Sergey Edward Lyshevski

Bio: Sergey Edward Lyshevski is an academic researcher from Rochester Institute of Technology. The author has contributed to research in topics: Nonlinear system & Motion control. The author has an hindex of 25, co-authored 287 publications receiving 2746 citations. Previous affiliations of Sergey Edward Lyshevski include Purdue University & University of South Carolina.

Handbook of Nanoscience, Engineering, and Technology

Abstract: In his 1959 address, "There is Plenty of Room at the Bottom," Richard P. Feynman speculated about manipulating materials atom by atom and challenged the technical community "to find ways of manipulating and controlling things on a small scale." This visionary challenge has now become a reality, with recent advances enabling atomistic-level tailoring and control of materials. Exemplifying Feynman’s vision, Handbook of Nanoscience, Engineering, and Technology, Third Edition continues to explore innovative nanoscience, engineering, and technology areas. Along with updating all chapters, this third edition extends the coverage of emerging nano areas even further. Two entirely new sections on energy and biology cover nanomaterials for energy storage devices, photovoltaics, DNA devices and assembly, digital microfluidic lab-on-a-chip, and much more. This edition also includes new chapters on nanomagnet logic, quantum transport at the nanoscale, terahertz emission from Bloch oscillator systems, molecular logic, electronic optics in graphene, and electromagnetic metamaterials. With contributions from top scientists and researchers from around the globe, this color handbook presents a unified, up-to-date account of the most promising technologies and developments in the nano field. It sets the stage for the next revolution of nanoscale manufacturing—where scalable technologies are used to manufacture large numbers of devices with complex functionalities.

MEMS and NEMS - systems, devices, and structures

Abstract: Overview and Introduction New Trends in Engineering and Science: Micro- and Nanoscale Systems Introduction to Design of MEMS and NEMS Biological and Biosystems Analogies Overview of Nano- and Microelectromechanical Systems Applications of Micro- and Nanoelectromechanical Systems Micro- and Nanoelectromechanical Systems Synergetic Paradigms in MEMS MEMS and NEMS Architecture Fundamentals of MEMS Fabrication Introduction and Description of Basic Processes Microfabrication and Micromachining of ICs, Microstructures, and Microdevices Devising and Synthesis of MEMS AND NEMS MEMS Motion Microdevices Classifier and Synthesis Nanoelectromechanical Systems Modeling of Micro- and Nanoscale Electromechanical Systems, Devices, and Structures Introduction to Modeling, Analysis, and Simulation Electromagnetics and its Application for MEMS and NEMS Induction Micromachines Synchronous Microtransducers Microscale Permanent-Magnet Stepper Micromotors Piezotransducers Fundamentals of Modeling of Electromagnetic Radiating Energy Microdevices Classical Mechanics and its Application Thermoanalysis and Heat Equation Nanosystems, Quantum Mechanics, and Mathematical Models Atomic Structures and Quantum Mechanics Molecular and Nanostructure Dynamics Molecular Wires and Molecular Circuits Control of Microelectromechanical Systems Introduction to Microelectromechanical Systems Control Lyapunov Stability Theory Control of Microelectromechanical Systems Intelligent Control of MEMS Hamilton-Jacobi Theory and Quantum Mechanics Case Studies: Synthesis, Analysis, Fabrication, and Computer-Aided Design of MEMS Introduction Design and Fabrication Analysis of Translational Microtransducers Single-Phase Reluctance Micromotors: Modeling, Analysis, and Control Three-Phase Synchronous Reluctance Micromotors Microfabrication Magnetization Dynamics of Thin Films Microstructures and Microtransducers With Permanent Magnets: Micromirror Actuators Reluctance Electromagnetic Micromotors Micromachined Polycrystalline Silicon Carbide Micromotors Axial Electromagnetic Micromotors Synergetic Computer-Aided Design of MEMS Index Each chapter also includes a References section. Keywords: Nanoscience, Nanotechnology

Electromechanical Systems, Electric Machines, And Applied Mechatronics

Abstract: Introduction Mechatronics and Emerging Trends in Engineering Basic Foundations Engineering Computations Using MATLAB Analysis and Modeling of Dynamic Systems Using MATLAB: An Introduction Electromechanical System Dynamics, Energy Conversion, and Electromechanical Analogies Mathematical Models and System Dynamics Energy Conversion Electromechanical Analogies Introduction to Feedback Control of Electromechanical Systems Continuous-Time Electromechanical Systems and Analog PID Controllers Analog Control of Permanent-Magnet Direct Current Motors Electromechanical Systems with Digital PID Controllers Control of Permanent-Magnet Direct Current Motor using Digital Controller Introduction to Microelectronic Circuits, Power Electronic Devices, and Power Converters Operational Amplifiers Circuit Elements Power Amplifiers and Power Converters Direct-Current Machines Introduction Doubly Exited Transducer and Introduction to Fundamental of Alternating-Current and Direct-Current Electric Machines Separately Exited Direct-Current Machines Shunt-Connected Direct-Current Machines Series-Connected Direct-Current Machines Compound-Connected Direct-Current Electric Machines Permanent-Magnet Direct-Current Machines Modeling and Analysis of Permanent Magnet DC Generators Model Development and Analysis of Ward-Leonard Systems with DC Electric Machines Induction Machines Introduction Voltage, Flux Linkages, and Torque Equations for Two-Phase Induction Machines: Dynamics in the Machine Variables Mathematical Models of Two-Phase Induction Machines in the Arbitrary, Stationary, Rotor, and Synchronous Reference Frames Voltage, Flux Linkages, and Torque Equations for Three-Phase Induction Machines: Dynamics in the Machine Variables Mathematical Models of Three-Phase Induction Machnies in the Arbitrary, Stationary, Rotor, and Synchronous Reference Frames Power Converters and Control of Induction Machines Synchronous Machines Introduction Synchronous Reluctance Motors Permanent-Magnet Synchronous Machines Conventional Three-Phase Synchronous Machines: Dynamics in the Machine Variables and in the Rotor and Synchronous Reference Frames Stepper Motors Sensors Mechatronic Systems Introduction Mechatronic Systems with Permanent-Magnet DC Motors Analysis and Design of an Electric Drive with Experimental Verification Mechatronic Systems with DC Motors Mechatronic Systems with Induction Motors Mechatronic Systems with Permanent-Magnet Synchronous Motors Digital Control of Mechatronic Systems

Optimal control of nonlinear continuous-time systems: design of bounded controllers via generalized nonquadratic functionals

Abstract: By using the Hamilton-Jacobi framework and sufficiency theory, this paper presents a solution of the constrained optimization problem for nonlinear systems with soft and hard bounds imposed on control. The developed concept is based on the application of a generalized nonquadratic cost, and nonquadratic return functions are applied. Necessary and sufficient conditions have been used to synthesize the bounded controllers, and sufficient conditions are applied to verify the optimality. The constrained optimization problem is solved for nonlinear systems, and the offered results extend the application of the Hamilton-Jacobi theory by using a generalized nonquadratic cost. The design procedure is reviewed in the context of motion control applications. Analytical, numerical, and experimental results are presented for a servo-system actuated by a permanent-magnet DC motor. The designed nonlinear controller is experimentally verified.

Chemistry and properties of nanocrystals of different shapes.

Abstract: The interest in nanoscale materials stems from the fact that new properties are acquired at this length scale and, equally important, that these properties * To whom correspondence should be addressed. Phone, 404-8940292; fax, 404-894-0294; e-mail, mostafa.el-sayed@ chemistry.gatech.edu. † Case Western Reserve UniversitysMillis 2258. ‡ Phone, 216-368-5918; fax, 216-368-3006; e-mail, burda@case.edu. § Georgia Institute of Technology. 1025 Chem. Rev. 2005, 105, 1025−1102

Handbook of Marine Craft Hydrodynamics and Motion Control: Fossen/Handbook of Marine Craft Hydrodynamics and Motion Control

Abstract: The technology of hydrodynamic modeling and marine craft motion control systems has progressed greatly in recent years. This timely survey includes the latest tools for analysis and design of advanced guidance, navigation and control systems and presents new material on underwater vehicles and surface vessels. Each section presents numerous case studies and applications, providing a practical understanding of how model-based motion control systems are designed.

Redox-responsive self-healing materials formed from host–guest polymers

Abstract: Stimulus-responsive hydrogels have previously been developed that display heat-, light-, pH- or redox-induced sol–gel transitions. Nakahata et al. develop a self-healing supramolecular hydrogel based on host–guest polymers in which redox potential can induce a reversible sol–gel phase transition.