Vadas Gintautas scite author profile

We present a general information theoretic approach for identifying functional subgraphs in complex networks. We show that the uncertainty in a variable can be written as a sum of information quantities, where each term is generated by successively conditioning mutual informations on new measured variables in a way analogous to a discrete differential calculus. The analogy to a Taylor series suggests efficient optimization algorithms for determining the state of a target variable in terms of functional groups of other nodes. We apply this methodology to electrophysiological recordings of cortical neuronal networks grown in vitro. Each cell's firing is generally explained by the activity of a few neurons. We identify these neuronal subgraphs in terms of their redundant or synergetic character and reconstruct neuronal circuits that account for the state of target cells.

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Thermal equilibration ofLu176viaKmixing

Gintautas

Champagne

Kondev

et al. 2009

Phys. Rev. C

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In astrophysical environments, the long-lived (Tl / 2 = 37.6 Gy) ground state of 176Lu can com municate with a short-lived (Tl/2 = 3.664 h) isomeric level through thermal excitations. Thus, the lifetime of 176Lu in an astrophysical environment can be quite different than in the laboratory. We examine the possibility that the rate of equilibration can be enhanced via K-mixing of two levels near Ex = 725 keY and estimate the relevant "(-decay rates. We use this result to illustrate the effect of K -mixing on the effective stellar half-life. We also present a network calculation that includes the equilibrating transitions allowed by K-mixing. Even a small amount of K-mixing will decrease the timescale for equilibration during an s-process triggered by the 22Ne neutron source.

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Particle size analysis by laser diffraction spectrometry:

Hackley¹,

Lum²,

Gintautas³

et al. 2004

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Experimental evidence for mixed reality states in an interreality system

Gintautas

Hübler

2007

Phys. Rev. E

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We present experimental data on the limiting behavior of an interreality system comprising a virtual horizontally driven pendulum coupled to its real-world counterpart, where the interaction time scale is much shorter than the time scale of the dynamical system. We present experimental evidence that, if the physical parameters of the simplified virtual system match those of the real system within a certain tolerance, there is a transition from an uncorrelated dual reality state to a mixed reality state of the system in which the motion of the two pendula is highly correlated. The region in parameter space for stable solutions has an Arnold tongue structure for both the experimental data and a numerical simulation. As virtual systems better approximate real ones, even weak coupling in other interreality systems may produce sudden changes to mixed reality states.

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Model Cortical Association Fields Account for the Time Course and Dependence on Target Complexity of Human Contour Perception

et al. 2011

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Can lateral connectivity in the primary visual cortex account for the time dependence and intrinsic task difficulty of human contour detection? To answer this question, we created a synthetic image set that prevents sole reliance on either low-level visual features or high-level context for the detection of target objects. Rendered images consist of smoothly varying, globally aligned contour fragments (amoebas) distributed among groups of randomly rotated fragments (clutter). The time course and accuracy of amoeba detection by humans was measured using a two-alternative forced choice protocol with self-reported confidence and variable image presentation time (20-200 ms), followed by an image mask optimized so as to interrupt visual processing. Measured psychometric functions were well fit by sigmoidal functions with exponential time constants of 30-91 ms, depending on amoeba complexity. Key aspects of the psychophysical experiments were accounted for by a computational network model, in which simulated responses across retinotopic arrays of orientation-selective elements were modulated by cortical association fields, represented as multiplicative kernels computed from the differences in pairwise edge statistics between target and distractor images. Comparing the experimental and the computational results suggests that each iteration of the lateral interactions takes at least ms of cortical processing time. Our results provide evidence that cortical association fields between orientation selective elements in early visual areas can account for important temporal and task-dependent aspects of the psychometric curves characterizing human contour perception, with the remaining discrepancies postulated to arise from the influence of higher cortical areas.

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Vadas Gintautas

Identification of Functional Information Subgraphs in Complex Networks

Thermal equilibration ofLu176viaKmixing

Particle size analysis by laser diffraction spectrometry:

Experimental evidence for mixed reality states in an interreality system

Model Cortical Association Fields Account for the Time Course and Dependence on Target Complexity of Human Contour Perception

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