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Robust Design Optimization of Electrical Machines and Devices
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This reprint contains fourteen chosen articles on robust design optimization of electrical machines and devices. Optimization is essential for the research and design of electromechanical devices, especially electrical machines. Finding optimal solutions may lead to cheaper and more efficient production of electrical machines. However, optimizing such a complex system as an electrical machine is a computationally expensive optimization problem, where many physical domains should be considered together. However, a good, practical design should be insensitive to parameter changes and the manufacturing tolerances. The collected papers show how modern artificial intelligence (AI) tools can be used for the robust design optimization of electric machines and electrical devices. The articles which are published in this Special Issue present the latest results of current research fields. Hopefully, the presented models and various application fields will provide useful information for researchers and professionals interested in these techniques themselves or who have other problems from different fields.
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Keywords
- activation energy Ea
- additive manufacturing
- alternative fluid
- analytical method
- antenna array
- array factor
- artificial intelligence
- Aurivillius phases
- Bi3−xNdxTi1.5W0.5O9
- Curie temperature TC
- design optimization
- dielectric spectroscopy
- DLIM
- dummy primary winding
- dynamic performance
- Economics, finance, business & management
- electrical machines
- electromagnetic coupling
- end effect
- Energy industries & utilities
- equivalent circuit
- equivalent circuit model
- ester oil-based nano fluids
- execution time
- Finite element
- Finite element method
- finite-element method
- Genetic algorithms
- hairpin windings
- hardness
- History of engineering & technology
- hysteresis current control
- Industry & industrial studies
- insulation core transformer
- linear induction motor
- load regulation
- longitudinal end effect
- low-voltage cables
- lumped parameter model
- Model Predictive Control
- multi-objective optimizations
- n/a
- nanoparticles effect
- non-uniformity of disk output voltage
- nuclear power Plant
- optimization
- Optimization Techniques
- Permanent Magnet Synchronous Reluctance Motor
- perturbation theory
- PMSM
- polymer degradation
- power quality
- PSO algorithm
- quantized control
- relative viscosity
- rotor eccentricity
- rotor flux barrier
- self-organizing map
- synchronous reluctance motors
- synthesis control
- Taguchi designs
- Technology, engineering, agriculture
- Technology: general issues
- temperature change
- thermal conductivity
- thermal degradation
- thermal-mechanical aging
- thrust
- Torque
- torque development
- torque ripple
- transverse edge effect
- upgraded insulant
- voltage compensation
- wind generation
Links
DOI: 10.3390/books978-3-0365-6377-0Editions