We develop and use mathematical modeling, numerical simulations, dynamical systems tools, parameter estimation and inference algorithms, and we have a well-developed network of collaborations with experimental scientists carrying out research both in vitro and in vivo.

We particularly focus on oscillatory networks of the nervous system, which play important roles in cognition and motor behavior both in health and disease. This includes the investigation of the mechanisms of selection of frequencies, amplitudes and additional observable activity attributes, and the network response to external, often oscillatory, inputs (e.g., resonances) as the result of the interplay of nonlinearities, time scales and levels of neuronal organization (cellular, synaptic, micro-, meso- and macrocircuit). This research extends to biological networks in the context of chemistry and systems biology (e.g., biochemical, genetic).

Our efforts also include the investigation of the relationship between experimental and observable data to models in collaboration with statistical neuroscientists and data scientists. These projects include the resolution of unidentifiability in models and data (multiple parameter sets producing identical or similar observable activity patterns) and the determination of correlation and causal rules in neuroscience data.

Our group is strongly committed to teaching and mentoring and the dissemination of science with the goal of having a societal impact, in particular on the education of young scientists.

Mathematical and Computational Neuroscience

Biophysical Mechanisms of Generation of Brain Rhythms

Dynamical Systems / Nonlinear Dynamics

Data Analysis and parameter estimation

Systems Biology

Oscillations in Chemical, Biological, and other Systems

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The difference between stupidity and genius is that genius has its limits - Albert Einstein

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Letter to the NJIT Board of Trustees on ocassion of the denial of my Sabbatical Leave

(strongly recommended by the NJIT Sabbatical Committe based on academic achievements).

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Office address:

        Horacio G. Rotstein
	Department of Biological Sciences
        New Jersey Institute of Technology
        University Heights
        Newark, NJ, 07102, USA.

        tel: (1-973) 596-8460
        fax: (1-973) 596-5591


E-mail: horacio (at/arroba/strudel)njit(dot/punto/nekuda)edu

The Universal Declaration of Human Rights (English)

Declaración Universal de Derechos Humanos (Castellano)

Ivrit - Hebrew

CV

Scientific Publications

Science Diplomacy

Guest Editor

Chaos (An Interdisciplinary Journal of Nonlinear Science) Focus Issue on Mixed Mode Oscillations: Experiment, Computation, and Analysis   March 2008

Chaos (An Interdisciplinary Journal of Nonlinear Science) Focus Issue on Rhythms and Dynamic Transitions in Neurological Disease   December 2013

NSF IOS 2002863 Dynamic interactions of individual neurons in supporting hippocampal network oscillations during behavior

NSF DBI 1820631 Workshop: Present and Future Theoretical Frameworks in Neuroscience

NSF DMS 1715808 (Mathematical Biology) - The role of neuronal ionic current correlations on network activity

CRCNS NSF DMS 1608077 Network Resonance: Revealing the Neuronal Mechanisms

NSF DMS 1313861 (Mathematical Biology) - Mechanisms of frequency preference in neurons and networks: biophysics and dynamics

NIH NINDS R56NS085330 Ionic conductance correlations tune neuronal network activity to natural inputs

NSF DMS 0817241 (Mathematical Biology) - rhythmic oscillations in the entorhino-hippocampal system: biophysics and dynamics

Neuronal Oscillations Journal Club (modeling, computations, experiments & data analysis)

Neuronal Oscillations Collective (NYC area)

Courses and Seminars

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This website is under construction. Please, visit my old one.

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horacio g rotstein math faculty/staff

Last modified: Thu Sep 2 10:40:43 EDT 2010