Research 

Major Area

Next-Generation B5G/6G Wireless Communication and Networking

Research Interests

     - Software-defined Networking 

     - Digital Twin Technology for Wireless Communication

     - UAV-based Aerial Network

     - Mobile Edge Computing 

     - Visible Light Communication

     - Campus Area Networking 

     - Internet of Energy

Research Objectives

My primary research interest is in software-defined enabling 6G technologies where I can develop mathematical modeling, computer simulation, and performance optimization by using the Queueing Model, Riemannian Geometry, and Extreme Value Theory. The general goals of my research are to develop SDN-based emerging concepts to obtain meaningful insights into network design principles and fundamental performance tradeoffs for 6G ecosystems. The central question that drives most of my research activities is how to provide resilient, intelligent, and programmable networking platforms for future 6G communication systems. 

Current Research Projects

• SDN-assisted Non-Terrestrial Network

• Emerging 6G-empowered Technologies for Industry 5.0

• SDN-enabled Smart Energy Management for Future Internet of Energy

List of Prepared Work for Submission

[1] Software-defined Emerging Technologies for 6G Wireless Communication Systems: Architecture, Considerations, and Research Directions 

[2] 6G-empowered Technologies for Future Industry 5.0 and Beyond Ecosystems

[3] SDN and SDR Integrated Wireless Power Transfer: Current Trends, Challenges, and Future Directions 

[4] Towards SDN-enabled 6G Non-Terrestrial Networks: Architecture, Enabling Technologies, and Research Directions 

[5] AI-empowered Radio Resource Management for Non-Terrestrial Networks 

[6] SDN/NFV-integrated 6G Network Architecture: A Comprehensive Overview

[7] AI-empowered Positioning and Sensing Mechanism for Software-defined Visible Light Communications 

[8] SDN/NFV-based Ultra-dense Heterogenous Network Architecture for Future 6G Communication Systems