04278nam 2200781z- 450 991057687900332120231214133257.0(CKB)5720000000008385(oapen)https://directory.doabooks.org/handle/20.500.12854/84540(EXLCZ)99572000000000838520202206d2022 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierAdvances and Trends in Mathematical Modelling, Control and Identification of Vibrating SystemsBaselMDPI - Multidisciplinary Digital Publishing Institute20221 electronic resource (132 p.)3-0365-3949-2 3-0365-3950-6 This book introduces novel results on mathematical modelling, parameter identification, and automatic control for a wide range of applications of mechanical, electric, and mechatronic systems, where undesirable oscillations or vibrations are manifested. The six chapters of the book written by experts from international scientific community cover a wide range of interesting research topics related to: algebraic identification of rotordynamic parameters in rotor-bearing system using finite element models; model predictive control for active automotive suspension systems by means of hydraulic actuators; model-free data-driven-based control for a Voltage Source Converter-based Static Synchronous Compensator to improve the dynamic power grid performance under transient scenarios; an exact elasto-dynamics theory for bending vibrations for a class of flexible structures; motion profile tracking control and vibrating disturbance suppression for quadrotor aerial vehicles using artificial neural networks and particle swarm optimization; and multiple adaptive controllers based on B-Spline artificial neural networks for regulation and attenuation of low frequency oscillations for large-scale power systems. The book is addressed for both academic and industrial researchers and practitioners, as well as for postgraduate and undergraduate engineering students and other experts in a wide variety of disciplines seeking to know more about the advances and trends in mathematical modelling, control and identification of engineering systems in which undesirable oscillations or vibrations could be presented during their operation.Technology: general issuesbicsscHistory of engineering & technologybicsscB-spline neural networksadaptive power system controlcoordinated multiple controllersStatComexact plate theorythick platebending vibrationpartial differential operator theorygauge conditiondata-driven controlreactive power compensationSTATCOMvoltage controlvoltage source converterquadrotor UAVartificial neural networksrobust controlTaylor seriesB-splinesparticle swarm optimizationactive suspensionmodel predictive controllinear parameter varyingellipsoidal setattraction setsquadratic stabilityalgebraic identificationrotor-bearing systemfinite element modelrotordynamic coefficientsTechnology: general issuesHistory of engineering & technologyBeltran-Carbajal Franciscoedt1326311Rosas-Caro Julio CesaredtRamirez Juan MedtFélix Patrón Roberto SalvadoredtBeltran-Carbajal FranciscoothRosas-Caro Julio CesarothRamirez Juan MothFélix Patrón Roberto SalvadorothBOOK9910576879003321Advances and Trends in Mathematical Modelling, Control and Identification of Vibrating Systems3037297UNINA