Emmanuel has research interests in vibrations and control of dynamic systems, numerical algorithms for systems with parametric uncertainties, parameter estimation, vehicle dynamics and signal processing. I intend to use my background in controls and numerical methods to advance the following areas, micro-nano intelligent systems, including Micro and Nano ElectroMechanical Systems (MEMS and NEMS), artificial muscles, energy harvesting, nonlinearities due to miniaturization and bio-inspired robotics.
Journal Articles
Non-dimensionalized Closed-form Parametric Analysis of Semiactive Vehicle Suspensions using a Quarter-car Model (with Mehdi Ahmadian), Faculty of Engineering - Papers (2011)
This article provides a non-dimensionalised closed-form analysis of semi-active vehicle suspensions, using a quarter-car model....
A polynomial chaos-based kalman filter approach for parameter estimation of mechanical systems (with Corina Sandu and Adrian Sandu), Faculty of Engineering - Papers (2010)
Mechanical systems operate under parametric and external excitation uncertainties. The polynomial chaos approach has been...
Polynomial chaos-based parameter estimation methods applied to a vehicle system (with Adrian Sandu and Corina Sandu), Faculty of Engineering - Papers (2010)
Parameter estimation for large systems is a difficult problem, and the solution approaches are computationally...
Parameter estimation for mechanical systems via an explicit representation of uncertainty (with Adrian Sandu and Corina Sandu), Faculty of Engineering - Papers (2009)
Purpose – The purpose of this paper is to propose a new computational approach for...
Ride performance analysis of half-car model for semi-active system using RMS as performance criteria (with Sany Ihsan, Mehdi Ahmadian, and Waleed Faris), Faculty of Engineering - Papers (2009)
The work aims to study the root mean square (RMS) responses to acceleration input for...