Assistant Professor

Dr Om Jee Pandey 

Department of Electronics and Communication Engineering

Interests

  1. Wireless Sensor Networks
  2. Internet of Things
  3. Low-Power Wide Area Networks

Education

2008

Uttar Pradesh Technical University, Lucknow
India
B.Tech

2013

Indian Institute of Information Technology and Management, Gwalior
India
M.Tech

2019

Indian Institute of Technology, Kanpur
India
Ph.D.

Experience

  • December 2019- Till Date | Assistant Professor, Electronics and Communication Engineering Department | School of Engineering and Applied Sciences, SRM University-AP, Andhra Pradesh,India
  • June 2019- December 2019 | Post Doctoral Fellow, Department of Electrical and Computer Engineering | University of Saskatchewan, Saskatoon, Canada
  • July 2013- July 2014 | Senior Lecturer, Department of Electronics and Communication Engineering | Jaipur Engineering College and Research Center, Jaipur, Rajasthan, India
  • April 2010- September 2010 | Service Engineer | FANUC India Limited, Bangalore, India
  • July 2008- March 2010 | Assistant Manager | Escorts Limited Faridabad, Haryana, India

Professional Service

  • Active reviewer for various reputed journals such as:
  • IEEE Transactions on Network and Service Management
  • IEEE Transactions of Wireless Communication
  • IEEE Transactions on Vehicular Technology
  • IEEE Transactions on Communications
  • IEEE Internet of Things
  • IEEE Access
  • Elsevier Ad Hoc Networks
  • Elsevier Computer Communications
  • Elsevier Computer Networks
  • IET Wireless Sensor Systems
  • IET Intelligent Transport Systems
  • Springer Wireless Personal Communications

Research Interest

  • General research interests are in the areas of Wireless Sensor Networks (WSNs) and its application in Cyber Physical Systems (CPS), Internet of Things (IoT), and Context-aware Pervasive Systems. Current research topics include Small World Models for Development of Wireless Sensor Network Services in the context of sensor node localization, network lifetime management, time synchronization, low-latency and energy-balanced data transmission, bandwidth efficient network development, and distributed detection and estimation. Additional research interests include Low-Power Wide Area Network (LPWAN), 5G-mm Wave for IoT applications, Visible Light Communication (VLC), and Physical Layer Wireless Communication.
  • Ph.D. Thesis
  • Title: Small World Models for Development of Wireless Sensor Network Services
  • The primary objective of the thesis is developing novel small world models for efficient wireless sensor network services. The specific objective of the thesis is development of small world models for WSN services in the context of sensor node localization, time synchronization, data gathering, and low-latency and energy-balanced data transmission. With this, we have proposed novel small world models for the development of time synchronized, energy efficient, low-latency, and high throughput wireless sensor networks. We have developed a small world wireless sensor network by introducing dual band frequency selective radio links and constraining the average path length and average clustering coefficient in a conventional wireless sensor network. In addition, we have contributed to the state of the art in sensor node localization by developing novel cooperative methods of node localization over a small world wireless sensor network. Subsequently, we have proposed new methods for joint localization and data gathering to improve the energy efficiency of a small world wireless sensor network. Further, the development of low-latency and energy-balanced data transmission schemes over a small world wireless sensor network is proposed.
  • M.Tech. Thesis
  • Title: Outage Analysis of Cooperative Wireless Transmission for Physical Layer Wireless Security
  • In this thesis, the outage performance of Decode-forward (DF), Amplify-forward (AF), and Incremental Amplify-forward (IAF) protocols in cooperative wireless communication is evaluated in terms of outage probability. Additionally, diversity-multiplexing trade-off for all the three protocols has been carried out. In particular, a new outage analysis for AF and IAF protocols has been carried out. Results obtained using this analysis matches with the simulated results. Performance of DF protocol will be better in case of low SNR while performance of AF protocol will be better in case of high SNR while IAF gives further better performance. Effect of an increase in the number of cooperating nodes equipped with a single antenna is described, which indicates that as the number of cooperating nodes increases, outage performance will improve. Performance of Diversity-multiplexing tradeoff also improves continuously as scheme changes from Decode-forward (DF) to Amplifyforward (AF) to Incremental amplify-forward (IAF).

Awards & Fellowships

  • Received excellent performance certificate in University examination by College during B.Tech.
  • Qualified Graduate Aptitude Test in Engineering (GATE) 2011.
  • Received MHRD scholarship from Government of India during M.Tech. (2011 -2013).
  • Second rank holder during M.Tech tenure in Digital Communications.
  • Received MHRD scholarship from Government of India during Ph.D. (2014 -2018).
  • Received COMSNETS student travel grant for presenting the poster work at IEEE 9th International Conference on COMmunication Systems & NETworkS, January 4-8 | Bengaluru, India.
  • PhD thesis work was selected for presentation at the NCC 2019 Graduate Student Day Workshop held at IISc Bangalore.

Memberships

  • IEEE member

List of Publications

In Peer Reviewed International Journals (Published)
  • Om Jee Pandey, Ved Gautam, Saket Jha, Mahendra K. Shukla, and Rajesh M. Hegde, “Time Synchronized Node Localization Using Optimal H-Node Allocation in a Small World WSN.” IEEE Communications Letters, Published, DOI (identifier) 10.1109/LCOMM.2020.3008086, Jul. 2020. Impact Factor = 3.419.
  • Mahendra K. Shukla, Ha H. Nguyen, and Om Jee Pandey, “Multiuser Full-Duplex IoT Networks with Wireless-Powered Relaying: Performance Analysis and Energy Efficiency Optimization.” IEEE Transactions on Green Communications and Networking, Published, DOI (identifier) 10.1109/TGCN.2020.3008409, Jul. 2020.
  • Om Jee Pandey, Ved Gautam, Ha H. Nguyen, Mahendra K. Shukla, and Rajesh M. Hegde, “Fault-Resilient Distributed Detection and Estimation over a SW-WSN Using LCMV Beamforming.” IEEE Transactions on Network and Service Management, Published, DOI (identifier) 10.1109/TNSM.2020.2988994. Impact Factor = 4.682.
  • Mahendra K. Shukla, Ha H. Nguyen, and Om Jee Pandey, Secrecy Outage Analysis of Two-Way Relay Non-Orthogonal Multiple Access Systems, IEEE Access, vol. 8, pp. 39502-39512, Feb. 2020. Impact Factor = 4.091.
  • Om Jee Pandey, and Rajesh M. Hegde, “Low-Latency and Energy-Balanced Data Transmission over Cognitive Small World WSN.” IEEE Transactions on Vehicular Technology, vol. 67, no. 8, pp. 7719-7733, August 2018. Impact Factor = 5.339.
  • Om Jee Pandey, Akshay Mahajan, and Rajesh M. Hegde, “Joint Localization and Data Gathering over a Small-World WSN with Optimal Data MULE Allocation.” IEEE Transactions on Vehicular Technology, vol. 67, no. 7, pp. 6518-6532, July 2018. Impact Factor = 5.339.
  • Om Jee Pandey, and Rajesh M. Hegde, 2017, “Node localization over small world WSNs using constrained average path length reduction.” Elsevier Ad Hoc Networks, 2017, 67, pp. 87-102. Impact Factor = 3.490.
  • Om Jee Pandey, and Rajesh M. Hegde, “Cooperative Localization over Small World WSN using Optimal Allocation of Heterogeneous Nodes.” IET Wireless Sensor Systems, vol. 8, no. 4, pp. 162-169, August 2018. CiteScore = 2.220.
  • Om Jee Pandey, Richika Sharan, and Rajesh M. Hegde, 2017, “Localization in Wireless Sensor Networks Using Visible Light in Non-Line of Sight Conditions.” Springer, Wireless Personal Communications, vol. 97, no. 4, pp. 6519-6539, August 2017. Impact Factor = 0.929.
In Peer Reviewed International/National Conferences (Published)
  • Om Jee Pandey, Naga Srinivasa Rao, Rajesh Hegde, "Optimal Link Scheduling for Low Latency Data Transfer over Small World WSNs", in IEEE 27th National Conference on Communications (NCC), 2021.
  • Shraddha Tripathi, Om Jee Pandey, Rajesh M. Hegde, "Optimal Data Transfer in UAV-Assisted Edge-Networks Using 3D Beamforming", in IEEE 27th National Conference on Communications (NCC), 2021.
  • Om Jee Pandey, Aditya Trivedi, and Mahendra K. Shukla, “Outage performance of decode-forward and amplify-forward protocols in cooperative wireless communication.” In Wireless and Optical Communications Networks (WOCN), Tenth International Conference on, pp. 1-5. IEEE, 2013.
  • Om Jee Pandey, Ashutosh Kumar, and Rajesh M. Hegde, “Localization in wireless sensor networks with cognitive small world characteristics.” In Communication (NCC), 2016 Twenty Second National Conference on, pp. 1-6. IEEE, 2016.
  • Om Jee Pandey, Akshay Mahajan, and Rajesh M. Hegde, “Cooperative localization in small world wireless sensor networks.” In Communication Systems and Networks (COMSNETS), 2017 9th International Conference on, pp. 391-392. IEEE, 2017.
  • Mahendra K. Shukla, Aditya Trivedi, and Om Jee Pandey, “Physical layer authentication for mobile terminals over MIMO fading wiretap channels.” In Advances in Computing, Communications and Informatics (ICACCI), Second International Conference on, pp. 638-642. IEEE, 2013.
  • Abhishek Gupta, Om Jee Pandey, Mahendra K. Shukla, Anjali Dadhich, Samar Mathur, and Anup Ingle, “Computational intelligence based intrusion detection systems for wireless communication and pervasive computing networks.” In Computational Intelligence and Computing Research (ICCIC), 2013 IEEE International Conference on, pp. 1-7. IEEE, 2013.
  • Abhishek Gupta, Om Jee Pandey, Mahendra K. Shukla, Anjali Dadhich, Anup Ingle, and Vishal Ambhore, “Intelligent Perpetual Echo Attack Detection on User Datagram Protocol Port 7 Using Ant Colony Optimization.” In Electronic Systems, Signal Processing and Computing Technologies (ICESC), 2014 International Conference on, pp. 419-424. IEEE, 2014.
  • Abhishek Gupta, Om Jee Pandey, Mahendra K. Shukla, Anjali Dadhich, Anup Ingle, and Pravin Gawande, “Towards context-aware smart mechatronics networks: Integrating swarm intelligence and ambient intelligence.” In Issues and Challenges in Intelligent Computing Techniques (ICICT), 2014 International Conference on, pp. 64-69. IEEE, 2014.
  • B. Pandey, Tanesh Kumar, Teerath Das, Rahul Yadav, and Om Jee Pandey, “Capacitance scaling based energy efficient FIR filter for digital signal processing.” In Optimization, Reliabilty, and Information Technology (ICROIT), 2014 International Conference on, pp. 448-451. IEEE, 2014
  • P. R. Singh, B. Pandey, T. Kumar, T. Das, and Om Jee Pandey, “Output load capacitance based low power implementation of UART on FPGA.” In Computer Communication and Informatics (ICCCI), 2014 International Conference on, pp. 1-4. IEEE, 2014.
Invited Talks
  • Invited as a speaker for the Expert Lecture by Electrical Engineering Department of Rajkiya Engineering College, Ambedkar Nagar for one-week faculty development program (FDP) on “Essentials of Teaching-Learning Process and Research Methodology” during February 04-08, 2019. Expert lecture was titled “An Introduction to LaTeX”.
  • Invited as a guest speaker for the Expert Lecture by Electronics and Communication Engineering Department of SIET, Allahabad dated September 26, 2018 on the topic “Small World Models for Development of Wireless Sensor Network Services”.
  • Invited as a resource person for an Expert Lecture by Electrical Engineering Department of Rajkiya Engineering College, Ambedkar Nagar for one-week short term course (STC) on “Recent Advances in Electrical Engineering” during September 10-14, 2018. Expert lecture was titled “Small World Models for Wireless Sensor Networks”.
  • Invited as a speaker for an Expert Lecture by Electronics and Communication Engineering Department of PSIT College of Engineering, Kanpur for one-week faculty development program (FDP) on “Recent Trends in Wireless and Mobile Communication” during June 04-09, 2018. The talk was titled “Cognitive Small World Models for WSN Services”.

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