Supaporn Suwannarongsri

Work place: Rattanakosin College for Sustainable Energy and Environment (RCSEE), Rajamangala University of Technology Rattanakosin, Nakhon Pathom, Thailand

E-mail: suwannarongsri@hotmail.com

Website:

Research Interests: Computational Engineering, Planning and Scheduling, Computer Architecture and Organization, Real-Time Computing, Engineering

Biography

Supaporn Suwannarongsri (1983 -), female, Bangkok, Thailand, Assistant Professor, Ph.D. candidate, she received the B.Eng. degree in Industrial Engineering from Thonburi University (TRU), Bangkok, Thailand, in 2004 and the M.Eng. degree in Industrial Engineering from King Mongkut's Institute of Technology Ladkrabang (KMITL), Bangkok, Thailand, in 2008, respectively.
Since 2006, she has been with the Department of Industrial Engineering, Faculty of Engineering, South-East Asia University (SAU), Bangkok, Thailand, where she is currently an Assistant Professor of Industrial Engineering. She has published over 40 refereed journal and conference papers in the areas of operation research, production planning and mehaheuristic optimization. She is now the Ph.D. candidate and pursuing her Ph.D. degree in Sustainable Energy and Environment at Rattanakosin College for Sustainable Energy and Environment (RCSEE), Rajamangala University of Technology Rattanakosin, Nakhon Pathom, Thailand. Her research interests include operation research, production planning and design, mehaheuristic optimization, and applications of mehaheuristic algorithms to various real-world industrial engineering problems.

Author Articles
Traveling Transportation Problem Optimization by Adaptive Current Search Method

By Supaporn Suwannarongsri Tika Bunnag Waraporn Klinbun

DOI: https://doi.org/10.5815/ijmecs.2014.05.05, Pub. Date: 8 May 2014

The adaptive current search (ACS) is one of the novel metaheuristic optimization search techniques proposed for solving the combinatorial optimization problems. This paper aimed to present the application of the ACS to optimize the real-world traveling transportation problems (TTP) of a specific car factory. The total distance of the selected TTP is performed as the objective function to be minimized in order to decrease the vehicle’s energy. To perform its effectiveness, four real-world TTP problems are conducted. Results obtained by the ACS are compared with those obtained by genetic algorithm (GA), tabu search (TS) and current search (CS). As results, the ACS can provide very satisfactory solutions superior to other algorithms. The minimum total distance and the minimum vehicle’s energy of all TTP problems can be achieved by the ACS with the distant error of no longer than 3.05%.

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Energy Resource Management of Assembly Line Balancing Problem using Modified Current Search Method

By Supaporn Suwannarongsri Tika Bunnag Waraporn Klinbun

DOI: https://doi.org/10.5815/ijisa.2014.03.01, Pub. Date: 8 Feb. 2014

This paper aims to apply a modified current search method, adaptive current search (ACS), for assembly line balancing problems. The ACS algorithm possesses the memory list (ML) to escape from local entrapment and the adaptive radius (AR) mechanism to speed up the search process. The ACS is tested against five benchmark unconstrained and three constrained optimization problems compared with genetic algorithm (GA), tabu search (TS) and current search (CS). As results, the ACS outperforms other algorithms and provides superior results. The ACS is used to address the number of tasks assigned for each workstation, while the heuristic sequencing (HS) technique is conducted to assign the sequence of tasks for each workstation according to precedence constraints. The workload variance and the idle time are performed as the multiple-objective functions. The proposed approach is tested against four benchmark ALB problems compared with the GA, TS and CS. As results, the ACS associated with the HS technique is capable of producing solutions superior to other techniques. In addition, the ACS is an alternative potential algorithm to solve other optimization problems.

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