The
Fall Vision Meeting Meeting was held October 21-23, 2005, in Tuscon, Arizona 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. 5, No. 12, but not to the individual abstracts in that issue. ARVO has published these abstracts as a service to the vision science community.
| Boynton Lecture |
1 |
Pokorny & Smith |
Sensitivity regulation in the visual system |
| Retinal Implants |
2 |
Fine, Horsager, & Greenwald |
The perceptual effects of retinal electrical stimulation |
| 3 |
Wyatt, Drohan, Yomtov, Ziv, & Kelly |
Engineering development of a wireless subretinal prosthesis |
| 4 |
Fried, Hsueh, & Werblin |
A method for generating precise temporal patterns of retinal spiking using prosthetic devices |
| 5 |
Marc |
Retinal remodeling |
| Myopia, Accommodation & Presbyopia |
6 |
Candy |
Accommodative control of retinal defocus during human infancy |
| 7 |
Schor & Bharadwaj |
A pulse-step model of accommodation dynamics in the aging eye |
| 8 |
Troilo |
The role of accommodation in emmetropization and the development of myopia: Evidence from animal studies |
| 9 |
Smith |
Operational properties of emmetropization in monkeys |
| Contributed Vision Session |
10 |
Macknik, Martinez-Conde, Schlegel, & Tse |
Neural and BOLD responses to visibility and invisibility in the visual system of humans and primates |
| 11 |
von dem Hagen & Morland |
Extent of abnormal retinal projection in human albinism correlates with pigmentation levels |
| 12 |
Appelbaum, Wade, Pettet, Vildavski, & Norcia |
Dynamics of texture segmentation |
| 13 |
Anstis & MacLeod |
Reversals of motion in dim light |
| 14 |
Holloway, Náñez Sr, Seitz, & Watanabe |
The relationship between flicker fusion and subliminally induced neural plasticity |
| 15 |
Saenz, Boynton, & Koch |
Cortical sources of spatial & feature-based attentional control |
| Connectivity & Function in the Short-Wavelength Cone Pathway |
16 |
Schein |
Neuroanatomy of S cone ON/OFF pathways |
| 17 |
Martin |
Structure and electrophysiology of S cone pathways |
| 18 |
Smithson |
What’s special about S-cone vision? |
| 19 |
Stockman |
S-cone signals in human postreceptoral pathways |
| Night Vision |
20 |
Barbur |
The challenges of assessing visual performance in the mesopic range |
| 21 |
van de Pol, Kaupp, Salmon, Lozano, & Schallhorn |
Subjective and objective measures of quality of vision and their relation to simulated night driving performance after LASIK for high myopia |
| 22 |
Higgins, White, Cades, Ciaccio, & Liu |
Effect of age on transient adaptation at low light levels |
| 23 |
Peli, Bowers, Luo, & Zebehazy |
Assessing visual aids for night blindness |
| Contributed Color Vision Session |
24 |
Shevell |
Retinal images that stimulate S, M and L cones |
| 25 |
Eskew & Giulianini |
Nonlinear cone combination in S cone mechanisms: Results that are independent of color representation and off-axis looking |
| 26 |
Parry & Dwarampudi |
Temporal phase shifts in cone and rod mechanisms as a function of eccentricity |
| 27 |
MacLeod, Anstis, & Shubel |
Singularity of visual dynamics near isoluminance |
| 28 |
Barbur, Veit, & Plant |
Functional specialisation for the processing of colour categories in the cortex –evidence from clinical studies |
| 29 |
Maeda, Yamamoto, Matsuno, Fukunaga, & Nakagoshi |
Color selective response suppression under metacontrast masking in the human visual cortex |
| Evolution of the Visual System |
30 |
Sivak |
Optics of the fish eye: Diverse and conserved characteristics |
| 31 |
Ross, Kirk, & Heesy |
The evolution of eye shape at the origin of Primates and Anthropoidea |
| 32 |
Casagrande |
Evolution of visual pathways |
| 33 |
Krubitzer |
The evolution of visual cortex in mammals: Genetic and epigenetic contributions to the phenotype |
| Color in Natural Environments |
34 |
Foster, Amano, & Nascimento |
Optimizing trichromacy for information about surface color in natural scenes |
| 35 |
Golz |
Chromatic statistics of natural scenes as cues for the perception of surface and illumination color |
| 36 |
Webster, Mizokami, Werner, & Crognale |
Hue constancy across changes in spectral purity and a functional theory of the Abney Effect |
| 37 |
Wachtler, Lee, & Sejnowski |
Efficient coding of color in natural scenes |
| Amblyopia |
38 |
Harvey, Dobson, Miller, & Clifford |
Amblyopia in astigmatic children: Development and treatment |
| 39 |
Levi |
Critical periods and plasticity in humans with amblyopia |
| 40 |
McKee |
The pattern of visual functions in human amblyopia |
| 41 |
Quinn |
Clinical trials in amblyopia-what have we learned? |
| Visual Areas: Form and Function |
42 |
Sereno |
Visual area homologies in non-human and human primates |
| 43 |
Tootell |
A very different slant on orientation sensitivity in human and non-human primates |
| 44 |
Ungerleider |
Perceptual decision-making in the human brain |
| 45 |
Wandell |
Visual field map clusters |
| Posters |
46 |
Ahumada & Beard |
Multi-pole estimates of contrast sensitivity functions predict crack detection |
| 47 |
Baker, Chen, Lewis, & Wang |
Appearance of keratoconus eyes: Computation |
| 48 |
Barbero, Rubinstein, & Thibos |
An improved Hartmann-Shack wavefront sensor for ocular aberrometry using wavefront slope and curvature measurements |
| 49 |
Barbur, Rodriguez-Carmona, & Harlow |
The relative merits of anomaloscope matches and colour discrimination tests in assessing loss of chromatic sensitivity |
| 50 |
Büchler Costa |
Multi-conjugated adaptive optics for wide-field aberration measurement in the human eye |
| 51 |
Cao, Zele, & Pokorny |
Reaction times to rod and cone incremental and decremental stimuli |
| 52 |
Carroll, Lin, Wolfing, Christie, Williams, & Makous |
Retinal microscotomas revealed by adaptive-optics microflashes, and a model |
| 53 |
Chang, Saito, Uchikawa, & Nakajima |
Focal colors forms axes |
| 54 |
Cohn |
Does stochastic resonance influence sensory thresholds? |
| 55 |
Coletta, Moskowitz, & Han |
Pupil displacement in videokeratoscopy is correlated with axial length |
| 56 |
Dakin, Volbrecht, & Nerger |
Bezold-Brücke hue shifts derived from hue-naming functions |
| 57 |
Eisner & Incognito |
Female hormones and SWS-cone-mediated response |
| 58 |
Elliott, Highsmith, Crognale, & Crognale |
Physiological correlates for the watercolor effect |
| 59 |
Engles, Holloway, Náñez Sr, & Cheshire |
The relationship between macular pigment optical density and hyperacuity training |
| 60 |
Engles, Holloway, Náñez Sr, & Barrera |
Resolution is influenced by the temporal processing of the human visual system |
| 61 |
Fukuya & Uchikawa |
Boundary conditions of the surface reflectance for transition of the modes of color appearance |
| 62 |
Gavrik |
Mathematical analysis of spectral intensity functions of the basic color sensations |
| 63 |
Goto, van de Pol, Kaupp, Lozano, & Paul |
Objective measurement of accommodation function using an autorefractometer |
| 64 |
Gray, Merigan, Gee, Tumbar, Reinholz, Twietmeyer, Porter, Wolfing, & Williams |
High-resolution in vivo imaging of primate retinal ganglion cells |
| 65 |
Guirao & Ferri |
Application of evolutionary computing to the study of the ocular optics |
| 66 |
Highsmith & Crognale |
Effects of attention on the chromatic pattern on-set VEP |
| 67 |
Holloway, Náñez Sr, Seitz, Bonnet, & Watanabe |
Dorsal stream perceptual learning is highly related to critical flicker fusion thresholds |
| 68 |
Holloway & Engles |
Flicker fusion as a correlate of hyperacuity |
| 69 |
Horsager, Greenwald, & Fine |
Manipulating perceptual brightness during retinal electrical stimulation using pulse trains |
| 70 |
Kamal Uddin & Sachio |
Concentric shrinkage of visual space enhanced by centripetal attention |
| 71 |
Kannon, Sakai, Nakauchi, & Usui |
Blur adaptation modulates amplitude and phase spectra of perceived image |
| 72 |
Martinez-Conde, Macknik, Troncoso, & Dyar |
Microsaccades counteract visual fading during fixation |
| 73 |
McDermott, Loving, Mulligan, Bebis, & Webster |
Eye movements and visual search in novel and familiar contexts |
| 74 |
McKeefry, Burton, & Parry |
The perceived speed of chromatic and luminance gratings in the presence of adjacent modifier stimuli |
| 75 |
McLin, Goettl, Barnes, Previc, & Hengst |
Visual warning signal optimization |
| 76 |
Mizokami & Crognale |
Color contrast adaptation on visual evoked potentials |
| 77 |
Mulligan |
Optical eye models for gaze tracking |
| 78 |
Nagai & Uchikawa |
Figure segregation on multi-colored textures caused by color distribution differences |
| 79 |
Olzak & Laurinen |
A framework for understanding center-surround interactions in apparent contrast and fine spatial discriminations |
| 80 |
Powers |
Binocular fusion: Training effects in adolescent poor readers |
| 81 |
Ravikumar, Bradley, & Thibos |
Influence of environmental color on refraction and polychromatic image quality |
| 82 |
Rowe & Jacobs |
Naturalistic color discriminations in new world monkeys having different combinations of M/L pigments: Effects of luminance and stimulus duration |
| 83 |
Sakai, Kannon, & Usui |
Spatial contextual effect on blur perception in foveal vision |
| 84 |
Schira |
Metric reconstruction of human striate cortex: An average |
| 85 |
Segawa & Uchikawa |
Spatiotemporal effects of the visual attention on detecting a target smoothly appearing in the peripheral visual field |
| 86 |
Tan, Chen, & Lewis |
Ametropia: The ocular shape and dimensions |
| 87 |
Thomas-Meyers & Nagy |
Attentional cuing to target stimuli in complex displays |
| 88 |
Troncoso, Tse, Macknik, Caplovitz, Hsieh, Schlegel, & Martinez-Conde |
fMRI correlates of corner illusions show that BOLD activation varies gradually with corner angle |
| 89 |
Uchikawa & Segawa |
Categorical color regions of dichromats in a L, M, S cone based color space |
| 90 |
VanValkenburgh |
Evidence indicating that pre-migraine CSD can begin in either V1 or V2, and cross a border into the other |
| 91 |
VanValkenburgh |
A data acquisition engineer’s attempts to improve the precision of his retinotopic map |
| 92 |
Wagge & Olzak |
Visual integration in center/surround stimuli: Cortical mechanisms |
| 93 |
Wilson & Brainard |
Perceptual evaluation of statistical image models |
| 94 |
Xu & Fine |
A model for surface segmentation using luminance and color information |
| 95 |
Yasuda, Mizokami, Webster, & Webster |
Category boundaries and visual sensitivity in face perception |
| 96 |
Yata, Nagao, & Uchikawa |
A categorical color perception model using artificial neural network |
| 97 |
Yellott |
Correcting spurious resolution |
| 98 |
Zele, Cao, & Pokorny |
Lets get physical: Metrics for suprathreshold tasks |
| 99 |
Zemach, Teller, & Palmer |
Substantial shifts of lightness matches can result from shifts of stimulus range |
