Title 1:
Traffic Light Scheduling Scheme for Real-time VANET (KICS Summer)
Title 2:
Enhanced Faulty Node Detection using Interval Weighting Factor for Distributed System (IEEE Communication Magazine)
Title 3:
Load Balancing of traffic light-based fog node (ETFA)
Title 1:
Added system configuration.
Added one reference related with the real-time VANET for traffic light scheduling scheme.
Set up for the simulation tools.
Title 2:
Revise the system model.
Correct contains of this paper regarding the system model.
Check and correct more typo and harmony of this paper.
Title 3:
Understanding the related paper of load balancing of fog computing
Title 1:
Trying the simulation of proposed scheme.
Add some references.
Title 2:
Check and revised the result of plagiarism to reduce the plagiarism.
Check and correct figures, reliability, introduction.
Title 3:
Add the illustration of load balancing in fog computing and more understand with load balancing.
Project 1: Development of UAV routing protocol for civil and military (Capstone design class) Project 2: Xeline Control Protocol, Project 3: Management website
project 1:
Fixing the system model then determine the job desk and time schedule.
Understand how to make routing code and simulate it using NS3.
project 2:
find the specific condition for using XCP protocol and how to route the XCP protocol.
Make a summary about network variable specification, the way of binding nodes.
project 3:
Try to use MobaXterm.
project 1:
Modify OLSR routing protocol code using 1 node base station, 2 nodes UAV, and 2 nodes ground station.
Try to obtain one figure (end to end delay between node) based on the system configuration.
project 2:
Try to analyze the XCP network builder that related to the management tools in XCP protocol.
project 3:
Try to use MobaXterm.
Learn java platform and other related tools for fog computing.
-Able to write at least one in domestic conference.
-Able to write at least one in international conference and journal