Monterey, CA, USA
- Applications of HPC in Acoustics
- Noriyuki Kushida1
Leveraging High-Performance Computing for Global Scale Underwater Acoustics Simulations.
- Kuangcheng Wu2
Utilize High Performance Computing for Flow-induced Vibration and Sound Predictions.
- Timothy Walsh3
Design and Inverse Problems in Structural Acoustics: Fusing Experimental Data, Simulation, and Optimization with High-Performance Computing.
- Computational Accoustics
- Patrick Heidegger1
Simulating the Fluid-Structure-Acoustic Interaction of the Confined Flow in a Centrifugal Fan_
- Pai-Chen, Guan2
Reconstruction of sound field caused by unknown acoustic source localization inside the cavitation tunnel using deep neural network and reproducing kernel approximation
- Steffen Marburg3
Towards Large-Scale Boundary Element Simulations for Viscothermal Acoustics
- Paul Maurerlehner4
Finite element time domain equivalent fluid model for the acoustic wave equation.
- Nicholas Durofchalk1
Modeling sea surface noise in the presence of seamounts and ocean fronts using Nx2D and 3D methods
- Tsu-Wei, Tan2
Passive Coastal Ocean Probing by Cross-Correlating Ambient Sound on Different Time Scales
- Tsai Meng-Fan3
Simulation of the pile driving noise with the vertical vibratory hammer
- Ian Bacon4
Improved computational efficiency of vibration-based sound power measurements through employing multi-layered radiation resistance matrix symmetries
- Matthew Walters5
Design of Acoustic Noise Interferometry Network for Placement in the Vicinity of the New England Seamounts
- Jacob Nuttall6
Ship Noise Characteristics using a Viscous Grain Shearing Model of the Sediment
- Jay Spendlove7
Information geometric approaches to finding reduced-parameter models for geoacoustic inversion
- Mariia Bronzova8
Trim-Structure interface simulation techniques based on Finite Element Modelling
- Elfgard Kuehnicke9
Wave Propagation in Layered Media using Transient GREEN's Functions – A Discussion of Effects of the Geometry on the Impulse Response
- Mingyang Sui10
Nodes and Driving Optimization of the High-Capacitance Transducer
- Shallow Water Acoustics
- Zhen Wang1
Analysis of Temporal Fluctuations of Acoustic Energy Caused by Shallow Water Internal Waves
- Qianchu Zhang2
The simulation of low-frequency noise intensity in the shallow sea
- He Li3
Passive depth estimation using a single vector hydrophone in deep water both broad-band and narrowband sources
- Jing Guo4
Source Localization in Time-varying and Range-dependent Environment
- Qiannan Hou5
The Inversion of the Centimeter-Scale Roughness of Seafloor Using the Broadband
- Zhendong Zhao6
Underwater Acoustic Field Control Based on Vertical Directional Emission
- Lin Jianheng7
Point Source Distribution Model of Ship Noise in Shipping Channel
- Shear Waves in Underwater Acoustics
- Abram H. Clark1
Shear rigidity and acoustics in granular media.
- Oleg Godin2
Sound scattering by thin shells: are the thin-shell and thick-shell theories consistent?
- Anatoly Ivakin3
A hybrid approach to under-ice sound propagation.
- Derek Olson4
Sensitivity of passive bottom loss measurements to shear basement properties of rough, layered seafloors.
- Piotr Borejko5
A theoretical investigation of sound propagation in shallow water at low frequencies using a 3-D benchmark model of the fluid wedge over an elastic bottom.
- Oleg Godin6
Normal mode propagation over range-dependent seabed with weak shear rigidity
- Dag Tollefsen7
Inverse modeling for sediment shear properties: Two shallow-water examples.
- Charles Holland8
Range-dependent seabed effects on shear resonances and long-range propagation.
- Sound field fluctuations in underwater variable environment
- Ivana Escobar1
Extracting acoustic travel times from modeled ocean circulation.
- Marina Yarina2
Modal Structure of the Sound Field in a Shallow-Water Waveguide with a Sediment Layer.
- Visualizing Sound Fields in 3D Space
- Sean Wu1
Locating sound sources inside a solid enclosure.
- Sean Wu2
Targeted noise control.
- Lingguang Chen3
Vibroacoustic Characteristics of a Utility Terrain Vehicle. Part I: Vibration Analysis.
- Yazhong Lu4
Vibroacoustic Characteristics of a Utility Terrain Vehicle. Part II: Acoustic Analysis.