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S. O. R. Moheimani

S. O. R. Moheimani

University of Newcastle Australia
Australia

Overview

What is he best known for?

The fields of study he is best known for:

Electrical engineering
Control theory
Artificial intelligence

S. O. R. Moheimani mainly investigates Control theory, Piezoelectricity, Nova, Piezoelectric tube and Microscope. His work on Nonlinear system, Feed forward, Robustification and Tracking error as part of general Control theory research is often related to Standard deviation, thus linking different fields of science. In his research, Actuator is intimately related to Control system, which falls under the overarching field of Nonlinear system.

The concepts of his Feed forward study are interwoven with issues in Vibration and Piezoelectric sensor. S. O. R. Moheimani integrates Piezoelectricity with Polynomial in his study. His Microscope research focuses on subjects like Raster scan, which are linked to Bandwidth, Scanner and Nanotechnology.

His most cited work include:

Minimizing Scanning Errors in Piezoelectric Stack-Actuated Nanopositioning Platforms (128 citations)
A grounded-load charge amplifier for reducing hysteresis in piezoelectric tube scanners (119 citations)
High-speed cycloid-scan atomic force microscopy (104 citations)

What are the main themes of his work throughout his whole career to date?

Control theory, Electronic engineering, Piezoelectricity, Acoustics and Vibration are his primary areas of study. His Control theory research includes elements of Vibration control and Bandwidth. His Electronic engineering research incorporates elements of Noise and Microelectromechanical systems.

The study incorporates disciplines such as Electrical impedance, Shunt, Integrator and Damper in addition to Piezoelectricity. His Acoustics research is multidisciplinary, relying on both Control engineering and Amplitude. His study focuses on the intersection of Vibration and fields such as Transducer with connections in the field of Ultrasonic sensor.

He most often published in these fields:

Control theory (37.80%)
Electronic engineering (25.61%)
Piezoelectricity (24.39%)

What were the highlights of his more recent work (between 2014-2016)?

Acoustics (21.95%)
Electronic engineering (25.61%)
Microelectromechanical systems (21.95%)

In recent papers he was focusing on the following fields of study:

S. O. R. Moheimani mainly focuses on Acoustics, Electronic engineering, Microelectromechanical systems, Displacement and Sensitivity. His Acoustics study combines topics in areas such as Mechanical system and Active control. His Mechanical system research includes elements of Characterization, Stiffness and Nonlinear system.

His Active control research is multidisciplinary, incorporating elements of Actuator and Bandwidth. Among his Sensitivity studies, you can observe a synthesis of other disciplines of science such as Multiple sensors and Atmospheric temperature range. Position sensor is intertwined with Step response, Control theory, Control engineering, Time constant and Dynamic range in his study.

Between 2014 and 2016, his most popular works were:

Feedback-Controlled MEMS Force Sensor for Characterization of Microcantilevers (16 citations)
Parallel averaging for thermal noise mitigation in MEMS electrothermal displacement sensors (5 citations)
Control Issues of MEMS Nanopositioning Devices (0 citations)

This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.

Best Publications

A Survey of Control Issues in Nanopositioning

S. Devasia;E. Eleftheriou;S.O.R. Moheimani.
IEEE Transactions on Control Systems and Technology (2007)

1163 Citations

Invited review article: high-speed flexure-guided nanopositioning: mechanical design and control issues.

Y. K. Yong;S. O. R. Moheimani;B. J. Kenton;K. K. Leang.
Review of Scientific Instruments (2012)

440 Citations

Optimal quadratic guaranteed cost control of a class of uncertain time-delay systems

S.O.R. Moheimani;I.R. Petersen.
conference on decision and control (1995)

435 Citations

A survey of recent innovations in vibration damping and control using shunted piezoelectric transducers

S.O.R. Moheimani.
IEEE Transactions on Control Systems and Technology (2003)

402 Citations

A broadband controller for shunt piezoelectric damping of structural vibration

S Behrens;A J Fleming;S O R Moheimani.
Smart Materials and Structures (2003)

262 Citations

Sensorless vibration suppression and scan compensation for piezoelectric tube nanopositioners

A.J. Fleming;S.O.R. Moheimani.
IEEE Transactions on Control Systems and Technology (2006)

209 Citations

Multiple mode current flowing passive piezoelectric shunt controller

S Behrens;S.O.R Moheimani;A.J Fleming.
Journal of Sound and Vibration (2003)

196 Citations

Synthetic impedance for implementation of piezoelectric shunt-damping circuits

A.J. Fleming;S. Behrens;S.O.R. Moheimani.
Electronics Letters (2000)

193 Citations

High-Performance Control of Piezoelectric Tube Scanners

B.. Bhikkaji;M.. Ratnam;A.J. Fleming;S.O.R. Moheimani.
IEEE Transactions on Control Systems and Technology (2007)

192 Citations

Minimizing Scanning Errors in Piezoelectric Stack-Actuated Nanopositioning Platforms

S.S. Aphale;B. Bhikkaji;S.O.R. Moheimani.
IEEE Transactions on Nanotechnology (2008)

163 Citations

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Frequent Co-Authors

External Links

Personal Website for S. O. R. Moheimani