TY  - BOOK
AU  - Prakht, Vladimir||Ibrahim, Mohamed N.||Anuchin, Aleksey  S.
TI  - Mathematical Approaches to Modeling, Optimally Designing, and Controlling Electric Machine
SN  - 9783040000000
KW  - demagnetization||electric machine||flux reversal machine||high-speed electrical machine||high-speed electrical motor||Nelder–Mead method||optimal design||switched reluctance motor||direct instantaneous torque control||numerical analysis||optimization||current angle||design of electric motors||flux-barriers||synchronous reluctance motor||torque ripple||induction motor||model predictive||sensorless||high performance||switched reluctance machine||NSGA-II optimization||finite element analysis||direct-drive||electric machine analysis computing||interior permanent magnet machine||mathematical model||optimal-design||permanent magnet flux-switching machine||wind generator||doubly fed induction generator||DC-link voltage regulation||second-order sliding mode control||extended state observer||fuzzy gain scheduling||advanced metaheuristics||MO-Jaya optimization||centrifugal pump||energy efficiency||parallel pumps||throttling||variable speed pump||synchronous homopolar machine||synchronous homopolar motor||traction drives||traction motor||high-harmonic injection||brushless field excitation||wound field synchronous machines||Axial flux permanent magnet machine||3D FEA||Genetic algorithm||hexagonal-shaped PMs||PM overhang||brushless topology||third harmonic flux||dc offset||direct-on-line permanent magnet synchronous motor||direct-on-line synchronous reluctance motor||permanent magnet motor||reactive power compensation||carbon dioxide emissions||climate change mitigation||electric motors||energy conversion||energy efficiency class||energy policy and regulation||energy saving||sustainable utilization of resources||synchronous motor||adaptive control||MTPA control||parameter variation||constraints design||mining dump truck||traction drive
UR  - https://mdpi.com/books/pdfview/book/4732
ER  -