Sanjay Bhardwaj
Title 1: Transparent Data-Hiding Scheme for High-Quality Audio File
-Accepted: IEEE International Conference on Consumer Electronics (ICCE)
Title 2: Energy Saving MAC Protocol for UAV assisted data gathering in wireless sensor networks
-Accepted: Conference CoNEXT18
Title 3: Leveraging Dragonfly Scheme for URLLC in Industrial Wireless Network
- Accepted: Conference- International Conference on Intelligent Communication, Control and Devices (ICICCD)-2018
Title 4: 802.11ax: Throughput challenges in Industrial wireless network
-Accepted: KICS Conference (Winter)
Title 5- Latency aware IEEE 802.11ax based URLLC for Industrial wireless networks
-Accepted: KICS summer conference-2019
Title 6: Deep Q-Learning based resource allocation in Industrial wireless network for URLLC.
-Accepted: IET Communications
Title 7: Reliable Fog Computing for Industrial Internet of Things (Co-Author with Sadi)-
-IETE Technical Review-Major Revision
Title 8: Priority Aware Two-Phase MAC Scheduling for URLLC in IEEE 802.11ax based Industrial Wireless Networks
-Rejected: Transaction of Industrial Informatics
-Submitted: Wireless Personal Communications
Title 9: Dragonfly Approach for Resource Scheduling for URLLC in Industrial Wireless Network
-Rejected: Communication Letters
-Rejected; Computer Standard Interface
-Submitted: Physical Communication-major Revision
Title 10: Dragonfly-based Swarm System Model for Node Identification of Ultra-reliable Low-latency Communication
-Rejected: Transaction of Industrial Informatics (TII).
-Rejected: Journal of Communication Networks (JCN).
-Rejected: Swarm and Evolutionary Computation
-Submitted: Neural Computation and application-Minor Revision
Title 11: Deep Q-learning based SCMA for Industrial wireless networks-winter intensive
-Rejected: IET Electronic Letters
-Rejected: International Journal of Ad Hoc and Ubiquitous Computing (IJAHUC)
Target: New Journal
Title 12: Reliability of Distribution Systems in the Smart Grid: Research Challenges and
Opportunities-Co-Author with Asath
Target: IEEE Access
Thesis: Resource Scheduling and Allocation in Industrial Wireless Networks for URLLC
Thesis: Resource Scheduling and Allocation in Industrial Wireless Networks for URLLC
- Literature review and background
-Motivation and Contribution
-System model
Thesis: Resource Scheduling and Allocation in Industrial Wireless Networks for URLLC
- Performance Analysis
-Discussion
Life Bed
Project complete
Further instructions awaited
Learning OMNET and other relevant tools for simulation
1. Submitting at least two journal papers.
2. Acquiring knowledge of NSL lab working tools