Paper 1: UAV-assisted Solar Energy Distribution Technique Based on Partial Brownian Movement for the Internet of Things (Target: JCN).
Paper 2: Development of Routing Protocol in UAV Network for Military Environment, [Winter Intensive] (Target: ICT Express)
Paper 3: LSTM Based Solar Irradiance Prediction From Remote Sensing of Meteorological Data, (Target: IEEE Geoscience and Remote Sensing Letters)
Paper 4: A Machine Learning-based Energy Prediction Scheme for Energy-Harvesting Base Station, (Target- KICS Winter Conference)
Paper 5: Accuracy Improvement of Solar Energy Prediction for Energy Harvesting WSN using Hybrid Deep Learning Technique (Winter Intensive) (Target: ICT Express or Renewable Energy (Elsevier)
Paper 5:
* Worked on the dataset pre-processing for energy prediction
* Started the simulation of solar energy prediction
Paper 5:
* Continue the dataset pre-processing task
* Continue the simulation process of solar energy prediction accuracy improvement
Paper 4:
* Survey paper related to drone base station energy prediction
Paper 2:
* Survey paper related to implementation of OLSR routing in outdoor environment
Development of UAV routing protocol for civil and military, Anti-Drone project
Project 1:
* Continue working on OLST simulation in OPNET (fixed some errors)
Project 2:
* Worked on object detection in YOLO v3
Project 1:
* Continue the OLSR simulation in OPNET
* Survey paper regarding OLSR implementation in outdoor environment
Project 2:
* Capture a video for dataset creation
* Work on dataset labelling from the video
1. Start working on the extension of KICS paper for journal version
2. Finish the simulation work for my winter intensive paper
* Submit at least two Journal in one year
* Attend one International Conference
* Make sure to learn as many simulation tools as possible