning and on-line control of reaching movements |
| 7 |
Landy, Hillis, & Banks |
Effects of viewing geometry on combination of disparity and texture gradient information |
| 8 |
He & Fang |
Integration of depth cues across space and modalities |
| Segmentation |
9 |
Malik |
The Ecological Statistics of Grouping and Figure-Ground Cues |
| 10 |
Elder |
Contour grouping: Ecological statistics, generative models and ideal observers |
| 11 |
Olzak, Saylor, & Gabree |
Scene segments, surrounds, and superimposed masks: Complex interactions among pattern masks on discrimination performance |
| 12 |
Tyler |
Novel manipulations of higher-order textures reveal that discrimination is based on local regularities, even at inifinite order |
| 13 |
Davis, Frederick, & De Valois |
Building a representation of aspect ratio |
| De Valois Symposium: Physiology |
14 |
Jacobs |
Photopigment polymorphisms and color vision: Lessons from nonhuman primates |
| 15 |
Snodderly |
Awakening the visual cortex |
| 16 |
von der Heydt |
Figure-ground organization in the visual cortex |
| 17 |
Tootell |
What's in a face? FMRI studies in humans and macaques. |
| Accommodation and Refractive Error I |
18 |
Dobson, Miller, Twelker, Sherrill, & Harvey |
Astigmatism and emmetropization
in a native american population |
| 19 |
Wallman |
Blur and emmetropization |
| 20 |
Kruger, Rucker, & Stark |
Defocus cues and accommodation |
| 21 |
gwiazda, Vera-Diaz, held, & thorn |
Refractive error-dependent differences in accommodation after blur adaptation |
| 22 |
Glasser |
Presbyopia and aging in the crystalline lens |
| More Cue Combination (in depth) |
23 |
Sieffert & Gray |
Combination of binocular and monocular visual information in ball catching |
| 24 |
Smallman |
Naïve misconceptions about perspective projection: A new model for the anisotropy of 3-d visual space |
| 25 |
Banks, Gepshtein, & Landy |
Why is spatial stereoacuity so low? |
| 26 |
Rosas, Wichmann, Ernst, & Wagemans |
Texture and haptic cues in slant discrimination: Measuring the effect of texture type on cue combination |
| Accommodation and Refractive Error II |
27 |
Llorente, Barbero, Cano, Dorronsoro, & Marcos |
Axial length, corneal shape and optical aberrations in myopic versus hyperopic eyes |
| 28 |
Cheng, Thibos, & Bradley |
Predicting subjective judgement of best focus with image quality metrics |
| 29 |
Campbell, Bueno, Hunter, & Kisilak |
Ophthalmic lens effects in hartmann-shack measurements |
| 30 |
Artal, Manzanera, & Williams |
How stable is the shape of the ocular point spread function during normal viewing? |
| Color Appearance |
31 |
Shepard |
Why Color Space is Structured As It Is |
| 32 |
Shevell & Xian |
Chromatic induction from grouping |
| 33 |
Hillis & Brainard |
Cone inputs controlling color context effects: Detection and appearance |
| 34 |
Malkoc, Kay, & Webster |
Individual differences in hue scaling |
| 35 |
Pitts, Troup, Baker, Volbrecht, & Nerger |
The effect of stimulus intensity on the size of perceptive fields |
| Visual Optics and Visual Aids |
36 |
Jeong, Yoon, & Cox |
Vision improvement when correcting monochromatic higher-order aberrations with phase plates in normal and abnormal human eyes |
| 37 |
Coletta & Moskowitz |
Wavefront aberrations and mesopic visual performance following soft contact lens removal |
| 38 |
Yoon & Jeong |
Effect of the movement of customized contact lens on visual benefit in abnormal eyes |
| 39 |
Marcos, Barbero, Llorente, Dorronsoro, Rosales, & Jiménez-Alfaro |
Optical aberrations with aspheric intraocular lenses |
| 40 |
Vargas-Martin |
A free-cost visual field expander for peripheral vision loss |
| Color Sensitivity |
41 |
Lee, Sun, & Kunken |
Spatial characteristics of the frequency-doubled response of MC cells to chromatic modulation |
| 42 |
Sun, Smithson, Lee, & Zaidi |
A new technique for measuring cone inputs to visual neurons |
| 43 |
Ahumada, Wuerger, & Watson |
Estimation of chromatic channel spatial frequency responses |
| 44 |
Hardy, Delahunt, & Werner |
Senescence of chromatic contrast sensitivity |
| 45 |
Kuriki |
Nonlinear changes in visual sensitivity balance under changes in the chromaticity of ambient illuminant. |
| 46 |
Shinomori & Werner |
The impulse response for S-cone increments and decrements |
| Complex Form and Motion Processing |
47 |
Lappin, Tadin, Patel, & Killingsworth |
Psychophysical receptive fields for motion discrimination depend on contrast |
| 48 |
Chen, Barraza, & Itti |
Perception of contours defined by integrative motion mechanisms |
| 49 |
Henning, Zalevski, & Hill |
Cue weighting in stereoacuity with lines and closed forms |
| 50 |
Wade, Norcia, Vildavski, & Pettet |
fMRI of Glass patterns |
| 51 |
Smithson & Zaidi |
Effects of temporal and spatial context on colour appearance |
| Applications |
52 |
Bharadwaj & Schor |
First and second order dynamics of ocular disaccommodation |
| 53 |
Stell, Tao, Karkhanis, Siegwart, Jr., & Norton |
Intensity- and focus-dependent modulation of activity (expression of immediate-early gene products) in retinal interneurons of the tree shrew, tupaia glis belangeri6o |
| 54 |
Mihashi, Shioiri, Hirohara, Howland, Yaguchi, Kuroda, Maeda, & Fujikado |
Evaluation of images of visual acuity charts degraded by wavefront aberrations by a human observer and by using cross correlation functions of the images of Landolt rings |
| 55 |
Tian, Feng, & Xu |
Human vision based autofocus for digital cameras |
| Clinical |
56 |
Alexander, Barnes, Fishman, Pokorny, & Smith |
Spatial frequency characteristics of contrast processing deficits in retinitis pigmentosa |
| 57 |
Dagnelie, Yang, Bahrami, Stone, & Melia |
Vision tests for the home PC: Test validation and results from a lutein supplementation trial |
| 58 |
Kelley, Yang, Hess, Yin, & Dagnelie |
Comparison of presentation modes for reading and face recognition in simulated prosthetic vision |
| 59 |
Schneck, Han, Bearse, Barez, & Adams |
MfERG implicit time as a predictor of future diabetic retinopathy development |
| Color |
60 |
Delahunt, Hardy, Okajima, & Werner |
Senescence of chromatic contrast matching functions |
| 61 |
Mizokami, Werner, Crognale, & Webster |
Constant hue loci across spectral bandwidth |
| 62 |
Puts, Pokorny, & Smith |
Inferred retinal mechanisms mediating illusory distortions |
| 63 |
Masuda, Uchikawa, & Yokoi |
Effects of retinal eccentricity on the temporal summation of double flashes |
| 64 |
Sakata |
Afterimage colour affected by colour constancy |
| 65 |
Thomas-Meyers & Nagy |
Pavement marking color specifications |
| 66 |
Yamauchi, Nakano, Kamata, Okajima, Uchikawa, Murakami, Yamaguchi, & Ohyama |
Measurement of color matching functions using a digital micro-mirror device |
| 67 |
Yamauchi, Shinoda, & Ikeda |
Importance of enclosing a space by planes for the construction of the recognized visual space of illumination for the hidden illumination |
| 68 |
Yokoi & Uchikawa |
Categorical color mechanism mediates heterochromatic visual search |
| Vision |
69 |
Fine, Anderson, Boynton, & Dobkins |
Interactions between contrast, coherence and directional tuning |
| 70 |
Norcia, Sampath, & Pettet |
Scale-invariant amplitude and latency in the contour-related visual evoked potential |
| 71 |
Yamashita, Hardy, De Valois, & Webster |
The relative selectivity of face adaptation for low-level image properties |
| 72 |
Barch, Kumar, & Glaser |
Modeling the illusory motion of Enigma with an excitable neuronal array |
| 73 |
Friedland, Kumar, & Glaser |
The matching of vertical lines in the presence of stereoscopic interpolation |
| 74 |
Fukuda, Kaneko, & Matsumiya |
Temporal integration of vertical-size disparity for slant perception |
| 75 |
Gray & Tan |
Combination of visual and tactile information about moving objects |
| 76 |
Cohn |
Monocular cue combination for looming detection |
| 77 |
Eckstein, Pham, & Zhang |
Discounting probabilistic masks |
| 78 |
Kumar, Jonkers, & Glaser |
Variation among human observers in detecting visual texture differences: is the length of the boundary between different textured regions or the areas covered by them more important? |
| 79 |
Nagai, Yokoi, & Uchikawa |
Figure segregation achieved by color-distribution differences in colored texture stimuli |
| 80 |
Peterson & Kim |
Does context modulate the strength of the configural cue of symmetry? |
| 81 |
Shokhirev, Kumar, & Glaser |
Estimation of the parameters of a visual stimulus from the responses of a realistic population of model visual neurons |
| 82 |
Wichmann |
Models of contrast transfer as a function of presentation time and spatial frequency |
