Ляшевський Сергій Едуардович

Ляшевський Сергій Едуардович

liashevskiy Сергій Едуардович Ляшевський (Sergey Edward Lyshevski)

Професор електротехніки
Факультетк електротехніки  та мікроелектроніки
Рочестерського технологічного інституту (Rochester Institute of Technology)
Rochester, New York 14623-5603
Tel: (585) 475-4370
Fax: (585) 475-5845
E-mail: Sergey.Lyshevski@mail.rit.edu

Закінчив кафедру автоматизації електромеханічних систем та електроприводу КПІ в 1980 році, а в 1987 році захистив кандидатську дисертацію. У 2012-2013 навчальних роках читає курс лекцій для студентів та аспірантів в КПІ на кафедрі електроприводу.

Досягнення
2002-present   Rochester Institute of Technology (www.rit.edu)
Professor of Electrical Engineering, Department of Electrical and Microelectronic Engineering
Professor of Microsystems Engineering, Microsystems Engineering Ph.D. Program

2012-2013      U.S. Fulbright Scholar, Professor of Electrical and Computer Engineering, Europe
1993-2002      Purdue School of Engineering
Associate Professor of Electrical and Computer Engineering
1989-1993      Academy of Sciences of Ukraine / Kiev Polytechnic Institute (www.nas.gov.ua)
Micro-Electronic and Electromechanical Systems Division Head
Research Council Member, Professor of Electrical and Computer Engineering

1980-1989      Kiev Polytechnic Institute (www.ntu-kpi.kiev.ua)
Department of Electrical Engineering, Electrical Engineering Faculty

1999-2006
US Naval Undersea and Surface Warfare Centers
(www.npt.nuwc.navy.mil and www.nswc.navy.mil)
Newport and Dahlgren Divisions, Senior Faculty Fellow
2004
Air Force Research Laboratory, Information Directorate (www.rl.af.mil)
Full Professor Faculty Fellow

Research
Fundamental, Applied and Experimental Research
1.         Molecular and Biomolecular Processing
· Molecular (biomolecular, organic, inorganic and hybrid) electronics and processing: From enabling devices to processing platforms
· Quantum-effect molecular electronics and photonics: Sensing, memory and processing devices and fabrics
· Processing, computing and memory architectures and organizations
· Synthesis, fabrication, testing and characterization of molecular processing devices and fabrics
· Biomolecular and neuronal interfacing, communication and processing
· Quantum informatics and ITs
2.         Nanotechnology and Microsystems
· Synthesis, design and analysis of microsystems and devices (transducers, actuators and sensors)
· Nanotechnology and Nanobiotechnology: Fabrication and implementation of integrated microsystems and MEMS
2.         Clean Renewable Energy Sourses and Systems
· Design and analysis of clean energy systems
· Nanotechnology and quantum-mechanical energy harvesting, storage and conversion
· Integrated sustainable energy systems
· High-performance electromechanical motion devices and electronics

Transformative Research
· Foundations of molecular engineering, science and nanotechnology
· Molecular processing platforms and enabling IT solutions

Research Milestones
1. Molecular Processing and ITs
3D enabling super-high-density quantum-mechanical molecular assemblies and nanoscale crossbar memory and processing fabrics emerged. Figures illustrate: Moore’s first conjuncture for microelectronics and envisioned trends towards molecular nanotechnology; Quantum-mechanical 3D molecular processing; Vertebrate neuron as a biomolecular processing module; Ribosome; 3-nm-wide parallel (six-atom-wide) erbium disilicide nanowires with 3D crossbar fabrics.  2. Nanotechnology, Nanobiotechnology and Microsystems
Nanobio and microsystems exist in nature in enormous variety. There is a need to understand, typify and utilize quantum and electrochemomechanical phenomena and effects. Quantum and biophysics fundamentals must be examined. Single-cell E.coli bacteria exhibit extraordinary energy conversion, sensing and processing capabilities. Baseline phenomena, transductions, mechanisms and organization have not been comprehended. An unified taxonomy in devising, discovery, synthesis and design of nano- and microsystems can be centered on utilization of enabling organizations, topologies, phenomena, effects, transitions and mechanisms observed in living organisms. These systems span from energy harvesting and energy conversion to quantum-mechanical sensing and information processing.                             E.coli bacteria and living organisms (invertebrates and vertebrates) exhibit extraordinary sensing and processing revealing quantum-mechanical (microscopic) and macroscopic system consistency

Application: Nanotechnology, MEMS and ITs for Advanced Underwater and Flight Vehicles
· Engineered and natural processing, computing and interfacing
· Appplication of molecular and nano technologies in command, control, communications, computers and intelligent systems
· Nanotechnology, MEMS and ICs in peripheral systems (actuators, sensors and smart structures)
· Sustainable energy systems, and, energy storage solutions

Editor of the CRC Books Series
Nano- and Micro- Science, Engineering, Technology, and Medicine
Associations and Collaborations
· Government: ARL, Air Force, DARPA, DoN, ONR, DoE, DoT, NIST, NSF, etc.
· Industry: Allison Transm, Analog Dev, Delco, Delphi, Cummins, Lockheed Martin, Raytheon, Lynx, General Dynamics, etc.
· Academia: Universities, laboratories and centers
Back to top

Teaching
· Undergraduate and graduate programs development in focus and emerging Electrical and Computer Engineering areas
· Curriculum, courses and laboratories development, redesign and implementation
· Enhancing the program quality through horizontal and vertical integration
· Multidisciplinary interactive learning and scholarship activities
· Balanced teaching, research, discovery and learning: Integration of modern theories – engineering practice – enabling technologies
· Multimedia interaction and interactive learning using advanced software and enhanced learning-centered delivery
· Research with undergraduate and graduate students

Undergraduate and Graduate Courses (Short list of regular courses taught) Graduate  Undergraduate
· Microsystems Design
· Fundamentals of Microsystems
· Nano- and Micro-Electromechanical Systems
· Nano and Microengineering
· Microelectromechanical Motion Devices       · Computer Architectures
· Signals and Systems
· Mechatronics
· Electromagnetics
· Microelectronics

Instructed: over 10000 students
Supervised: 11 PhD and 53 MS in Electrical and Computer Engineering

Publications
Books: 16
Journal Articles: 69
Handbook Chapters: 14
Conference Papers (refereed): 252
Patents: 2

Recent Publications (2002-2010):

Books – Published in 2002-2010 1      S. E. Lyshevski, Molecular Electronics, Circuits and Processing Platforms, CRC Press, 2007.
2          S. Yanushkevich, V. Shmerko and S. E. Lyshevski, Computer Arithmetics for Nanoelectronics, CRC Press, 2009.
3          S. E. Lyshevski, Nano- and Micro-Electromechanical Systems: Fundamental of Micro- and Nano- Engineering, CRC Press, 1999 (first edition) and 2005 (second edition)
4          S. Yanushkevich, V. Shmerko and S. E. Lyshevski, Logic Design of NanoICs, CRC Press, 2004.
5          V. Giurgiutiu and S. E. Lyshevski , Micromechatronics: Modeling, Analysis, and Design With MATLAB, CRC Press, Boca Raton, FL, 2003 (first edition) and 2008 (second edition).
6          S. E. Lyshevski, Engineering and Scientific Computations Using MATLAB, John Wiley & Sons, NY, 2003.
7          S. E. Lyshevski, MEMS and NEMS: Systems, Devices and Structures, CRC Press, Boca Raton, FL, 2002.

Handbook Chapters

1.  S. E. Lyshevski, Molecular and Biomolecular Processing: Solutions, Directions and Prospects, Handbook on Nano and Molecular Electronics, Ed. W. Goddard, D. Brenner, S. E. Lyshevski and G. Iafrate, CRC Press, Boca Raton, FL, pp. 125-177, 2012.
2.         S. N. Yanushkevich, V. P. Shmerko and S. E. Lyshevski, Three Dimensional Computing Nanostructures, In Encyclopedia of Nanoscience and Nanothechnology, Ed. H. S. Nalwa, American Scientific Publishers, vol. 24, pp.445-466, 2011.
3.         S. E. Lyshevski, Three-Dimensional Molecular Electronics and Integrated Circuits For Signal and Information Processing Platforms, Handbook on Nano and Molecular Electronics, Ed. S. E. Lyshevski, CRC Press, Boca Raton, FL, pp. 6-1 – 6-102, 2007.
4.         S. E. Lyshevski, Molecular Computing and Processing Platforms, Handbook of Nanoscience, Engineering and Technology, Ed. W. Goddard, D. Brenner, S. E. Lyshevski and G. Iafrate, CRC Press, Boca Raton, FL, pp. 7.1 – 7.82, 2007.
5.         S. E. Lyshevski, Micromechatronics and Microelectromechanical Motion Devices, Handbook in Mechatronics, Ed. R. Bishop, CRC Press, Boca Raton, FL, pp. 17.1-17-16, 2007.
6.         S. E. Lyshevski, Nanocomputers, Nano-Architectronics, and Nano-ICs, Sensors, Nanoscience, Biomedical Engineering, and Instruments Handbook, Ed. R. C. Dorf, CRC Press, Boca Raton, FL, pp. 4-42 – 4-68, 2005.
7.         V. Giurgiutiu and S. E. Lyshevski, Micromechatronics, Sensors, Nanoscience, Biomedical Engineering, and Instruments Handbook, Ed. R. C. Dorf, CRC Press, Boca Raton, FL, pp. 4-20- 4-41, 2005.
8.         S. E. Lyshevski, Nanocomputers and NanoICs, Engineering Handbook, Ed. R. C. Dorf, CRC Press, Boca Raton, FL, pp. 148.1-148.27, 2005.
9.         S. E. Lyshevski, Nanotechnology, Handbook of Mechanical Engineering, Ed. F. Kreith and D. Y. Goswami, CRC Press, Boca Raton, FL, pp 18.1 – 18.18, 2005.
10.       S. E. Lyshevski, Nanocomputers and Nanoachitectronics, Handbook of Nanoscience, Engineering and Technology, Ed. W. Goddard, D. Brenner, S. Lyshevski and G. Iafrate, pp. 6.1-6.39, CRC Press, Boca Raton, FL, 2002.
11.       S. E. Lyshevski, Electromagnetic Nano- and Microactuators, Handbook of Nanoscience, Engineering and Technology, Ed. W. Goddard, D. Brenner, S. Lyshevski and G. Iafrate, pp. 23.1-23.27, CRC Press, Boca Raton, FL, 2002.
12.       S. E. Lyshevski, Rotational and Translational Microelectromechanical Systems: MEMS Synthesis, Microfabrication, Analysis and Optimization, Handbook in Mechatronics, pp. 14.1-14.35, CRC Press, Boca Raton, FL, 2002.
13.       S. E. Lyshevski, MEMS: Microtransducers Analysis, Design, and Fabrication, Handbook in Mechatronics, pp. 20.96-20.132, CRC Press, Boca Raton, FL, 2002.

Journal Articles – Available on the IEEE Xplore http://ieeexplore.ieee.org/Xplore/dynhome.jsp 1.    S. N. Yanushkevich, M. L. Gavrilova, V. P. Shmerko, S. E. Lyshevski, A. Stoica and R. R. Yager, “Belief trees and networks for biometric applications,” Journal of Soft Computing, vol. 15, issue 1, pp. 3-11, 2011.
2.         S. E. Lyshevski, “High-power density miniscale generation and energy harvesting systems,” Journal Energy Conversion and Management, vol. 52, no. 11, pp. 46-52, 2010.
3.         S. E. Lyshevski, S. N. Yanushkevich, V. P. Shmerko and V. Geurkov, “Computing paradigms for logic nanocells,” Journal of Computational and Theoretical Nanoscience, vol. 5, no. 12, pp. 2377-2395, 2008.
4.         K. Walczak and S. E. Lyshevski, “Modeling transport through single-molecule junctions,” Central European Journal of Physics, vol. 3, no. 4, pp. 555-563, 2005.
5.         A.S.C. Sinha and S. E. Lyshevski, “Fuzzy control with random delays using invariant cones and its application to control of energy processes in microelectromechanical motion devices,” Energy Conversion and Management, vol. 46, pp. 1305-1318, 2005.
6.         S. E. Lyshevski, “Modeling and control of MEMS with high speed synchronous micromotors and controllers/drivers-on-VLSI-chip ICs,” Energy Conversion and Management, vol. 44, pp. 667-679, 2003.
7.         S. E. Lyshevski, “Smart flight control surfaces with microelectromechanical systems,” IEEE Trans. on Aerospace and Electronic Systems, vol. 38, no. 2, pp. 543-552, 2002.
8.         A.S.C. Sinha and S. E. Lyshevski, “Analysis and design of advanced miniscale mechatronic systems: Synthesis of intelligent flight servos,” Smart Engineering System Design, vol. 4, pp. 115-123, 2002.
9.         S. E. Lyshevski, A. Nazarov and J. Boggs, “Integrated micro- and miniscale electromechanical systems with permanent-magnet servo-motors and VLSI drivers-controllers,” Mechatronics, vol. 12, no.6, pp. 1115-1131, 2002.
10.       S. E. Lyshevski, “Modeling and identification of induction micromachines in microelectromechanical systems applications,” Journal Energy Conversion and Management, vol. 43, no. 6, pp. 2123-2133, 2002.
11.       S. E. Lyshevski, “Optimal structural synthesis, modeling, and control of micro-mechatronic systems,” Mechatronics, vol. 11, no. 2, pp. 837-851, 2001.
12.       S. E. Lyshevski, V. A. Skormin and R. D. Colgren, “High-torque density integrated electro-mechanical flight actuators,” IEEE Trans. on Aerospace and Electronic Systems, vol. 38, no. 1, pp. 174-182, 2002.

Selected Refereed Conference Papers  – Available on the IEEE Xplore http://ieeexplore.ieee.org/Xplore/dynhome.jsp 1.            T. C. Smith and S. E. Lyshevski, “Clean high-energy dencity rebewable power generation systems with soft-switching sliding mode control laws,” Proc. IEEE Conf. Decision and Control, Orlandp, FL, pp. 836-841, 2011.
2.         S. E. Lyshevski and T. C. Smith, “Tracking control of direct-drive servos,” Proc. IEEE Conf. Decision and Control, Orlandp, FL, pp. 1602-1607, 2011.
3.         A. P. S. Chauhan and S. E. Lyshevski, “Design of tracking control laws using nonlinear aircraft models,” Proc. Int. Conf. Electrical Engineering, Computing Science and Automatic Control, Merida, Mexico, pp. 98-102, 2011.
4.         S. E. Lyshevski and T. C. Smith, “Soft-switching sliding mode control of power generation systems,” Proc. Int. Conf. Electrical Engineering, Computing Science and Automatic Control, Merida, Mexico, pp. 57-60, 2011.
5.         S. E. Lyshevski, L. L. Fuller, I. Puchades and J. D. Andersen, “ Nano and microelectromechanical systems courses,” Proc. IEEE Conf. on Nanotechnology, Portland, OR, pp. 809-814, 2011.
6.         S. E. Lyshevski and G. R. Tsouri, “Molecular and biomolecular communication: Waveguides and possible role of microtubules,” Proc. IEEE Conf. on Nanotechnology, Portland, OR, pp. 698-702, 2011.
7.         S. E. Lyshevski, “ Molecular sensing and processing on photons,” Proc. IEEE Conf. on Nanotechnology, Portland, OR, pp. 1274-1279, 2011.
8.         S. E. Lyshevski, “ Quantum processing: Feasibility studies and solutions,” Proc. IEEE Conf. on Nanotechnology, Portland, OR, pp. 1527-1532, 2011.
9.         S. E. Lyshevski, “ Multi-state digital and quantum signal processing and emerging nanoelectronic processing hardware: Complexity, performance and capabilities,” Proc. IEEE Conf. on Nanotechnology, Portland, OR, pp. 1313-1316, 2011.
10.       S. E. Lyshevski, “ Graphene: Quantum-mechanical outlook,” Proc. IEEE Conference on Nanotechnology, Portland, OR, pp. 1088-1092, 2011.
11.       S. E. Lyshevski, “ Quantum-mechanical analysis of single molecule quantum electronic devices,” Proc. IEEE Conf. on Nanotechnology, Portland, OR, pp. 264-268, 2011.
12.       S. E. Lyshevski and K. S. Martirosyan, “ Ferrite nanoparticles for MEMS technology sensors and actuators,” Proc. IEEE Conf. on Nanotechnology, Portland, OR, pp. 1252–1256, 2011.
13.       A. H. Tran, S. N. Yanushkevich, S. E. Lyshevski and V. P. Shmerko, “ Design of neuromorphic logic networks and fault-tolerant computing,” Proc. IEEE Conference on Nanotechnology, Portland, OR, pp. 457-462, 2011.
14.       A. H. Tran, S. N. Yanushkevich, S. E. Lyshevski and V. P. Shmerko, “ Fault tolerant computing paradigm for random molecular phenomena: Hopfield gates and logic networks,” Proc. Int. Symposium on Multiple-Valued Logic, Finland, pp. 90-95, 2011.
15.       S. E. Lyshevski, “ Analysis of graphene, molecular wires and inorganic materials for nanoelectronic and low power integrated circuits,” Proc. NanoTech Conf., Boston, MA, vol. 2, pp. 5-8, 2011.
16.       S. E. Lyshevski, “ High-fidelity modeling of single-molecule quantum electronic devices,” Proc. NanoTech Conf., Boston, MA, vol. 2, pp. 675-678, 2011.
17.       S. E. Lyshevski, “ Biomolecular, organic and inorganic processing fabrics: Design and synthesis of processing cells and primitives,” Proc. NanoTech Conf., Boston, MA, vol. 2, pp. 50-53, 2011.
18.       S. E. Lyshevski, “ Photon-induced niomolecular sensing and processing: Towards engineering, science and medical applications,” Proc. NanoTech Conf., Boston, MA, vol. 2, pp. 76-79, 2011.
19.       S. E. Lyshevski, “ Single-molecule quantum-effect electronic devices,” Proc. NanoTech Conf., Boston, MA, vol. 2, pp. 58-61, 2011.
20.       S. E. Lyshevski and A.P.S. Chanhan, “ Control of MEMS-technology axial topology microservos,” Proc. NanoTech Conf., Boston, MA, vol. 2, pp. 361-364, 2011.
21.       S. E. Lyshevski and K. S. Martirosyan, “ Weak magnetic field sensing using soft ferrite nanoparticles and MEMS,” Proc. NanoTech Conf., Boston, MA, vol. 2, pp. 349-351, 2011.
22.       S. E. Lyshevski, “ Genomic mapping and spectral analysis in the frequency domain,” Proc. NanoTech Conf., Boston, MA, vol. 2, pp. 501-504, 2011.
23.       A. H. Tran, S. N. Yanushkevich, S. E. Lyshevski and Shmerko, “ Neuromorphic logic networks and robust stochastic computing under large perturbations and uncertainties,” Proc. NanoTech Conf., Boston, MA, vol. 2, pp. 690-693, 2011.
24.       T. S. Smith and S. E. Lyshevski, “ Clean high-energy-density mini-scale renewable power generation and energy harvesting systems,” Proc. Clean Tech Conf., Boston, MA, pp. 17-20, 2011.
25.       S. E. Lyshevski, “ Design and development of photovoltaic systems,” Proc. Clean Tech Conf., Boston, MA, pp. 66-68, 2011.
26.       S. E. Lyshevski, “ Nonlinear optimal control of air-to-air missiles,” Proc. IEEE Conf. Methods and Systems of Navigation and Motion Control, Kiev, Ukraine, pp. 57-61, 2010.
27.       A.P.S. Chanhan and S. E. Lyshevski, “ Design of robust control laws for fighter and interceptor aircraft,” Proc. IEEE Conf. Methods and Systems of Navigation and Motion Control, Kiev, Ukraine, pp. 135-139, 2010.
28.       S. E. Lyshevski, “ Natural and engineered molecular sensing and processing devices and platforms: Nano- and molecular engineering,” Proc. Nanoelectronic Devices for Defense and Security Conf., Fort Lauderdale, FL, 2009.
29.       E. Vaganova, I. F. Pierola, H. Ovadia, S. E. Lyshevski and S. Yitzchaik, “ Effect of spontaneous diffusion in micro/ nanoporous chemically crosslinked poly (N-vinyl imidazole) gel on conformational changes of acetylcholine,” Proc. BiOS SPIE Photonics Conf., San Jose, CA, vol. 3, no. 7185-41, pp. 1-8, 2009.
30.       S. E. Lyshevski, V. P. Shmerko, M. A. Lyshevski and S. N. Yanushkevich, “Neuronal processing, reconfigurable neural networks and stochastic computing,” Proc. IEEE Conf. on Nanotechnology, Arlington, TX, pp. 717-720, 2008.
31.       S. E. Lyshevski, “Neuroarchitectronics and neuromorphological molecular processing platforms,” Proc. IEEE Conf. on Nanotechnology, Arlington, TX, pp. 588-591, 2008.
32.       S. E. Lyshevski, “Characterization of physical defects and fault analysis of molecular and nanoscaled integrated circuits,” Proc. IEEE Conf. on Nanotechnology, Arlington, TX, pp. 514-517, 2008.
33.       M. A. Lyshevski and S. E. Lyshevski, “Molecular and biomolecular processing: Three-dimensional-topology processing and memory cells,” Proc. IEEE Conf. on Nanotechnology, Arlington, TX, pp. 6-9, 2008.
34.       S. E. Lyshevski, “Quantum-effect multi-terminal molecular electronic devices,” Proc. IEEE Conf. on Nanotechnology, Arlington, TX, pp. 492-495, 2008.
35.       S. E. Lyshevski and A.S.C. Sinha, “Control of charge carriers in molecular devices,” Proc. IEEE Conf. on Nanotechnology, Arlington, TX, pp. 311-314, 2008.
36.       M. A. Lyshevski and S. E. Lyshevski, “Rhodopsin photon receptor energetics: Studies of biomolecular sensing and processing,” Proc. IEEE Conf. on Nanotechnology, Arlington, TX, pp. 874-877, 2008.
37.       S. E. Lyshevski, “ Quantum mechanics and electromagnetics of weak magnetic field sensing, storage and retrieval in biosystems and engineered systems,” Proc. IEEE Conf. on Nanotechnology, Arlington, TX, pp. 721-724, 2008.
38.       S. E. Lyshevski, V. P. Shmerko and S. N. Yanushkevich, “Benchmarking performance and physical limits on processing electronic device and systems: Solid-state, molecular and natural processing paradigms,” Proc. NanoTech Conf., Boston, MA, vol. 3, pp. 31-34, 2008.
39.       E. Vaganova, H. Ovadia, S. E. Lyshevski, V. Khodorkovsky, I. F. Pierola and S. Yitzchaik, “Conformational changes of acetylcholine during spontaneous diffusion through a nano/microporous gel,” Proc. NanoTech Conf., Boston, MA, vol. 1, pp. 348-351, 2008.
40.       M. A. Lyshevski and S. E. Lyshevski, “Three-dimensional-topology processing and memory cells,” Proc. NanoTech Conf., Boston, MA, vol. 3, pp. 35-38, 2008.
41.       M. A. Lyshevski and S. E. Lyshevski, “Fluidic molecular processing and interfacing devices,” Proc. NanoTech Conf., Boston, MA, vol. 1, pp. 266-269, 2008.
42.       S. E. Lyshevski, “Sensing weak magnetic fields by living systems and a magnetoreception mechanism for navigation,” Proc. NanoTech Conf., Boston, MA, vol. 3, pp. 199-202, 2008.
43.       S. E. Lyshevski, “Genomics and proteomics: Information-theoretic analysis in frequency domain,” Proc. NanoTech Conf., Boston, MA, vol. 2, pp. 19-21, 2008.
44.       S. E. Lyshevski, “Active electromagnetic-vibroacoustic control and optimization of microelectromechanical motion devices,” Proc. IEEE Conf. on Decision and Control, New Orleans, LA, pp. 2439-2444, 2007.
45.       S. E. Lyshevski and L. F. Fuller, “Design, optimization, analysis and control topics in nanotechnology and MEMS courses,” Proc. IEEE Conf. on Decision and Control, New Orleans, LA, pp. 2399-2404, 2007.
46.       I. Puchades, R. Pearson, L. F. Fuller, S. Gottermeier and S. E. Lyshevski, “Design and fabrication of microactuators and sensors for MEMS,” Proc. IEEE Conf. on Prospective Technologies and Methods in MEMS Design, Polyana, Ukraine, pp. 72-77, 2007.
47.       M. A. Lyshevski and S. E. Lyshevski, “BioMEMS and molecular processing: Engineering biomimetics and its applications,” Proc. IEEE Conf. on Prospective Technologies and Methods in MEMS Design, Polyana, Ukraine, pp. 81-85, 2007.
48.       S. E. Lyshevski, “Microscale self-sustained power generation systems,” Proc. IASTED Conf. on Power and Energy Systems, Clearwater, FL, pp. 117-120, 2007.
49.       M. A. Lyshevski and S. E. Lyshevski, “Synthetic nanoscale motion devices,” Proc. IASTED Conf. on Power and Energy Systems, Clearwater, FL, pp. 138-141, 2007.
50.       S. E. Lyshevski, “Design of three-dimensional molecular integrated circuits and molecular architectronics,” Proc. IEEE Conf. on Nanotechnology, Cincinnati, OH, pp. 488-491, 2006.
51.       S. E. Lyshevski, “Information-theoretic analysis of three-dimensional molecular integrated circuits,” Proc. IEEE Conf. on Nanotechnology, Cincinnati, OH, pp. 351-354, 2006.
52.       S. E. Lyshevski, “Molecular cognitive information-processing and computing platforms,” Proc. IEEE Conf. on Nanotechnology, Cincinnati, OH, pp. 189-192, 2006.
53.       K. Walczak and S. E. Lyshevski, “Decoherence and dephasing in molecular electronic devices,” Proc. IEEE Conf. on Nanotechnology, Cincinnati, OH, pp. 78-81, 2006.
54.       S. E. Lyshevski, J. D. Andersen, S. Boedo, L. Fuller, R. Raffaelle, A. Savakis, G. R. Skuse, “Multidisciplinary undergraduate Nano-Science, Engineering and Technology course,” Proc. IEEE Conf. on Nanotechnology, Cincinnati, OH, pp. 399-402, 2006.
55.       S. E. Lyshevski, “Design of nano- and microsystems with novel control laws,” Proc. IEEE Conf. on Control Applications, Munich, Germany, pp. 1055-1060, 2006.
56.       S. E. Lyshevski, “Control of neurotransmitters in brain neurons using soft-switching sliding mode control,” Proc. IEEE Conf. on Control Applications, Munich, Germany, pp. 289-294, 2006.
57.       M. A. Lyshevski, A.S.C. Sinha and S. E. Lyshevski, “Control of stochastic systems and molecular fluidic electronic devices,” Proc. IEEE Conf. on Control Applications, Munich, Germany, pp. 2105-2110, 2006.
58.       J. Getpreecharsawas, I. Puchades, B. Hournbuckle, L. Fuller, R. Pearson and S.E. Lyshevski, “An electromagnetic MEMS actuator for micropumps,” Proc. IEEE Conf. on Prospective Technologies and Methods in MEMS Design, Polyana, Ukraine, pp. 11-14, 2006.

59.       M. A. Lyshevski and S. E. Lyshevski, “MOEMS with thin-film crystals,” Proc. IEEE Conf. on Prospective Technologies and Methods in MEMS Design, Polyana, Ukraine, pp. 81-85, 2007.
60.       S. E. Lyshevski, “Novel design of molecular integrated circuits and molecular nanoarchitectronics,” Proc. NanoTech Conference, Boston, MA, vol. 3, pp. 202-205, 2006.
61.       S. E. Lyshevski, “Entropy-enhanced genome analysis in frequency domain,” Proc. NanoTech Conference, Boston, MA, vol. 2, pp. 325-328, 2006.
62.       M. A. Lyshevski and S. E. Lyshevski, “Fluidic nanoelectronics and Brownian dynamics,” Proc. NanoTech Conference, Boston, MA, vol. 3, pp. 43-46, 2006.
63.       S. E. Lyshevski, J. D. Andersen, S. Boedo, L. Fuller, R. Raffaelle, A. Savakis, G. R. Skuse, “New Nano-Science, Engineering and Technology course at the Rochester Institute of Technology,” Proc. ASEE Conf. Engineering on the Edge: Engineering in the New Century, Binghamton, NY, pp. section E.5.1-E.5.6, 2005.
64.       S. E. Lyshevski, “Electron transport in three-dimensional molecular complexes,” Proc. IEEE Conference on Nanotechnology, Nagoya, Japan, pp. 318-320, 2005.
65.       S. E. Lyshevski, “Design of three-dimensional nanoscale integrated circuits,” Proc. IEEE Conference on Nanotechnology, Nagoya, Japan, pp. 441-443, 2005.
66.       S. E. Lyshevski, “Three-dimensional nanobioelectronics: Towards implementation of quantum information theory and quantum computing,” Proc. IEEE Conference on Nanotechnology, Nagoya, Japan, pp. 372-374, 2005.
67.       S. E. Lyshevski, “Multi-valued nanoelectronic with fullerenes,” Proc. Int. Symposium Multiple-Valued Logic, Calgary, Canada, pp. 48-53, 2005.
68.       S. E. Lyshevski, “Three-dimensional multi-valued design in nanoscale integrated circuits,” Proc. Int. Symposium Multiple-Valued Logic, Calgary, Canada, pp. 82-87, 2005.
69.       S. E. Lyshevski and T. Renz, “Three-dimensional molecular electronic architecture and nanoarchitectronics,” Proc. Conf. Fundamentals of Nanoscience, Salt Lake City, UT, 2005.
70.       S. E. Lyshevski and T. Renz, “Carbon-centered quantum nanoelectronics: Novel electronic nanodevices and their analysis,” Proc. Conf. Fundamentals of Nanoscience, Salt Lake City, UT, pp. 123-127, 2005.
71.       K. Walczak and S. E. Lyshevski, “Electrical conduction through single-molecule junctions,” Proc. Conf. Fundamentals of Nanoscience, Salt Lake City, UT, pp. 139-143, 2005.
72.       S. E. Lyshevski, “Carbon-based nanoelectronics: NanoICs with fullerenes,” Proc. IEEE Conference on Nanotechnology, Munich, Germany, pp. 382-385, 2004.
73.       S. E. Lyshevski and T. Renz, “Microtubules and neuronal nanobioelectronics,” Proc. IEEE Conference on Nanotechnology, Munich, Germany, pp. 379-381, 2004.
74.       S. E. Lyshevski and F. A. Krueger, “Robust entropy-enhanced frequency-domain genomic analysis under uncertainties,” Proc. IEEE Conference on Nanotechnology, Munich, Germany, pp. 556-558, 2004.
75.       S. E. Lyshevski and M. A. Lyshevski, “Optoelectromagnetic nanocrystals and microoptoelectromechanical systems,” Proc. IEEE Conference on Nanotechnology, Munich, Germany, pp. 406-409, 2004.
76.       S. E. Lyshevski and F. A. Krueger, “Nanoengineering bioinformatics: Fourier transform and entropy analysis,” Proc. American Control Conference, Boston, MA, pp. 317-322, 2004.
77.       S. E. Lyshevski, “Control of high-performance mini- and microscale electrical cylinders,” Proc. American Control Conference, Boston, MA, pp. 2711-2716, 2004.
78.       S. E. Lyshevski, “Theory and practice of nanotechnology-based MOEMS for holography and adaptive optics: Advances and prospects,” Proc. SPIE Conference on Holography and Applications, Kiev, Ukraine, 2004.
79.       S. E. Lyshevski, “Nanotechnology and super high-density three-dimensional nanoelectronics and nanoICs,” Proc. IEEE Conference on Nanotechnology, San Francisco, CA, pp. 655-658, 2003.
80.       S. E. Lyshevski, F. A. Krueger and E. Theodorou, “Nanoengineering bioinformatics: Nanotechnology paradigm and its applications,” Proc. IEEE Conference on Nanotechnology, San Francisco, CA, pp. 896-899, 2003.
81.       S. E. Lyshevski, “Modeling, simulation, control and optimization paradigms for E.coli bacteria,” Proc. IEEE Conference on Nanotechnology, San Francisco, CA, pp. 690-693, 2003.
82.       S. E. Lyshevski and M. A. Lyshevski, “Nano- and microoptoelectromechanical systems and nanoscale active optics,” Proc. IEEE Conference on Nanotechnology, San Francisco, CA, pp. 840-843, 2003.
83.       S. E. Lyshevski, “High-fidelity modeling, heterogeneous simulation and optimization of synchronous nanomachines and motion nanodevices,” Proc. IEEE Conference on Nanotechnology, San Francisco, CA, pp. 694-697, 2003.
84.       S. E. Lyshevski, “Nanoactuators,” Proc. IEEE Conference on Nanotechnology, San Francisco, CA, pp. 295-298, 2003.
85.       S. E. Lyshevski, “Synthesis and analysis of induction nanomachines,” Proc. IEEE Conference on Nanotechnology, San Francisco, CA, pp. 875-878, 2003.
86.       S. E. Lyshevski and M. A. Lyshevski, “Microoptoelectromechanical systems and frequency control,” Proc. IEEE Frequency Control Symposium, Tampa, FL, pp. 837-844, 2003.
87.       S. E. Lyshevski, “Data-intensive analysis and control of flexible pointing systems with PZT actuators,” Proc. IEEE Frequency Control Symposium, Tampa, FL, pp. 948-956, 2003.
88.       S. E. Lyshevski, “Integrated electromagnetic-vibroacoustic high-fidelity modeling, simulation and optimization of microelectromechanical motion devices,” Proc. IEEE Frequency Control Symposium, Tampa, FL, pp. 845-852, 2003.
89.       S. E. Lyshevski, “MEMS smart variable-geometry flexible flight control surfaces: Distributed control and high-fidelity modeling,” Proc. Conference on Decision and Control, Maui, HI, 2003.
90.       S. E. Lyshevski, “Space transformation method in control of agile interceptors and missiles with advanced microelectromechanical actuators,” Proc. Conference on Decision and Control, Maui, HI, 2003.
91.       S. E. Lyshevski, “Nanotechnology, quantum information theory, and quantum computing,” Proc. IEEE Conference on Nanotechnology, Washington, DC, pp. 309-314, 2002.
92.       S. E. Lyshevski and M. A. Lyshevski, “Nanoelectromechanical systems and nanomachines: biomimicking and prototyping,” Proc. IEEE Conference on Nanotechnology, Washington, DC, pp. 477-482, 2002.
93.       S. E. Lyshevski, “High-fidelity modeling of nanosystems: novel methods and paradigms,” Proc. IEEE Conference on Nanotechnology, Washington, DC, pp. 93-97, 2002.
94.       S. E. Lyshevski, “Discovery and classification of motion nanodevices,” Proc. IEEE Conference on Nanotechnology, Washington, DC, pp. 471-476, 2002.
95.       S. E. Lyshevski, “Nanotechnology for smart flight control surfaces,” Proc. IEEE Conference on Nanotechnology, Washington, DC, pp. 447-452, 2002.
96.       S. E. Lyshevski and J. Getpreecharsawas, “Surface-mounted thin-film actuators in pointing systems,” Proc. IEEE Conference on Nanotechnology, Washington, DC, pp. 465-470, 2002.

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