![]() ![]() Processors, and data analysis.) I started as a BASIC and Pascal programmer in my teens, writing apps to graphĭata in my dad's lab, then writing 2D and 3D graphics apps in Matlab and C in grad school for my thesis work, C++ Work was (and still is) implementing the algorithms underlying research questions in software (algorithmĭevelopment, stimulus presentation, device control/communication, parallelization/optimization for multiple A theme throughout my life has been fooling with computers and programming. Journal of the Optical Society of America A, 12, 667-685. A bilinear model for chromatic selectivity. Mahwah, NJ: Lawrence Erlbaum Associates, 187-202. (Eds.), Geometric Representations of Perceptual Phenomena. In Luce RD, D'Zmura M, Hoffman DD, Iverson G, Romney K. Journal of the Optical Society of America A, 13, 2135-2140. The spatial pooling of contrast in contrast gain control. Cambridge: Cambridge University Press, 369-385. (Eds.) Color Vision: From Genes to Perception. Dynamics of the eye's wave aberration, Journal of the Optical Society of America A, 18, 497-506. Hofer H, Artal P, Singer B, Aragon JL, Williams DR.Improvement in retinal image quality with dynamic correction of the eye's aberrations. Hofer H, Chen L, Yoon GY, Singer B, Yamauchi Y, Williams DR.Use of a microelectromechanical mirror for adaptive optics in the human eye. Doble, N, Yoon GY, Chen L, Bierden P, Singer B, Olivier S, Williams DR.Neural compensation for the eye's optical aberrations. Artal P, Chen L, Fernandez EJ, Singer B, Manzanera S, Williams DR.Different sensations from cones with the same photopigment. Optometry and Vision Science, 82, 358-369. Image metrics for predicting subjective image quality. ![]() Chen L, Singer B, Guirao A, Porter J, Williams DR.Journal of the Optical Society of America A, 23, 1-8. Accommodation with higher-order monochromatic aberrations corrected with adaptive optics. Chen L, Kruger P, Hofer H, Singer B, Williams DR.Adaptive Optics for Vision Science: Principles, Practices, Design, and Applications. In Porter J, Awwal A, Lin J, Queener H, Thorn K. Adaptive optics software for vision research. Undergraduate work on the development of perception in infants Cornell Psychology.Īdaptive optics for realtime retinal imaging and supernormal vision: Psychophysics, electrophysiology, and real-time retinal imaging software as a research associate, followingĭoctoral work in color vision psychophysics at UCI Cognitive Science and poster pdf.Īt the Center for Visual Science, University of Rochester, I did Annual Meeting of the Organization of Human Brain Mapping, Toronto, Canada. A Matlab-based toolbox to facilitate multi-voxel pattern classification of fMRI data. Polyn S, Detre G, Takerkart S, Natu V, Benharrosh M, Singer B, Cohen J, Haxby J, Norman K.Annual Meeting of the Organization of Human Brain Mapping, Florence, Italy. The Multi-Voxel Pattern Analysis (MVPA) toolbox. Detre G, Polyn SM, Moore CD, Natu VS, Singer BD, Cohen JD, Haxby JV, Norman KA.Work related to brainiak, the fcma toolbox, and the MVPA toolbox Retinotopic organization of human ventral visual cortex. Arcaro MJ, McMains SA, Singer BD, Kastner S.Function-based inter-subject alignment of cortical anatomy. Sabuncu MR, Singer BD, Bryan RE, Ramadge PJ, Haxby JV.Annual Meeting of the Organization of Human Brain Mapping, Melbourne, Australia. Inter-subject functional connectivity alignment. Conroy BR, Singer BD, Ramadge PJ, Haxby JV.Advances in Neural Information Processing Systems. FMRI-based inter-subject corticalĪlignment using functional connectivity. Conroy, BR, Singer, BD, Haxby, JV, and Ramadge, PJ.Function-based inter-subject alignment ofĬortical anatomy. Sabuncu MR, Singer BD, Conroy BR, Ramadge PJ, Haxby JV.Inter-subject alignment of human cortical anatomy using functional connectivity. Conroy BR, Singer BD, Guntupalli JS, Ramadge PJ, Haxby JV.Selected work: Neuroimaging Analysis Methods The latter is achieved with the help ofĬomputer clusters containing thousands of processors that I help to acquire, write software for, and maintain. Neuroimaging analysis algorithms via low-level optimizations and Implementing novel methods, I work to speed up and streamline Visualization, and model-based neural networks in multiple voxel pattern analysis. Princeton work on neuroimaging analysis methods such as cortical alignment, realtime fMRI correlation and classification, surface-based analysis and ![]()
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