Paper 1: Deep-Block: Blockchain-assisted Secure and Energy Efficient UAV-BS Deployment Using Deep Learning (Target: IEEE Transaction on Vehicular Technology)
Paper 2: Anti-Drone Design Techniques and Technology: Challenges, Oppurtunities, and Future Directions (Target: IEEE Journal on Selected Areas in Communications)
Paper 3: Blockchain Inspired Intruder UAV Localization Using Lightweight CNN for Internet of Battlefield Things (Target: MILCOM 2022 [Submitted])
Paper 4: Lightweight Blockchain Assisted Unauthorized UAV Access Prevention in the Internet of Military Things (Target: ICTC 2022)
Paper 5: Water Quality Analysis Technique Based on Tailored Deep Learning Model for Potable Water (Target: APCC 2022)
Paper 3:
* Still waiting for decision from MILCOM
* Continue the simulation for the update version of the paper
Paper 5:
* Started writing the paper for conference
* Started working on the simulation parameters design and dataset pre-processing
Paper 3:
* Waiting for the decision from MILCOM
* Continue the consensus development task for updating the paper
Paper 5:
* Continue the paper writing process
* Design system model and parameter configuration
* Keep working on the simulation task
Black Ice Detection
Project 1:
* Meet with prof Junghyun Kim to discuss about the project objective
* Had a meeting with thw project member to brainstorm how to achieve the objective
Project 1:
* Start survey about the background of the Black Ice Detection technique
* Have a project meeting with the members and prof Junghyun Kim
* Discuss about the task distribution and project proposal from the company
* Finish working on the extension of APCC paper
* Complete the ICTC paper and submit
* Finish the Intensive paper and submit by the end of this month if ossible
* Get accepted at least two SCI journal and submit as many as possible
* Attend as many competetive international conferences
* Make sure to learn and gain depth knowledge about the anti-drone system