K
Kishore Bingi
Researcher at VIT University
Publications - 73
Citations - 662
Kishore Bingi is an academic researcher from VIT University. The author has contributed to research in topics: PID controller & Computer science. The author has an hindex of 8, co-authored 63 publications receiving 335 citations. Previous affiliations of Kishore Bingi include Universiti Teknologi Petronas & Petronas.
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Fractional-order Systems and PID Controllers: Using Scilab and Curve Fitting Based Approximation Techniques
Kishore Bingi,Rosdiazli Ibrahim,Mohd Noh Karsiti,Sabo Miya Hassan,Vivekananda Rajah Harindran +4 more
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Fractional Order Set-point Weighted PID Controller for pH Neutralization Process Using Accelerated PSO Algorithm
TL;DR: In this article, a fractional order set-point weighted PID controller is designed for pH neutralization process to achieve adequate setpoint tracking and effective load regulation through smooth control action.
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Application of Wireless Technology for Control
TL;DR: The extent to which WirelessHART technology is applied especially for the purpose of control is examined, which shows that it is limited to monitoring and some attempts are being made to apply it for control.
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Solar Energy Harvester for Industrial Wireless Sensor Nodes
Rosdiazli Ibrahim,Tran Duc Chung,Sabo Miya Hassan,Kishore Bingi,Siti Khadijah binti Salahuddin +4 more
TL;DR: Experimental results on the WirelessHART nodes proved that the developed harvester is capable of powering the nodes, and the development of a solar energy harvesting mechanism for WirelessHart sensor node using photovoltaic (PV) cell array is presented.
Journal ArticleDOI
Real-Time Control of Pressure Plant Using 2DOF Fractional-Order PID Controller
Kishore Bingi,Rosdiazli Ibrahim,Mohd Noh Karsiti,Sabo Miya Hassan,Sabo Miya Hassan,Vivekananda Rajah Harindran +5 more
TL;DR: The proposed two-degree-of-freedom fractional-order PID (2DOF–FOPID) controller for real-time control of pressure process in both parallel and series configurations has the advantages of improving set-point tracking and disturbance rejection performance through smoother control action over the conventional PID.