论文信息 - Deciphering innovative principles for optimal electric brushless D.C. permanent magnet motor design

Deciphering innovative principles for optimal electric brushless D.C. permanent magnet motor design

This paper shows how a routine design optimization task can be enhanced to decipher important and innovative design principles which shall provide far-reaching knowledge about the problem at hand. Although the dasiainnovizationpsila task for this purpose was proposed by the first author elsewhere, the application to a brushless D.C. permanent magnet motor design is the first real application of the innovization concept to a discrete optimization problem. The model for cost and peak-torque objectives and associated constraints are borrowed from an existing study. The extent of knowledge gained in designing high-performing yet low-cost motors achieved in this study is phenomenal and should motivate other practitioners to pursue similar studies in other design and optimization related activities.

Kalyanmoy Deb | Karthik Sindhya

[1] Kalyanmoy Deb,et al. Towards estimating nadir objective vector using evolutionary approaches , 2006, GECCO.

[2] R. K. Ursem. Multi-objective Optimization using Evolutionary Algorithms , 2009 .

[3] Kaisa Miettinen,et al. Nonlinear multiobjective optimization , 1998, International series in operations research and management science.

[4] Gary B. Lamont,et al. Evolutionary Algorithms for Solving Multi-Objective Problems , 2002, Genetic Algorithms and Evolutionary Computation.

[5] David E. Goldberg,et al. Genetic Algorithms in Search Optimization and Machine Learning , 1988 .

[6] Bala Chidambaram. Catalog-based Customization , 1999 .

[7] Yacov Y. Haimes,et al. Multiobjective Decision Making: Theory and Methodology , 1983 .

[8] Aravind Srinivasan,et al. Innovization: innovating design principles through optimization , 2006, GECCO.

[9] P. Neittaanmäki,et al. Nonsmooth Optimization: Analysis and Algorithms with Applications to Optimal Control , 1992 .

[10] Kalyanmoy Deb,et al. A fast and elitist multiobjective genetic algorithm: NSGA-II , 2002, IEEE Trans. Evol. Comput..