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 WSN, (Target- KICS Winter Conference)
Paper 1:
* Worked on the simulation of energy outage ratio comparison of proposed and existing solution
* Wrote down the paper and fine-tune to check the errors
Paper 3:
* Submitted to the IEEE Geoscience and Remote sensing letters
Paper 4:
* Surveyed papers based on prediction based energy harvesting approach in WSN
* Worked on the simulation for prediction accuracy
* Started writing the paper
Paper 4:
* Complete the simulation work for prediction accuracy
* Finish writing the paper and submit to the conference
Paper 1:
* Finish the simulation of energy outage probability ratio
* Start another simulation regarding energy allocation to ground nodes
Development of UAV routing protocol for civil and military, Anti-Drone project
Project 1:
* Install the OPNET simulator and fixed the error of installing
* Worked on the raspberry-pi for the implementation OLSR
Project 2:
* Labelled the image to create the dataset
* Started learning how to work for object detection on YOLO v3
Project 1:
* Start learning how to simulate in OPNET
* Try to complete the raspberry-pi set-up for indoor implementation
Project 2:
* Capture a new video of parrot bebop for the dataset creation
* Continue learning the object detection in YOLO v3
1. Submit the paper to KICS winter conference
2. Enhance the idea of my Thesis and start working on the Journal based on it.
* Submit at least one Journal
* At least 1 International Conference papers (Completed)
* Make sure to learn as many simulation tools as possible