Temporal Processing

Estimating neural signal dynamics in the human brain. Frontiers in Systems Neuroscience 2011; 5: 33 (with LT Likova), 2011. PDF

The neurometabolic underpinnings of fMRI BOLD dynamics. In Advanced Brain Neuroimaging Topics in Health and Disease – Methods and Applications. Editor Papageorgiou TD, Christopoulos GI, Smirnakis SM. Intech Press, Ch 2, 2014, 21-47 (with LT Likova). PDF

Dips and Bumps: On Bloch’s law and the Broca-Sulzer phenomenon. Proc Nat Acad Sci. 110:E1330, 2013 (with A Gorea). PDF

Recurrent connectivity can account for the dynamics of disparity processing in V1. J. Neurosci. 33 2934-2946, 2013 (with Samonds JM, Potetz BR, Lee TS). PDF

Analysis of human vergence dynamics. J Vision 12(11) pii: 21 (with AM Elsaid, LT Likova, N Gill and SC Nicholas). PDF

Perceptual coding for 3D reconstruction. EUVIP 2011 10.1109/EuVIP.2011.604553, 2011. (with SC Nicholas). PDF

Neural signal estimation through time-resolved functional imaging. In: Brain Mapping Research Progress, Girard IC, Andre JS (Ed), Nova Scientific Publishers. pp.1-31, 2009 (with LT Likova). PDF

Independent components in stimulus-related BOLD signals and estimation of the underlying neural responses. Brain Research, 1229, 72-89, 2008 (with LL Kontsevich and TC Ferree). PDF

Spectral analysis of fMRI signal and noise. In: Novel Trends in Brain Science. Springer: Tokyo, Japan, 63-76, 2008 (with CC Chen). PDF

Instantaneous stimulus paradigm: Cortical network and dynamics of figure-ground organization. Human Vision and Electronic Imaging, 6492, 2007 (with LT Likova). PDF

Demonstrating the temporal modulation transfer function. Perception. 28:623-6, 1999. (with SM Anstis & LL Kontsevich). PDF

Phototransduction: Modeling the primate cone flash response. Visual Neuroscience 12, 1063-1082, 1995 (with RD Hamer). PDF

Derivation of the psychophysical impulse response through generation of ultrabrief responses. J. Opt. Soc. Am. A9, 1025-1040, 1992.

Psychophysical derivation of the impulse response through generation of ultrabrief responses: Complex inverse estimation without minimum phase assumptions. J. Opt. Soc. Am. A7, 1025-1040, 1992.

Analysis of flicker sensitivity and its variability in the visuogram test for normal observers. Invest. Ophthalmol. Vis. Sci. 32, 2552-2560, 1991.

Some tacit assumptions in visual psychophysics. In Representations of Vision. Gorea A. (Ed.), University Press: Cambridge, U.K., 1991, pp. 251-278. (Evidence for a hard threshold limiting flicker detection.) PDF

Invariance of temporal sensitivity with nicotine, alcohol and progesterone intake. Clin. Vis. Sci. 6, 323-330, 1991.

Analysis of visual modulation sensitivity. IV. Validity of the Ferry-Porter Law. J. Opt. Soc. Am. A7, 743-758, 1990 (with R.D. Hamer). PDF

Two processes controlling life span variations in flicker sensitivity. J. Opt. Soc. Am. A6, 481-490, 1989.

The full range of human temporal resolution. Proc. S.P.I.E. 1077, 93-107, 1989.

Analysis of visual modulation sensitivity. III. Meridional variations in peripheral flicker sensitivity. J. Opt. Soc. Am. A4, 1612-1619, 1987. PDF

New look at Bloch’s law for contrast. J. Opt. Soc. Am. A3, 52-61, 1986 (with A. Gorea).

Interlacing eliminates CRT perceptible flicker. Information Display 2, 14-18, 1986. PDF

Analysis of visual modulation sensitivity. II. Peripheral retina and the role of photoreceptor dimensions. J. Opt. Soc. Am. A2, 393-398, 1985. PDF

High temporal frequency visual evoked potentials to luminance and pattern stimulation in the peripheral retina. In Proc. Int. Evoked Potentials Symposium. Barber C. (Ed.), MTP Press: Lancaster, pp. 199-204, 1980. (with P.A. Apkarian).

Analysis of visual modulation sensitivity: Two components in flicker perception. Vision Res. 15, 843-848, 1975.