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With the growing interest in electrical machines in recent times, the multiphase machine field has developed into a fascinating research area. Their intrinsic features (power splitting, better fault tolerance, or lower torque ripple) make them an appealing competitor to conventional three-phase machines. Multiphase electric drives have been recently used in applications where fault tolerance and continuous operation of the drive are required. However, the difficulties in extending the three-phase conventional current regulation and control structure to multiphase systems still limit their broad applicability in industry solutions. The main objective of this book is to illustrate new advances, developments, and applications in the field of multiphase machines and drives, while exposing these advances, developments, and applications to the scientific community and industry.

model predictive control --- sliding mode control --- multiphase induction motor drives --- multiphase induction machine --- winding configuration --- observer --- meta-heuristic algorithms --- cost functions --- off-line identification methods --- constraints satisfaction --- multiphase drives --- multi-phase drives --- natural fault tolerance --- current control --- variable sampling --- harmonic distortion --- minmax --- electric drives --- field-oriented control --- time delay estimation --- predictive current control --- modelling --- pulse width modulation --- multiphase induction machines --- fixed switching frequency --- local controllers --- current ripple --- dc-ac power converters --- virtual voltage vectors --- high-frequency losses