@rntu.ac.in
Associate Professor in Department of Electrical & Electronics Engineering
Rabindranath Tagore University, Bhopal, Madhya Pradesh, India
Working as an Associate Professor of Electrical & Electronics Engineering Department in
Rabindranath Tagore University, Bhopal. (From 01/Feb/2021 to Till Date)
Worked as an Associate Professor of Electrical & Electronics Engineering Department in Bansal
College of Engineering, Mandideep. (From 21/Sept/2015 to 12/Nov/2020)
Worked as an Assistant Professor of Electrical & Electronics Engineering Department in Sarvepalli
Radhakrishnan University, Bhopal. (From 07/July/2012 to 17/Sept/2015)
Worked as an Assistant Professor of Electronics & Communication Department in Shri Balaji
Institute of Technology & Management, Betul. (From 01/Sept/2011 to 27/May/2012)
Worked as an Assistant Professor of Electrical Engineering Department in Sparta Institute of
Technology & Management, Bhopal. (From 02/Aug/2010 to 16/Aug/2011)
I did my Doctor of Philosophy ( from Department of Electrical & Electronics Engineering, Rabindranath Tagore University, Bhopal, Madhya Pradesh, India in year 2020 with the specialization in Renewable Energy.
In 2010, I obtained Master of Technology (M.Tech.) in Instrumentation Engineering from Department of Electrical Engineering, IIT Kharagpur.
My Bachelor of Engineering (B.E.) degree in Electrical & Electronics Engineering from Rajiv Gandhi Technical University, Madhya Pradesh, India in year 2007.
Renewable Energy, Measurement & Instrumentation, Power System, Wireless Communication
Scopus Publications
Scholar Citations
Scholar h-index
Scholar i10-index
B. Anjanee Kumar, Aruna M, R. Venkatesh, Jarabala Ranga, Prateek Nigam, and Rajendra Kumar Patel
IEEE
This research study proposes a novel three-speed AC motor drive that uses three phases. By connecting four regular 2-level VSIs in series, similar voltage and current analysis might provide more power to the open-end windings of a double 3-stage engine (lopsided six-stage machine). While implementing the proposed control model, the power supplied to the engine will be divided among the four DC sources at each exchanging step, resulting in voltage waveforms with several peaks, similar to those produced by a three-level inverter. The simulation data required to verify the validity of the proposed AC motor drive has also been provided.
K. Thakre, K. Mohanty, V. Kommukuri, A. Chatterjee, Prateek Nigam and Sanjeev Kumar Gupta
Pooja Nitesh Jaiswal, Kishor Thakre, and Prateek Nigam
IEEE
In competitive power market environment, Power Quality (PQ) is utmost important. Any deviation in the standard PQ of supply leads to the system instability as well as system suffers from economic loss. To mitigate the PQ problem in Distribution System (DS) various high-power devices are installed. In this context DSTATCOM, DVR and UPQC are widely adopted PQ conditioner dedicatedly designed to enhance PQ in DS. This work presents the comparative analysis of these devices in terms of harmonic reduction and voltage regulation when the DS suffers the condition of voltage sag. Voltage sag is a frequent type of PQ problem which occurs due to the fault in system. Fault is a commonly occurring phenomenon in DS which is characterized by dip in voltage and high increase in current. If it is not cleared it causes severe threat to the system and can also damage the connected devices and equipments. This paper addresses the issues related to fault and the power conditioner mentioned above helps to retain the stability as well as PQ of the supply.
Raghvendra Pratap Singh, Prateek Nigam, and Kishor Thakre
IEEE
This paper presents a modified structure for symmetrical multilevel converter. The proposed multilevel inverter composed of basic module which are connected in cascaded along with six switches. The proposed multilevel inverter offers high number of voltage level with less number switches as compared to other multilevel inverter. The proposed multilevel inverter is investigated through simulation results.
Jonnalagadda Pavan, Prateek Nigam, and Subhransu Padhee
IEEE
This paper provides small-signal system level modelling of grid-integrated photovoltaic system. The said system comprises of two staged power electronic interface (DC-DC boost converter and DC-AC inverter). Small-signal modelling and relevant feedback control scheme has been discussed in this paper. For simulation purposes, a 100-kW grid-integrated PV system has been considered and performance of the said system at different case studies has been evaluated.
Bikash Chandra Saha, Anurag Shrivastava, Sanjiv Kumar Jain, Prateek Nigam, and S Hemavathi
Elsevier BV
Prateek Nigam, Karabi Biswas, Sudesh Gupta, Yogeshver Khandagre, and Ashutosh K. Dubey
IEEE
Simultaneous capture of the texture and shape of a moving object in real time is expected to be applicable to various fields including virtual reality and object recognition. There are several difficulties must be overcome to develop a sensor able to achieve this feature: fast capturing of shape and the simultaneous capture of texture and shape. This paper presents a new type of neural network base fusion system infrared sensor, which is compatible to standard process. The proposed infrared sensor adopts a suspended n-well containing several p+/n-well diodes as infrared sensing element. The thermal analysis indicates that the sensor exhibits excellent steady-state and transient thermal property. In order to predigest the calculation, the measurement data are to be classified and selected. The fuzzy neuron network information fusion based on the T-S model is used to avoid obstacle for the mobile robot, which fully utilized the information coming from the sensors. Finally, the experiment with the autonomous robot proved that the method is really feasible and efficient.