S
Suhail Kazi
Researcher at Universiti Teknologi Malaysia
Publications - 37
Citations - 277
Suhail Kazi is an academic researcher from Universiti Teknologi Malaysia. The author has contributed to research in topics: PID controller & Fuzzy logic. The author has an hindex of 9, co-authored 36 publications receiving 237 citations. Previous affiliations of Suhail Kazi include Islamic University.
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Journal Article
Signature-based Multi-Layer Distributed Intrusion Detection System using Mobile Agents
TL;DR: This paper proposes a new model called Signature-based Multi-Layer IDS using mobile agents, which can detect imminent threats with extremely high success rate by dynamically and automatically creating and using small and efficient multiple databases, and at the same time, provide mechanism to update these small signature databases at regular intervals using mobile agent.
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Thermomechanical behavior of bulk NiTi shape-memory-alloy microactuators based on bimorph actuation
TL;DR: A thermomechanical behavior analysis of bimorph SMA structure and studies the effect of varying the SMA layer thickness, the type of stress layer and its thickness, and the processing temperature on the displacement of the microactuator is presented in this paper.
Journal Article
Experimental implementation of smart glove incorporating piezoelectric actuator for hand tremor control
TL;DR: In this paper, the authors examined the effectiveness of a glove specifically designed to compensate human hand tremor by incorporating a type of piezoelectric actuator and found that most tremors are readily suppressed.
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Application of Sayong Ball Clay Membrane Filtration for Ni (II) Removal from Industrial Wastewater
S.F. Mohd Noor,Norhayati Ahmad,M.A. Khattak,M. S. Khan,Anique Mukhtar,Suhail Kazi,Saeed Badshah,Rafiullah Khan +7 more
TL;DR: In this article, a novel technique for wastewater treatment using a Sayong ball clay (SBC) membrane to remove nickel from industrial wastewater was presented, which was achieved through milling using a planetary ball mill (milling time; 10, 20 and 30h).
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Frequency-controlled wireless passive thermopneumatic micromixer
TL;DR: In this article, a thermopneumatic zigzag micromixer achieved by selectively activating two passive wireless heaters enabled by an external radiofrequency magnetic field was investigated.