Míreanna comhchosúla: Piezoelectric Transducers
- Energy Harvesters and Self-powered Sensors for Smart Electronics
- Piezoelectric MEMS
- Vibration Energy Harvesting for Wireless Sensors
- Smart Materials and Devices for Energy Harvesting
- Smart Devices and Systems for Vibration Sensing and Energy Harvesting
- Recent Advances in Smart Materials for Sensor and Actuator Applications
- Advanced Energy Harvesting Technologies
- Advance in Energy Harvesters/Nanogenerators and Self-Powered Sensors II
- Smart Devices and Systems for Vibration Sensing and Energy Harvesting
- MEMS Technology for Biomedical Imaging Applications
- Polymer Materials in Sensors, Actuators and Energy Conversion II
- Micromachined Acoustic Transducers for Audio-Frequency Range
- Time-efficient Simulation of Surface-excited Guided Lamb Wave Propagation in Composites
- Applications on Ultrasonic Wave
- Actuating, Sensing, Control, and Instrumentation for Ultra Precision Engineering
- Advanced Energy Harvesting Technology
- Advanced Energy Harvesting Technology
- Recent Advances in Nanogenerators
- Advance in Energy Harvesters/Nanogenerators and Self-Powered Sensors
- Vibration Control and Structure Health Monitoring
- Piezoelectric Aluminium Scandium Nitride (AlScN) Thin Films: Material Development and Applications in Microdevices
- Sonic and Photonic Crystals
- Materiell nichtlineare Kontinuumsmodellierung ferroelektrischer Funktionskeramiken mit piezoelektrischen und flexoelektrischen Eigenschaften
- Sensors for Ultrasonic NDT in Harsh Environments
Topaic: cylindrical composite
- Topaic: electromechanical characteristics
- Topaic: transducer
- Topaic: piezoelectric actuators
- Topaic: positioning
- Topaic: trajectory control
- Topaic: numerical analysis
- Topaic: trajectory planning
- Topaic: square piezoelectric vibrator
- Topaic: resonance
- Topaic: piezoelectric diaphragm pump
- Topaic: flexible support
- Topaic: piezoelectric resonance pump
- Topaic: piezoelectric ceramics actuators
- Topaic: hysteresis modeling
- Topaic: Bouc–Wen model
- Topaic: P-type IL
- Topaic: MFA control
- Topaic: SM control
- Topaic: evidence theory
- Topaic: active vibration control
- Topaic: piezoelectric smart structure
- Topaic: piezoelectric material
- Topaic: multiphysics simulation
- Topaic: finite element method (FEM)
- Topaic: fluid–structure interaction (FSI)
- Topaic: micro electromechanical systems (MEMS)
- Topaic: traveling waves
- Topaic: piezoelectric
- Topaic: microactuator
- Topaic: MEMS
- Topaic: piezoelectric current sensing device
- Topaic: two-wire power cord
- Topaic: cymbal structure
- Topaic: force amplification effect
- Topaic: sensitivity
- Topaic: ciliary bodies touch beam
- Topaic: piezoelectric tactile feedback devices
- Topaic: anisotropic vibration tactile model
- Topaic: human factor experiment
- Topaic: nondestructive testing
- Topaic: maturity method
- Topaic: concrete early-age strength
- Topaic: SmartRock
- Topaic: ultrasonic waves
- Topaic: PZT (piezoelectric) sensors
- Topaic: structural health monitoring
- Topaic: AlN thin film
- Topaic: piezoelectric effect
- Topaic: resonant accelerometer
- Topaic: z-axis
- Topaic: debonding
- Topaic: non-destructive testing
- Topaic: electromechanical impedance
- Topaic: damage detection
- Topaic: impedance-based technique
- Topaic: damage depth
- Topaic: piezoelectric vibration energy harvester
- Topaic: frequency up-conversion mechanism
- Topaic: impact
- Topaic: PZT thick film
- Topaic: piezoelectric ceramic materials
- Topaic: Duhem model
- Topaic: hysteresis model
- Topaic: class-C power amplifier
- Topaic: diode expander
- Topaic: piezoelectric transducers
- Topaic: point-of-care ultrasound systems
- Topaic: transverse impact
- Topaic: frequency up-conversion
- Topaic: piezoelectric bimorph
- Topaic: human-limb motion
- Topaic: hybrid energy harvester
- Topaic: cascade-connected transducer
- Topaic: low frequency
- Topaic: small size
- Topaic: finite element
- Topaic: acoustic telemetry
- Topaic: measurement while drilling
- Topaic: energy harvesting
- Topaic: pipelines
- Topaic: underwater networks
- Topaic: wireless sensor networks
- Topaic: control algorithm
- Topaic: waterproof
- Topaic: coating
- Topaic: reliability
- Topaic: flexible micro-devices
- Topaic: aqueous environments
- Topaic: seawater
- Topaic: capacitive pressure sensors
- Topaic: in-situ pressure sensing
- Topaic: sensor characterization
- Topaic: physiological applications
- Topaic: cardiac output
- Topaic: aluminum nitride
- Topaic: resonator
- Topaic: damping
- Topaic: quality factor
- Topaic: electromechanical coupling
- Topaic: implantable middle ear hearing device
- Topaic: piezoelectric transducer
- Topaic: stimulating site
- Topaic: finite element analysis
- Topaic: hearing compensation
- Topaic: adaptive lens
- Topaic: piezoelectric devices
- Topaic: fluid-structure interaction
- Topaic: moving mesh
- Topaic: thermal expansion
- Topaic: COMSOL
- Topaic: petroleum acoustical-logging
- Topaic: piezoelectric cylindrical-shell transducer
- Topaic: center-frequency
- Topaic: experimental-measurement
- Topaic: piezoelectricity
- Topaic: visual servo control
- Topaic: stepping motor
- Topaic: nano-positioner
- Topaic: stick-slip
- Topaic: piezoelectric energy harvester
- Topaic: cut-in wind speed
- Topaic: cut-out wind speed
- Topaic: energy conservation method
- Topaic: critical stress method
- Topaic: piezoelectric actuator
- Topaic: lever mechanism
- Topaic: analytical model
- Topaic: stick-slip frication
- Topaic: nanopositioning stage
- Topaic: piezoelectric hysteresis
- Topaic: mark point recognition
- Topaic: piecewise fitting
- Topaic: compensation control
- Topaic: piezo-electromagnetic coupling
- Topaic: up-conversion
- Topaic: vibration energy harvester
- Topaic: multi-directional vibration
- Topaic: low frequency vibration
- Topaic: hysteresis compensation
- Topaic: single-neuron adaptive control
- Topaic: Hebb learning rules
- Topaic: supervised learning
- Topaic: vibration-based energy harvesting
- Topaic: multimodal structures
- Topaic: frequency tuning
- Topaic: nonlinear resonator
- Topaic: bistability
- Topaic: magnetostatic force
- Topaic: robot
- Topaic: miniature
- Topaic: traveling wave
- Topaic: leg
- Topaic: piezoelectric actuators (PEAs)
- Topaic: asymmetric hysteresis
- Topaic: Prandtl–Ishlinskii (PI) model
- Topaic: polynomial-modified PI (PMPI) model
- Topaic: feedforward hysteresis compensation
- Topaic: PIN-PMN-PT
- Topaic: 1-3 composite
- Topaic: high frequency
- Topaic: phased array
- Topaic: n/a
- Topaic: thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology:...
Topaic: piezoceramic/epoxy composite
- Topaic: electromechanical characteristics
- Topaic: transducer
- Topaic: piezoelectric actuators
- Topaic: positioning
- Topaic: trajectory control
- Topaic: numerical analysis
- Topaic: trajectory planning
- Topaic: square piezoelectric vibrator
- Topaic: resonance
- Topaic: piezoelectric diaphragm pump
- Topaic: flexible support
- Topaic: piezoelectric resonance pump
- Topaic: piezoelectric ceramics actuators
- Topaic: hysteresis modeling
- Topaic: Bouc–Wen model
- Topaic: P-type IL
- Topaic: MFA control
- Topaic: SM control
- Topaic: evidence theory
- Topaic: active vibration control
- Topaic: piezoelectric smart structure
- Topaic: piezoelectric material
- Topaic: multiphysics simulation
- Topaic: finite element method (FEM)
- Topaic: fluid–structure interaction (FSI)
- Topaic: micro electromechanical systems (MEMS)
- Topaic: traveling waves
- Topaic: piezoelectric
- Topaic: microactuator
- Topaic: MEMS
- Topaic: piezoelectric current sensing device
- Topaic: two-wire power cord
- Topaic: cymbal structure
- Topaic: force amplification effect
- Topaic: sensitivity
- Topaic: ciliary bodies touch beam
- Topaic: piezoelectric tactile feedback devices
- Topaic: anisotropic vibration tactile model
- Topaic: human factor experiment
- Topaic: nondestructive testing
- Topaic: maturity method
- Topaic: concrete early-age strength
- Topaic: SmartRock
- Topaic: ultrasonic waves
- Topaic: PZT (piezoelectric) sensors
- Topaic: structural health monitoring
- Topaic: AlN thin film
- Topaic: piezoelectric effect
- Topaic: resonant accelerometer
- Topaic: z-axis
- Topaic: debonding
- Topaic: non-destructive testing
- Topaic: electromechanical impedance
- Topaic: damage detection
- Topaic: impedance-based technique
- Topaic: damage depth
- Topaic: piezoelectric vibration energy harvester
- Topaic: frequency up-conversion mechanism
- Topaic: impact
- Topaic: PZT thick film
- Topaic: piezoelectric ceramic materials
- Topaic: Duhem model
- Topaic: hysteresis model
- Topaic: class-C power amplifier
- Topaic: diode expander
- Topaic: piezoelectric transducers
- Topaic: point-of-care ultrasound systems
- Topaic: transverse impact
- Topaic: frequency up-conversion
- Topaic: piezoelectric bimorph
- Topaic: human-limb motion
- Topaic: hybrid energy harvester
- Topaic: cascade-connected transducer
- Topaic: low frequency
- Topaic: small size
- Topaic: finite element
- Topaic: acoustic telemetry
- Topaic: measurement while drilling
- Topaic: energy harvesting
- Topaic: pipelines
- Topaic: underwater networks
- Topaic: wireless sensor networks
- Topaic: control algorithm
- Topaic: waterproof
- Topaic: coating
- Topaic: reliability
- Topaic: flexible micro-devices
- Topaic: aqueous environments
- Topaic: seawater
- Topaic: capacitive pressure sensors
- Topaic: in-situ pressure sensing
- Topaic: sensor characterization
- Topaic: physiological applications
- Topaic: cardiac output
- Topaic: aluminum nitride
- Topaic: resonator
- Topaic: damping
- Topaic: quality factor
- Topaic: electromechanical coupling
- Topaic: implantable middle ear hearing device
- Topaic: piezoelectric transducer
- Topaic: stimulating site
- Topaic: finite element analysis
- Topaic: hearing compensation
- Topaic: adaptive lens
- Topaic: piezoelectric devices
- Topaic: fluid-structure interaction
- Topaic: moving mesh
- Topaic: thermal expansion
- Topaic: COMSOL
- Topaic: petroleum acoustical-logging
- Topaic: piezoelectric cylindrical-shell transducer
- Topaic: center-frequency
- Topaic: experimental-measurement
- Topaic: piezoelectricity
- Topaic: visual servo control
- Topaic: stepping motor
- Topaic: nano-positioner
- Topaic: stick-slip
- Topaic: piezoelectric energy harvester
- Topaic: cut-in wind speed
- Topaic: cut-out wind speed
- Topaic: energy conservation method
- Topaic: critical stress method
- Topaic: piezoelectric actuator
- Topaic: lever mechanism
- Topaic: analytical model
- Topaic: stick-slip frication
- Topaic: nanopositioning stage
- Topaic: piezoelectric hysteresis
- Topaic: mark point recognition
- Topaic: piecewise fitting
- Topaic: compensation control
- Topaic: piezo-electromagnetic coupling
- Topaic: up-conversion
- Topaic: vibration energy harvester
- Topaic: multi-directional vibration
- Topaic: low frequency vibration
- Topaic: hysteresis compensation
- Topaic: single-neuron adaptive control
- Topaic: Hebb learning rules
- Topaic: supervised learning
- Topaic: vibration-based energy harvesting
- Topaic: multimodal structures
- Topaic: frequency tuning
- Topaic: nonlinear resonator
- Topaic: bistability
- Topaic: magnetostatic force
- Topaic: robot
- Topaic: miniature
- Topaic: traveling wave
- Topaic: leg
- Topaic: piezoelectric actuators (PEAs)
- Topaic: asymmetric hysteresis
- Topaic: Prandtl–Ishlinskii (PI) model
- Topaic: polynomial-modified PI (PMPI) model
- Topaic: feedforward hysteresis compensation
- Topaic: PIN-PMN-PT
- Topaic: 1-3 composite
- Topaic: high frequency
- Topaic: phased array
- Topaic: n/a
- Topaic: thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology:...