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Analysis of a PM Motor Drive System by a Coupled Method with MATLAB and FEM
Ishikawa T.,Sunaga T.,Nakamura S.,Mori D.,Hashimoto S.,Matsunami M. The Korean Institute of Electrical Engineers 2005 KIEE International Transactions on Electrical Mach Vol.b5 No.3
Finite element method (FEM) is a very powerful tool for the calculation of magnetic field of electromagnetic devices. MATLAB/Simulink is also well known as a very useful tool for control systems. This paper proposes a very promising method, where the FEM is coupled with MATLAB. We apply this method to analyze a permanent magnet (PM) motor drive system, and compare with results using MATLAB only.
Distraction Osteogenesis Update : Introduction of Multidirectional Cranial Distraction Osteogenesis
Gomi, Akira,Sunaga, Ataru,Kamochi, Hideaki,Oguma, Hirofumi,Sugawara, Yasushi The Korean Neurosurgical Society 2016 Journal of Korean neurosurgical society Vol.59 No.3
In this review, we discuss in detail our current procedure for treating craniosynostosis using multidirectional cranial distraction osteogenesis (MCDO). The MCDO method allows all phenotypes of skull deformity to be reshaped by distraction osteogenesis, except in patients who are 5 months of age or younger and patients with posterior cranial vault problems. We report the results of clinical data of 36 children with craniosynostosis who underwent MCDO between 2005 and 2014 in our institute. This method has the following benefits, such as a high flexibility of reshaping, shorter treatment period and less invasive secondary intervention. We also discuss the other distraction osteogenesis techniques that are used to treat craniosynostosis and compare them with MCDO. The preferred procedure for correction of craniosynostosis may depend on the patient's age, the extent of deformity, and the extent of correction achievable by surgery. We can arrange the combinations of various methods according to the advantage and disadvantage of each technique.