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:
* Finish the dataset pre-processing task for energy prediction
* Continued the simulation of energy prediction
Paper 4:
* Surveyed papers related to drone base station energy prediction
Paper 5:
* Continue the simulation of energy prediction
* Continue writing the paper for final copy to journal submission
Paper 4:
* Survey more paper related to the drone base station energy prediction
* Start working on collecting dataset for the simulation
Development of UAV routing protocol for civil and military, Anti-drone project
Project 1:
* Fixed the errors on OLSR routing simulation in OPNET
* Surveyed paper related to the OLSR implementation in outdoor environment
Project 2:
* Labelled 300 frames for the Drone dataset
Project 1:
* Continue the simulation of OLSR routing in OPNET
* Start working on the outdoor implementation of OLSR routing using raspberry-pi
Project 2:
* Continue labelling another 300 frames for the Drone dataset
* Capture a new video using Phantom 3SE for the Drone dataset
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