Wakatsuki Naoto | Graduate School Of Systems And Information Engineering University Of Tsukuba

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概要

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著作論文

P3-45 Reconstruction of Vibrating Surface of Ultrasonic Transducer Using O-CT and Acoustical Holography(Poster session 3)
P3-4 Measuring Sound Fields in Air by Michelson Interferometer(Poster session 3)
P2-4 Propagation Characteristics of Negative Group Velocity of Lamb-type Waves in a Glass-Water-Glass Layer(Poster session 2)
Numerical Analysis of Piezoelectric Sensor Using Multimode Vibration for Liquid Density and Viscosity Measurement
Monolithic Piezoelectric Sensor for Measurement of Triaxial Forces Applied to Bridge by String Vibration
Design for Underwater Aplanatic Straubel Acoustic Mirror
Design for Underwater Aplanatic Acoustic Mirror
Flow Velocity Measurement Using an Orthogonally Radiated Ultrasonic Beam
Optical visualization of coupling modes of leaky Lamb waves with negative group velocity in the solid/fluid/solid trilayer
Precise Wireless Triggering System for Anemometers with Long-Baseline Acoustic Probes
Artifact Reduction in Tomographic Images for Nondestructive Testing of Square Billets Using Ultrasonic Computerized Tomography
Locality of Area Coverage on Digital Acoustic Communication in Air using Differential Phase Shift Keying
Measurement of Vertical Temperature Distribution Using a Single Pair of Loudspeaker and Microphone with Acoustic Reflection
Simulation of Internal Crack Detection in Shape-Distorted Cast Billets Using Time-of-Flight Measurements of Longitudinal Ultrasonic Waves
Estimation of Sound Velocity Distribution Using Sectional Near-Field Acoustical Holography and Global Search
Temperature Distribution Estimated by Optimization and Near-Field Acoustical Holography
Artifact Reduction in Tomographic Images for Nondestructive Testing of Square Billets Using Ultrasonic Computerized Tomography
Basic Study of Orthogonal Signal Division Multiplexing for Underwater Acoustic Communication: A Comparative Study
Differential Phase Shift Keying Acoustic Communication in Air for Low-Signal-to-Noise Ratio Environment
Temperature Distribution Measurement with Acoustic Computerized Tomography Using Rectangular Arrangement of Transducers
Defect Detection in Square Billet Using Time-of-Flight of Longitudinal Waves
Reconstruction of Three-Dimensional Sound Field from Two-Dimensional Sound Field Using Optical Computerized Tomography and Near-Field Acoustical Holography
Indirect Measurement of Vibrating Surface of Ultrasonic Transducer Using Optical Computerized Tomography and Acoustical Holography
Optimal Transducer Arrangement for Temperature Distribution Measurement in Arbitrary Convex-Shaped Space by Acoustic Computerized Tomography
Temperature Distribution Measurement Using Reflection with Acoustic Computerized Tomography
Visualization of Mode Conversion of Lamb-Type Waves in Glass Plates Using Pulsed Light Source
Chip-Interleaved Multiple Access for Underwater Acoustic Communication and Its Performance Evaluation in Propagation Simulation
Measurements of Wind Velocity and Direction Using Acoustic Reflection against Wall
Phase Shift Keying Acoustic Communication in Air with Impulse Response
Detection of Internal Cracks in Square Billets Using Time of Flight of Longitudinal Waves
Design for Aplanatic Fresnel Acoustic Lens for Underwater Imaging
Noncontact Measurement of Humidity and Temperature Using Airborne Ultrasound
Two-Axis Anemometer with Acoustic Reflector Using Single Pair of Loudspeaker and Microphone
Temperature Dependence of Parametric Phenomenon in Airborne Ultrasound for Temperature Measurement
Design for an Aspherical Acoustic Fresnel Lens with Phase Continuity
Relationships between Existence of Negative Group Velocity and Physical Parameters of Materials for Lamb-Type Waves in Solid/Liquid/Solid Structure
Negative Group Velocities of Lamb-Type Waves in a Glass/Water/Glass Structure Controlled by the Thickness of Water Layer
Air Temperature Distribution Measurement Using Asynchronous-Type Sound Probe
Acoustic Communication in Air Using Differential Biphase Shift Keying with Influence of Impulse Response and Background Noise

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