Aurel A. Lazar

PROFESSOR OF ELECTRICAL ENGINEERING

819 Shapiro Research Building
(CEPSR)

Tel (212) 854-1747

Fax(212) 932-9421

Email[email protected]

Aurel A. Lazar current research interests are in computing with neural circuits (in silico) and in reverse engineering the fruit fly brain. He initiated Neurokernel, an open source platform for the emulation of the fruit fly brain, and Neuroarch, a database for querying and executing fruit fly brain circuits. Neurokernel and NeuroArch are two of the systems foundations of the Fruit Fly Brain Observatory (FFBO), a worldwide collaborative effort between experimentalists, theorists and computational neuroscientists with the goal to create an open platform for the emulation and biological validation of fruit fly brain models in health and disease. He is currently leading the development of NeuroNLP and NeuroGFX, two key FFBO applications, that enable researchers to use plain English to probe biological data that are integrated into NeuroArch and provide users highly intuitive tools to execute neural circuit models with Neurokernel.

Research Interests

Computing with neural circuits (in silico), reverse engineering the fruit fly brain (in vivo and in silico).

Links

VISIT ELECTRICAL ENGINEERING HOMEPAGE LAB WEBSITE

His work on computing with neural circuits is centered on Neural Computing Engines and on NeuroInformation Processing Machines. He pioneered formal theoretical methods of neural encoding and decoding (Time Encoding Machines) and functional identification of dendritic stimulus processors and biophysical spike generators (Channel Identification Machines). His research group created and implemented Spike Processing Machines and Phase Processing Machines in the analog domain (graded potentials) and in the spike domain on clusters of GPUs. Some of the code developed by his collaborators is available for free download. His in vivo work on Reverse Engineering the Fruit Fly Brain primarily addresses sensory processing in the early olfactory system of the Drosophila.

Lazar received a PhD in electrical engineering and computer science from the Princeton University, Princeton, NJ, in 1980.

RESEARCH EXPERIENCE

Prior to my research in computational and systems neuroscience, I spent some 20 years as PI leading a number of computer networking research groups. I covered a broad set of research topics/fields, including building major switching hardware, architecting broadband kernels for programmable networks and creating game theory models for resource allocation.

PROFESSIONAL EXPERIENCE

Co-Director of the Center for Neural Engineering and Computation, 2013-
Chairman and Chief Executive Officer of Xbind, Inc., 1998-2001
Chair of electrical engineering, Columbia University, 1997-1998
Professor of electrical engineering, Columbia University, 1988-
Associate professor of electrical engineering, Columbia University, 1984–1988
Assistant professor of electrical engineering, Columbia University, 1980–1984

PROFESSIONAL AFFILIATIONS

IEEE
Society for Neuroscience

HONORS & AWARDS

Fellow of the IEEE, 1993
IFIP/IEEE Dan Stokesberry memorial award for distinguished technical contributions to the growth of the field of network management, 2003.

GRANT SUPPORT

NSF, NIH, AFOSR

SELECTED PUBLICATIONS

Lev E. Givon and Aurel A. Lazar, Neurokernel: An Open Source Platform for Emulating the Fruit Fly Brain, PLOS ONE 11(1): e0146581, doi:10.1371/journal.pone.0146581, January 2016.
Lev E. Givon, Aurel A. Lazar and Chung-Heng Yeh, Generating Executable Models of the Drosophila Central Complex, Frontiers in Behavioral Neuroscience , May 2017.
Anmo J. Kim, Aurel A. Lazar and Yevgeniy B. Slutskiy, Projection Neurons in Drosophila Antennal Lobes Signal the Acceleration of Odor Concentrations, eLife 2015;10.7554/eLife.06651, June 2015.
Aurel A. Lazar and Yevgeniy B. Slutskiy, Functional Identification of Spike-Processing Neural Circuits, Neural Computation, Volume 26, Issue 2, pp. 264-305, February 2014.
Aurel A. Lazar and Yevgeniy B. Slutskiy, Spiking Neural Circuits with Dendritic Stimulus Processors: Encoding, Decoding, and Identification in Reproducing Kernel Hilbert Spaces, Journal of Computational Neuroscience, Volume 38, No. 1, pp. 1-24, February 2015.
Aurel A. Lazar, Yevgeniy B. Slutskiy and Yiyin Zhou, Massively Parallel Neural Circuits for Stereoscopic Color Vision: Encoding, Decoding and Identification, Neural Networks, Volume 63, pp. 254-271, March 2015.
Aurel A. Lazar, Nikul H. Ukani and Yiyin Zhou, A Motion Detection Algorithm Using Local Phase Information, Computational Intelligence and Neuroscience, Volume 2016, January 2016.
Aurel A. Lazar and Yiyin Zhou, Reconstructing Natural Visual Scenes from Spike Times, Proceedings of the IEEE, Vol. 102, Number 10, October 2014 (invited paper).
Aurel A. Lazar and Yiyin Zhou, Volterra Dendritic Stimulus Processors and Biophysical Spike Generators with Intrinsic Noise Sources, Frontiers in Computational Neuroscience, Volume 8, Number 95, September 2014.
Aurel A. Lazar and Yiyin Zhou, Identifying Multisensory Dendritic Stimulus Processors, IEEE Transactions on Molecular, Biological, and Multi-Scale Communications, Volume 2, Number 2, pp. 183-198, December 2016 , Special Issue on Biological Applications of Information Theory in Honor of Claude Shannon's Centennial, Part II (invited paper).