Paper 1: "Bio-Inspired Cooperative Localization in Industrial Wireless Sensor Network".
Paper 2: "Node Localization Based on Wild Goats Algorithm for Industrial 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: "Edge Computing Based Robot Deployment for Pickup and Delivery in Industrial Factory"
Paper 6: "Edge Computing Application over FANET"
Paper 1
1. Published.
Paper 2
1. Continue coding new bioinspired algorithm, combining previous algorithm with parts of Cuckoo Search Algorithm and Wild Goats Algorithm.
2. Decided to submit to 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 implementing avoidance algorithm such as VFH, VFH+, VFH*.
2. Learned about vehicle routing problem, formulating the problem, and program it in MATLAB.
3. Start combining robot movement with occupancy map.
4. Finish the Problem Formulation and Proposed System Section.
Paper 6
1. Continue learning simulation tools for edge computing and FANET (NS3, GNS3, CloudSim, EdgeCloudSim, etc.).
Paper 1
1. Published.
Paper 2
1.Plot the results in figures.
2. Submit to IEEE Transaction on Industrial Informatics.
Paper 3
1. Under process for online publication.
Paper 4
1. Paper is under review.
Paper 5
1. Code Wild Goats Algorithm for Dial-a-Ride Problem (DARP).
2. Try also other metaheuristic algorithm for solving DARP.
Paper 6
1. Continue learning simulation tools for edge computing and FANET (NS3, GNS3, CloudSim, EdgeCloudSim, etc.).
Website Update
1. Formatting some conference papers in 2014 into a uniform format.
1. Continue formatting some conference papers in 2014 into a uniform format.
1. Resubmit Paper 2 to IEEE Transaction on Industrial Informatics.
2. Submit Paper 5 to IEEE Transaction on Industrial Informatics.
1. Submit 2 conference papers.
2. Submit 2 journal papers.