Projects per year
Personal profile
Research Interests
Advanced dynamics and automatic control, acoustics and vibration, noise and vibration control, energy harvesting, machine condition monitoring, structural health monitoring, smart composites.
Personal profile
Expertise summary
Dr Dunant Halim is an Associate Professor in Mechanical Engineering at University of Nottingham Ningbo China. He obtained his PhD from University of Newcastle Australia and for over 2 decades, he has worked extensively on various projects related to advanced dynamical systems (acoustics and vibration), intelligent sensing and control at a number of international institutions: Royal Melbourne Institute of Technology – Australia; Acoustics, Vibration and Control Group - University of Adelaide; Australian Research Council - Centre of Excellence in Autonomous Systems: Australian Centre for Field Robotics - University of Sydney; Department of Mechanical Engineering - Hong Kong Polytechnic University and University of Nottingham Ningbo China.
Dr Halim has co-authored a book that introduced a novel optimal spatial control for regulating structural vibration: “Spatial Control of Vibration: Theory and Experiments”. To date, he has published more than 110 publications, including 2 book chapters in structural vibration control and flow control, and more than 55 refereed international conference and journal publications.
Teaching
Undergraduate
MMME1039 Statics and Dynamics
MMME2014 Dynamics and Control
MMME3040 Advanced Dynamics and Vibration
MMME3023 BEng Individual Project (as Project Supervisor)
Postgraduate
Supervisor of MRes and PhD Candidates
Person Types
- Staff
Fingerprint
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Research on Active Vibration Suppression of Rotating Structures using Disturbance-Estimation-Based Control
Halim, D. (PI), Mareta, S. (CoI), Ran, L. (CoI), Xu, J. (CoI), Huang, L. (CoI) & Lin, T. (CoI)
1/09/22 → 31/08/25
Project: Government Funded Projects › Vertical-Ningbo Municipal Government Funded Projects
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Study on dual structural vibration and acoustic control using the coupled Helmholtz resonator and membrane-type metamaterial
Halim, D. (PI)
1/11/20 → 31/10/23
Project: Government Funded Projects › Vertical-Ningbo Municipal Government Funded Projects
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Research on active structural vibration control using a compliant actuation mechanism with the passive vibration energy absorption property
Halim, D. (PI)
1/10/16 → 30/09/18
Project: Government Funded Projects › Vertical-Ningbo Municipal Government Funded Projects
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A compound microperforated panel backed by a panel-type resonator with a Helmholtz neck and multi-frequency resonators to improve bandwidth and low frequency sound absorption
Yeang, W. Y., Halim, D., Yi, X. & Chen, H., 15 May 2024, In: Applied Acoustics. 221, 110030.Research output: Journal Publication › Article › peer-review
Open Access -
A semi-active quasi-zero-stiffness vibration isolation system through controllable lateral spring stiffness
Ran, L., Wang, J., Halim, D., Shi, B. & Huang, L., 29 May 2024, In: Nonlinear Dynamics. 112, 16, p. 13751-13770 20 p.Research output: Journal Publication › Article › peer-review
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Lateral vibration attenuation of a rotor system using an axial control mechanism with resonance detuning
Ran, L., Halim, D., Thein, C. K. & Galea, M., 1 Apr 2024, In: Mechanical Systems and Signal Processing. 211, 111220.Research output: Journal Publication › Article › peer-review
Open Access1 Citation (Scopus) -
Near resonance vibration isolation on a levered-dual response (LEDAR) Coulomb-damped system by differential preloads/offsets in linear springs
Toluwaloju, T. I., Thein, C. K. & Halim, D., Jun 2024, In: Applied Mathematics and Mechanics (English Edition). 45, 6, p. 1033-1050 18 p.Research output: Journal Publication › Article › peer-review
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On improving low-frequency sound absorption using a compound microperforated panel backed by a panel-type resonator with tuned multi-frequency resonators
Yeang, W. Y., Halim, D., Yi, X. & Chen, H., 3 Feb 2024, In: Journal of Sound and Vibration. 570, 118134.Research output: Journal Publication › Article › peer-review
Open Access4 Citations (Scopus)