The
Fall Vision Meeting Meeting was held October 14-17, 2004, in Rochester, New York 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. 4, No. 11, but not to the individual abstracts in that issue. ARVO has published these abstracts as a service to the vision science community.
| Image Quality: Perception & Adaptation |
1 |
Cheng, Bradley, & Thibos |
Predicting the effects of ocular aberrations on visual performance |
| 2 |
Watson & Ahumada |
Human optical image quality and the spatial standard observer |
| 3 |
Artal |
Visual performance and adaptation to changes in wave aberrations |
| 4 |
Webster |
Adaptation and subjective image quality |
| Low Vision Devices & Applications |
5 |
Strong |
New video-based assistive technologies for low vision |
| 6 |
Peli |
Vision multiplexing in the design of low vision devices |
| 7 |
Rensing, Weststrate, Giller, Zavracky, Peli, Bowers, & Luo |
Night vision devices for the visually impaired |
| 8 |
Dagnelie |
Prosthetic vision for the blind: the future in sight? |
| Contributed Color Session |
9 |
Mollon, Hood, Purves, & Jordan |
Color discrimination in carriers of color deficiency |
| 10 |
Parry, McKeefry, & Murray |
Perceived chromaticity shifts with retinal eccentricity |
| 11 |
Harrar & Viénot |
A study on chromatic contrast regulation |
| 12 |
Reeves, Amano, & Foster |
Color constancy: stimulus or task |
| Innovations in Eyetracking |
13 |
Mulligan |
Taking gaze tracking from the lab to the field (and sky) |
| 14 |
Pelz |
Portable eyetracking in natural behavior |
| 15 |
Turano |
Simulated visual field loss in mobile observers |
| 16 |
Geisler, Perry, & Najemnik |
Analysis of visual search using gaze contingent displays and ideal observers |
| 17 |
Ferguson |
Retinal image stabilization strategies for adaptive optics |
| Non-classical Spectral Inputs to Visual Pathways |
18 |
Sun & Lee |
The origin of the chromatic response of magnocellular ganglion cells |
| 19 |
Dacey, Liao, Peterson, Gamlin, Robinson, Smith, Pokorny, & Yau |
Melanopsin-expressing ganglion cells in primate retina project to the LGN and signal both color and irradiance |
| 20 |
Gamlin |
Primate pupillary responses mediated by a novel photopigment |
| 21 |
Massey, O'Brien, Chen, & MacLeish |
Photoreceptor coupling in the primate retina |
| Visual Plasticity in "Normal" Vision |
22 |
Watanabe |
Perceptual learning without perception is not passive and results in robust perception |
| 23 |
Bavelier & Green |
Effects of video game playing on visual functions |
| 24 |
Ghose |
Learning and cortical hierarchies |
| Models of Color Appearance |
25 |
Brainard |
The dual functions of color vision: connecting thresholds and appearance |
| 26 |
Fairchild |
Color appearance models: splicing color science and practical applications |
| 27 |
Knoblauch |
Non-monotonic relations between spectral coding and color perception |
| 28 |
Mausfeld |
Modes of appearance revisited: the non-unitary of colour codes |
| Visual Plasticity and Rehabilitation |
29 |
Sabel, Kenkel, Kasten, & Mueller |
Vision Restoration Therapy (VRT) for the treatment of visual field deficits after brain damage: the role of eye movements and fixation behavior |
| 30 |
Maurer & Lewis |
Lessons about visual rehabilitation from children treated for cataracts |
| 31 |
Kiorpes |
Critical periods in visual development: implications for amblyopia |
| 32 |
Mitchell |
Early visual deprivation: strategies to prevent visual deficits and factors that promote recovery when deficits occur |
| Time Scales and Significance of Adaptation |
33 |
Neitz & Neitz |
A neural mechanism that is plastic in adults and its implications for coding of color |
| 34 |
Lee, Dacey, Smith, & Pokorny |
The time course of outer retinal adaptation |
| 35 |
Lennie |
Multiple layers of contrast adaptation |
| 36 |
MacLeod |
Reasons for adaptation |
| Contributed Vision Session |
37 |
Farell |
What and where in the computation of relative disparity |
| 38 |
Lu, Chu, Dosher, & Lee |
Independent perceptual learning in monocular and binocular motion systems |
| 39 |
Tso, Zarella, Schallek, Kwon, Kardon, & Soliz |
The origins of stimulus dependent intrinsic optical signals of the retina |
| 40 |
Dye & Bavelier |
Playing video games enhances visual attention in children |
| Physiology of Cortical Adaptation |
41 |
Movshon & Kohn |
Adaptation’s effects on macaque MT neurons |
| 42 |
Boynton |
Orientation-specific adaptation in human visual cortex |
| 43 |
Backus & Oruç |
Illusory motion from nonlinear response to contrast: how much does the visual system know about its own neuronal adaptation? |
| 44 |
Blake |
Adaptation as a tool for probing the neural correlates of conscious visual awareness |
| Posters |
45 |
Burns, Leonova, McLellan, & Tumbar |
Towards comparison metrics for general vision |
| 46 |
Candy & Tondel |
Human infants’ tracking of dynamic accommodative stimuli |
| 47 |
Cao, Pokorny, & Smith |
Chromatic contrast with rod inducing stimuli |
| 48 |
Chen, Gutierrez, Artal, & Williams |
Does the best aberrations correction for the eye depend on neural factors? |
| 49 |
Chung & Visconti |
Improvements in identifying unfamiliar letters in peripheral vision following perceptual learning transfer across eccentricities |
| 50 |
Cohen, Wang, & Howland |
Limits to visual acuity at low light levels and contrasts |
| 51 |
Ferwerda, Irawan, & Marschner |
Simulating low vision in high dynamic range scenes |
| 52 |
Green & Bavelier |
The effect of action video game playing on the useful field of view |
| 53 |
Gunther, Bojar, Harrison, Shashidhar, Pawar, Neitz, & Neitz |
The role of relaxed natural selection against colorblindness in producing extreme variation in X-chromosome photopigment gene number and sequence among individuals with normal color vision |
| 54 |
Heinrich & Grill-Spector |
Category-specific versus item-specific repetition effects in visual object processing |
| 55 |
Herbert, Purvis, & Cross |
Facial expression recognition in a sample of neglected children |
| 56 |
Hillis & Brainard |
A shadowy dissociation between discriminability and identity |
| 57 |
Howard, Nguyen, & Allison |
Detection of depth order from chromatic aberration of defocused images |
| 58 |
Huang & Moore |
Computer simulated human eye modeling with GRIN incorporated in the crystalline lens |
| 59 |
Jägle, de Luca, Serey, Bach, & Sharpe |
Visual acuity and X-linked colour-blindness |
| 60 |
Jeong & Yoon |
Effect of dynamic movement of customized optics on visual benefit in abnormal eyes |
| 61 |
Lappin, Nyquist, & Tadin |
Coordinating central and peripheral vision of stationary and moving patterns |
| 62 |
Leonova, McLellan, & Burns |
Do optical phase reversals affect perception of natural scenes? |
| 63 |
Makous |
Picture size and critical band |
| 64 |
Malkoc & Kingdom |
Dichoptic difference thresholds for the properties of chromatic stimuli |
| 65 |
Mancuso, Neitz, & Neitz |
Gaining insights to the neural code for color by attempting gene therapy for color blindness |
| 66 |
Marsack, Pesudovs, Kist, Sarver, & Applegate |
Is the fit error associated with the Zernike polynomial in keratoconus visually important? |
| 67 |
McAnany & Alexander |
Steady- and pulsed-pedestal contrast sensitivity: Are grating and letter optotypes equivalent? |
| 68 |
Medina |
Rectified chromatic detection mechanisms at suprathreshold isoluminance conditions |
| 69 |
Mizokami & Crognale |
Sparse coding for aerial images |
| 70 |
Molnar , Yellachich, Leng, Agurto, Quiroz, Dalal, Huie, Noolandi, Blumenkranz, Marmor, & Fishman |
Behavioural difference of vascularized and non-vascularized retina after subretinal implantation of cellulose acetate membrane |
| 71 |
Mueller, Kasten, & Sabel |
Visual field size changes after vision restoration therapy in childhood and adolescence |
| 72 |
Nagai & Uchikawa |
Effects of gap distance between patches on grouping colors for figure segregation |
| 73 |
Obein, Pichereau, Harrar, Monot, Knoblauch, & Viénot |
Does binocular vision contribute to gloss perception? |
| 74 |
Olzak, Gabree, & Laurinen |
Center-surround interactions are not reciprocal |
| 75 |
Pitchford & Mullen |
The status of primary and secondary colours in colour term acquisition |
| 76 |
Poggel , Calmanti, Treutwein, & Strasburger |
The Toelz temporal topography study: mapping the visual field across the life span |
| 77 |
Ramaswamy & Hovis |
Discriminant analysis of clinical color vision tests and color related tasks |
| 78 |
Richters & Eskew |
Evaluation of a liquid crystal on silicon (LCOS) display for vision research |
| 79 |
Rudd & Popa |
Edge integration and edge interaction in achromatic color computation |
| 80 |
Sakata |
The effects of background colour on chromatic afterimage |
| 81 |
Shapiro, Charles, & Schatten |
Luminance gauge photometry |
| 82 |
Shimakura & Sakata |
Interocular transfer and summation of chromatic adaptation |
| 83 |
Smithson, Bourke, Zaidi, Mollon, & Stockman |
Three ways to find a tritan line |
| 84 |
Spillmann, Pinna, & Werner |
Anomalous darkness induction |
| 85 |
Stevenson, Raghunandan, Frazier, Poonja, & Roorda |
Fixation jitter, motion discrimination and retinal imaging |
| 86 |
Stockman, Williams, & Smithson |
Flicker-clicker: cross modality matching experiments |
| 87 |
Tian & van de Pol |
Evaluation of optical transfer error as an optical quality metric for post-LASIK eyes |
| 88 |
Tjan & Chung |
Form vision in the periphery |
| 89 |
Wang, Aquavella, Zhao, & Chung |
Tear dynamics measured with real-time optical coherence tomography |
| 90 |
Williams, Hayhoe, & Huxlin |
Training-induced perceptual recovery after visual cortical stroke |
| 91 |
Wolfing, Chung, Carroll, & Williams |
High resolution retinal imaging of cone-rod dystrophy |
| 92 |
Wurfel, Barraza, & Grzywacz |
The effects of dot density on the metric estimation of rotation and expansion |
| 93 |
Yamauchi, Kawahara, Nakano, & Uchikawa |
Metameric matching and its compensation with individual color matching functions |
| 94 |
Yoon, Pantanelli, Jeong, & MacRae |
Characterizing optical quality of abnormal eyes using large dynamic range Shack-Hartmann wavefront sensor |
| 95 |
Zhang & Montag |
How well can people use different color attributes? |
