Paper 1: "Bio-Inspired Cooperative Localization in Industrial Wireless Sensor Network".
Paper 2: "DA-APSO: A Hybrid Bio-Inspired Algorithm for Localization in Wireless Sensor Network".
Paper 3: "Mobile Node Localization Using PSO with Exploitation of the Worst Particle".
Paper 4: "IoT-based Adaptive Network Mechanism for Reliable Smart Farm System".
Paper 5: "Bio-Inspired Mobile Node Deployment in Industrial Environment"
Paper 6: "Edge Computing Application over FANET"
Paper 1
1. Published.
Paper 2
1. Rejected by IEEE Sensors Journal.
Paper 3
1. Under process for online publication.
Paper 4
1. Under review.
Paper 5
1. Continue simulate how robot move in a straight line and curve line, deciding on using constant or varying speed for robot.
2. Implemented avoidance algorithm such as VFH, VFH+, VFH*
Paper 6
1. Learned simulation tools for edge computing and FANET (NS3, GNS3, CloudSim, EdgeCloudSim, etc.).
Paper 1
1. Published.
Paper 2
1. Edit or change the algorithm entirely.
2. Change the title.
2. Submit to another journal: Wireless Personal Communications (Springer) or International Journal of Distributed Sensor Networks (SAGE) or IEEE Transaction on Industrial Informatics (IEEE).
Paper 3
1. Under process for online publication.
Paper 4
1. Paper is under review.
Paper 5
1. Continue simulate how robot move in a straight line and curve line, deciding on using constant or varying speed for robot.
2. Implement avoidance algorithm such as VFH, VFH+, VFH*
3. Learn about vehicle routing problem, formulating the problem, and program it in MATLAB.
Paper 6
1. Continue to learn simulation tools for edge computing and FANET (NS3, GNS3, CloudSim, EdgeCloudSim, etc.).
Website Update
1. Formatting all conference papers in 2012 into a uniform format.
1. Formatting all conference papers in 2013 into a uniform format.
1. Learn about edge computing simulators.
2. Submit Paper 5 to IEEE Transaction on Industrial Informatics.
1. Submit 2 conference papers.
2. Submit 2 journal papers.