Title 9: Smart Monitoring for SLA-type 3D Printer using Temporal Convolutional Network
(Tentative Title, Winter Intensive 2020)
Title 7: UAV-Assisted Uplink Communication using Dragonfly Optimization Algorithm for URLLC in Military Operations
- Target Journal: IEEE Communication Letters
Title 1: Secure Ground Control Station-based Routing Protocol of UAV Network
- Accepted in ICTC 2019
Title 2: Monarch Butterfly Optimization on DV based Positioning in Indoor Industrial Environment
- Accepted in KICS Fall 2019
Title 5: Hardware-in-the-Loop 3D Printer Oxygen Agent Monitoring Program using LabView
- Journal Publication (3D Project Journal Paper)
Title 3: Efficient UAV Deployment Strategy for Energy-Efficient Routing Protocol using Monarch Butterfly Optimization Algorithm
- Target Journal: IET Communications Journal
Title 4: Enhancing Localization Accuracy in Indoor Industrial Environment using Metaheuristic Algorithm
- ICTC 2020
Title 6: Smart Monitoring for SLA-type 3D Printer using Artificial Neural Network
- KICS SUMMER 2020
Title 8: Hybrid Deep Neural Network for Malicious DNS Infiltration Detection System
- As the second author
- Submitted in WCNC
Title 7: UAV-Assisted Uplink Communication using Dragonfly Optimization Algorithm for URLLC in Military Operations
- Finish the Introduction and Related Works
Title 9: Smart Monitoring for SLA-type 3D Printer using Temporal Convolutional Networks
- Gathering Data set for the experiment
- Label the dataset, but we are having a problem doing it because of the lack of benchmark researches about the type of printer that we are using.
Title 7: UAV-Assisted Uplink Communication using Dragonfly Optimization Algorithm for URLLC in Military Operations
- Explain the simulation results
- Add tables to present the results
Title 9: Smart Monitoring for SLA-type 3D Printer using Temporal Convolutional Network
- Start with system model and introduction
3D Printing
- Create a dataset that consist of 4 analog sensors
- Create a google account for the 3D Project to manage the files related to the project. Store the previous and updated versions of the progress we have made as a team.
- Upload the data set in goodle drive
This week
- Since the dataset has been gathered and the setup is currently working, I will proceed to place the circuit in an universal pcb board to achieve the set-up
- Start the Winter intensive paper
- Finish Summer Intensive paper -80%
- Finish the 3D Project - 20%
- Write two SCI journals
- Submit a paper on
(1) International - 100%
(1) Domestic conference paper - 100%
(1) SCI Journal - 80%
(1) SCI Journal - 10%
- Finish the 3D project - Back to 20%