CHALMERS UNIVERSITY OF TECHNOLOGY
Department of Mechanics and Maritime Sciences
Viktor E. BERBYUK
Full Professor, Chair of Mechanical Systems
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Position and Institution
Full Professor, Chair of Mechanical Systems
Division of
Dynamics
Department
of Mechanics and Maritime Sciences
Chalmers
University of Technology
SE - 412 96,
Göteborg, SWEDEN
Office : Hörsalsvägen 7A, 3rd Floor,
Room 3114
Phone : +46-31-7721516, Mobile: +46-73 034 6265
E-mail: viktor.berbyuk@chalmers.se
Skype: veberbyuk
https://www.chalmers.se/en/staff/Pages/viktor-berbyuk.aspx
Academic Degrees
Full Professor (Mechanical
Systems), Chalmers
Full Professor (Mechanics),
Ministry of Education of
Doctor
of Sciences (Physics and Mathematics), M. Lomonosov Moscow State University, 1991
Docent/Senior Research
Fellow (Mechanics),
Ph.D. (Physics and
Mathematics), M. Lomonosov Moscow State University, 1978
M. Sc. (Mechanics), M.
Lomonosov Moscow State University, 1975.
University Education (From/to,
Position, Name of Institution, Department, Division, Subject):
1970-1975, a student, M. Lomonosov Moscow State University, Department of mechanics and mathematics, Division of
theoretical mechanics, Mechanics;
1975-1978, a Ph.D.
student, M. Lomonosov Moscow State University, Department of mechanics and
mathematics, Division of theoretical mechanics, Mechanics.
Research Interest
Basic and applied research
on the controlled multibody systems dynamics, modelling and optimization with
focus on optimal interaction between inherent dynamics and control for
applications to vehicles, machines and mechanisms, their sub-systems and components,
often considering multifunctionality of imbedded smart material-based sensors
and actuators. Multidisciplinary modelling, global sensitivity analysis and
Pareto optimization problems in transport, energy, automation and
bioengineering.
Research
Focus Area
Ø Modelling, dynamics, control and Pareto optimization of engineering
systems:
Multibody
mechanical systems as well as systems with smart structures, in
particular system with magnetorheological, magnetostrictive
or other smart material-based actuators, sensors and controllers for active technology
development.
Ø Transport:
Vibrations and
noise control, adaptive and active suspensions and mounting systems imbedded
into vehicles, machines and mechanisms to enhance safety, comfort and energy efficiency.
Ø Energy:
Energy-optimal
control of dynamical systems, mechanical power transmission systems, wind power
systems, smart material-based power harvesting from vibration for self-powered
sensor clusters, vibration control and condition monitoring systems.
Ø Robotics and Bioengineering:
Parallel robots, locomotion systems, intelligent
prostheses.
Available Master
of Sciences Projects
Evaluation
Committee and Faculty Opponent
Presentations at
the Conferences
Last modified: December
2020 by Viktor Berbyuk