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About: Headliner

APPOINTMENTS

2002-Present  Rochester Institute of Technology  

  • Department of Electrical and Microelectronic Engineering

  • Professor of Electrical Engineering

2004-Present  US Air Force Research Laboratories

  • Full Professor Summer Faculty Fellow â€‹

2012-2013  Fulbright Scholar

  • Professor of Electrical and Computer Engineering

1999-2006  US Naval Undersea Center, and, Naval Surface Warfare Center (Newport, RI and Dahlgren, VA)

  • Senior Summer Faculty Fellow

1993-2002  Purdue University, Indianapolis

  • Department of Electrical and Computer Engineering

  • Associate Professor of Electrical and Computer Engineering

1989-1992  Academy of Sciences of Ukraine

  • ​Institute of Electrical Engineering and Applied Sciences

  • Microelectronic and Electromechanical Systems Division Head

1982-1989  National Technical University - Kiev Polytechnic Institute

  • Department of Electrical Engineering

  • Electrical Engineering Faculty 

1980-1982  National Technical University - Kiev Polytechnic Institute

  • Department of Electrical Engineering

  • Research Assistant, PhD Student

Petri Dish
About: About

EDUCATION

1987 Ph.D. Electrical Engineering, National Technical University - Kiev Polytechnic Institute

​

1980 M.S. Electrical Engineering, National Technical University - Kiev Polytechnic Institute

About: About

RESEARCH AND DEVELOPMENT

Fundamental, Applied, and Experimental Research

LARGE-SCALE DYNAMIC SYSTEMS AND CYBER-PHYSICAL SYSTEMS

  • Microsystems and MEMS for integrated sensing, processing, networking and control of physical systems

  • Technology developments, transfer and implementation of findings in advanced technology aerial, ground, surface and underwater vehicles, robots and energy systems

  • Descriptive, predictive, and prescriptive big data analytics for cyber-physical systems and core components

  • Multi-dimensional data fusion, processing, learning, cognition, and control

  • Systems design of large-scale cyber-physical systems

  • Enabled hardware - software platforms for big data driven high-confidence cyber-physical systems

INTEGRATED MICROELECTROMECHANICAL SYSTEMS

  • Design, analysis and characterization of microsystems and microdevices

  • Integrated microelectromechanical systems, sensors and transducers for aerial, energy and robotic systems

  • MEMS-technology multi-degree-of-freedom inertial measurement units and navigation systems

MECHATRONICS: ELECTROMECHANICS, ELECTRONICS AND CONTROL

  • Design, analysis and deployment of integrated electromechanical and mechatronic systems

  • Advanced-technology electromechanical motion devices and actuators

  • High-performance electromechanical systems for aerospace, automotive, energy, and naval systems

  • Implementation, technology transfer, and deployment

About: Publications

DIRECTION
SCHOLARSHIP
ACCOMPLISHMENTS

About: Events
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DIRECTION:
TRANSFORMATIVE RESEARCH AND HIGH-IMPACT TECHNOLOGIES


  • Integrated micro and processing technologies enabling processing, sensing, and control of physical systems

  • Information management of artificial intelligence and machine learning in industrial, security, and defense platforms

  • Intelligent automation and control

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SCHOLARSHIP:
DEVELOPMENT, ADVANCEMENTS AND IMPLEMENTATION OF CONTROL, SENSING, PROCESSING AND INFORMATION TECHNOLOGIES

In complex physical systems and CPS, the designed and fabricated integrated microsystems enable sensing, processing and networking. Multi-sensing is accomplished by multi-degree-of-freedom solid-state opto-electronic, inertial and photonic sensors. Various biophysical, chemo-physical and physical quantities (acceleration, velocity, position, magnetic field, temperature, irradiation and others) are measured and processed. Accuracy, precision, robustness, data quality, data integrity, data conformity and data validity are ensured. Advanced actuators and transducers with matching electronics are used. Enabled functionalities, performance and capabilities are ensured by designed control and management systems. The key benefits are:

  1. Affordable, cost-effective and practical solutions;

  2. Safety, reliability and robustness;

  3. Enabled functionality, performance and capabilities;

  4. Application of control and MEMS technologies in complex electromechanical, electronic, and cyber-physical systems;

  5. Compliance, adaptiveness, scalability and modularity;

  6. Sufficient technology readiness level for technology transfer and commercialization.

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ACCOMPLISHMENTS:
PROVEN HIGH-IMPACT TECHNOLOGIES IN SENSING, PROCESSING AND CONTROL

  • Derived and substantiated approaches in design of intelligent control, communications, and information processing systems

  • Designed control and management systems for unmanned, autonomous and semi-autonomous aerial, ground and underwater vehicles

  • Designed sensing, interfacing, data fusion and processing software and hardware

  • Designed actuators, sensors, and smart transducers using MEMS technologies

  • Designed, substantiated and implemented high-performance electromechanical systems in aerospace, automotive, energy and naval applications

  • Designed self-sustainable systems with energy harvesting, energy storage, and energy management modules

  • Substantiated, implemented and deployed solutions, platforms and technologies

  • Descriptive, predictive, and prescriptive analytics and analyses

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