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Palabras clave – provistas por la editorial

cylindrical composite; piezoceramic/epoxy composite; electromechanical characteristics; transducer; piezoelectric actuators; positioning; trajectory control; numerical analysis; trajectory planning; square piezoelectric vibrator; resonance; piezoelectric diaphragm pump; flexible support; piezoelectric resonance pump; piezoelectric ceramics actuators; hysteresis modeling; Bouc–Wen model; P-type IL; MFA control; SM control; evidence theory; active vibration control; piezoelectric smart structure; piezoelectric material; multiphysics simulation; finite element method (FEM); fluid–structure interaction (FSI); micro electromechanical systems (MEMS); traveling waves; piezoelectric; microactuator; MEMS; piezoelectric current sensing device; two-wire power cord; cymbal structure; force amplification effect; sensitivity; ciliary bodies touch beam; piezoelectric tactile feedback devices; anisotropic vibration tactile model; human factor experiment; nondestructive testing; maturity method; concrete early-age strength; SmartRock; ultrasonic waves; PZT (piezoelectric) sensors; structural health monitoring; AlN thin film; piezoelectric effect; resonant accelerometer; z-axis; debonding; non-destructive testing; electromechanical impedance; damage detection; impedance-based technique; damage depth; piezoelectric vibration energy harvester; frequency up-conversion mechanism; impact; PZT thick film; piezoelectric ceramic materials; Duhem model; hysteresis model; class-C power amplifier; diode expander; piezoelectric transducers; point-of-care ultrasound systems; transverse impact; frequency up-conversion; piezoelectric bimorph; human-limb motion; hybrid energy harvester; cascade-connected transducer; low frequency; small size; finite element; acoustic telemetry; measurement while drilling; energy harvesting; pipelines; underwater networks; wireless sensor networks; control algorithm; waterproof; coating; reliability; flexible micro-devices; aqueous environments; seawater; capacitive pressure sensors; in-situ pressure sensing; sensor characterization; physiological applications; cardiac output; aluminum nitride; resonator; damping; quality factor; electromechanical coupling; implantable middle ear hearing device; piezoelectric transducer; stimulating site; finite element analysis; hearing compensation; adaptive lens; piezoelectric devices; fluid-structure interaction; moving mesh; thermal expansion; COMSOL; petroleum acoustical-logging; piezoelectric cylindrical-shell transducer; center-frequency; experimental-measurement; piezoelectricity; visual servo control; stepping motor; nano-positioner; stick-slip; piezoelectric energy harvester; cut-in wind speed; cut-out wind speed; energy conservation method; critical stress method; piezoelectric actuator; lever mechanism; analytical model; stick-slip frication; nanopositioning stage; piezoelectric hysteresis; mark point recognition; piecewise fitting; compensation control; piezo-electromagnetic coupling; up-conversion; vibration energy harvester; multi-directional vibration; low frequency vibration; hysteresis compensation; single-neuron adaptive control; Hebb learning rules; supervised learning; vibration-based energy harvesting; multimodal structures; frequency tuning; nonlinear resonator; bistability; magnetostatic force; robot; miniature; traveling wave; leg; piezoelectric actuators (PEAs); asymmetric hysteresis; Prandtl–Ishlinskii (PI) model; polynomial-modified PI (PMPI) model; feedforward hysteresis compensation; PIN-PMN-PT; 1-3 composite; high frequency; phased array; n/a