eprintid: 2491 rev_number: 10 eprint_status: archive userid: 11 dir: disk0/00/00/24/91 datestamp: 2017-06-12 04:03:31 lastmod: 2017-06-12 04:04:31 status_changed: 2017-06-12 04:03:31 type: article metadata_visibility: show creators_name: Xia, Bin creators_name: Pham, Minh Trien creators_name: Zhang, Y. creators_name: Koh, Chang Seop creators_id: trienpm@vnu.edu.vn title: A Global Optimization Algorithm for Electromagnetic Devices by Combining Adaptive Taylor Kriging and Particle Swarm Optimization ispublished: pub subjects: ECE subjects: ElectronicsandComputerEngineering subjects: isi divisions: fac_fet keywords: covariance analysis;electromagnetic devices;electromagnetic fields;maximum likelihood estimation;particle swarm optimisation;MLE;PSO;adaptive Taylor Kriging;analytic functions;covariance parameter;electromagnetic analysis;electromagnetic devices;electromagnetic problem;global optimization;maximum likelihood estimation;particle swarm optimization;Adaptive Taylor Kriging;TEAM problem 22;maximum likelihood estimation;particle swarm optimization abstract: Abstract: This paper presents an efficient optimization strategy which employs adaptive Taylor Kriging and Particle Swarm Optimization (PSO). In this method, the objective function of electromagnetic problem is interpolated by using adaptive Taylor Kriging, in which the covariance parameter is obtained by Maximum Likelihood Estimation (MLE). And then, PSO is used to search for optimal solutions of electromagnetic problem. The proposed algorithm is verified its validity by analytic functions and TEAM (Testing of Electromagnetic Analysis Method) problem 22. date: 2013-05 date_type: published publisher: IEEE full_text_status: none publication: IEEE Transactions on Magnetics volume: 49 number: 5 pagerange: 2061-2064 refereed: TRUE issn: 0018-9464 citation: Xia, Bin and Pham, Minh Trien and Zhang, Y. and Koh, Chang Seop (2013) A Global Optimization Algorithm for Electromagnetic Devices by Combining Adaptive Taylor Kriging and Particle Swarm Optimization. IEEE Transactions on Magnetics, 49 (5). pp. 2061-2064. ISSN 0018-9464