S
Sumeet S. Aphale
Researcher at University of Aberdeen
Publications - 99
Citations - 2068
Sumeet S. Aphale is an academic researcher from University of Aberdeen. The author has contributed to research in topics: Control theory & Computer science. The author has an hindex of 16, co-authored 85 publications receiving 1741 citations. Previous affiliations of Sumeet S. Aphale include Newcastle University & University of Newcastle.
Papers
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A mathematical approach to Integral Resonant Control of second-order systems
TL;DR: In this paper, the relationship between the feed-through term, integral gain, and achievable damping is derived analytically for undamped/lightly damped second-order systems.
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Correction to "Minimizing Scanning Errors in Piezoelectric Stack-Actuated Nanopositioning Platforms" [Jan 08 79-90]
TL;DR: In this paper, the figures appearing in the published version do not have the intended axis labels, and the correct labels are provided here in the corrected version of the article. But the authors did not specify the axis labels.
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A Surface Plasmon Resonance Bio-Sensor Based on Dual Core D-Shaped Photonic Crystal Fibre Embedded With Silver Nanowires for Multisensing
Suoda Chu,Kaliyaperumal Nakkeeran,Abdosllam M. Abobaker,Sumeet S. Aphale,S. Sivabalan,P. Ramesh Babu,K. Senthilnathan +6 more
TL;DR: In this paper, a surface plasmon resonance refractive index based biosensor was proposed by using a dual core D-shaped sixfold photonic crystal fiber which is embedded with silver nanowires for multi-detection.
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Simultaneous Optimization of Damping and Tracking Controller Parameters Via Selective Pole Placement for Enhanced Positioning Bandwidth of Nanopositioners
TL;DR: In this article, positive velocity and position feedback (PVPF) is used to achieve full damping of the first resonant mode whilst also achieving bandwidth greater than the natural frequency of the plant.
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Optimal integral force feedback and structured PI tracking control: Application for objective lens positioner
TL;DR: In this paper, a new vibration damping technique based on Integral Force Feedback (IFF) is described. But the proposed technique allows an arbitrary damping ratio to be achieved by introducing an additional feed-through term to the control system, which results in an extra degree of freedom that allows the position of the zeros to be modified and the maximum modal damping to be increased.