Latest Articles for Acoustics

Research highlights new models for better audio quality in various environments.

Exploring the impact of sound waves on fluid movement for diverse applications.

Recent advances improve wave directionality and reduce energy loss.

A new method combines traditional techniques with neural networks for better sound localization.

Research reveals how nonlinear behaviors can protect topological properties in various systems.

Exploring how stress and viscosity affect waves in fluids and solids.

New methods improve sound simulation across various environments.

A new method improves sound processing through automatic tuning of Feedback Delay Networks.

Explore how wave scattering shapes technology and scientific research.

Outer hair cells are crucial for sound amplification and frequency tuning in mammals.

This article examines how neural networks predict sound behavior in ducts.

Exploring advanced methods for sound projection in compression drivers.

A method using AI enhances sound representation in various environments.

Research explores merging sound techniques for better robotic navigation and mapping.

A new approach predicts underwater noise using advanced AI techniques.

A method to measure how materials absorb sound effectively.

Learn about sound localization techniques and their uses in various fields.

Exploring the dynamics of bubbles and their impact on various industries.

New techniques improve wave equation solutions, enhancing accuracy and efficiency.

Exploring how sound moves through ocean floor materials for research and communication.

Study reveals ways to improve how people understand robot speech.

Combining physics and geometry for improved acoustic scattering predictions.

Deep neural networks enhance modeling of acoustic scattering problems in various fields.

This study examines how pressure pulses interact with Rayleigh-Taylor instability in fluids.

This article examines changes in Rayleigh-Jeans equilibrium states over time.

New strategies improve the design and functionality of metamaterials.

Exploring direct and inverse scattering problems with penetrable rough surfaces.

A look into how waves behave in materials that change over time.

Exploring the effects of non-Hermitian systems across dimensions.

This article explores how membrane shapes affect sound frequencies.

Exploring how sound behaves in multi-room environments and its implications in technology.

Study reveals how sound influences the dynamics of a conical flame.

Research shows how cavity size affects performance of synthetic jet actuators.

Research reveals how sound interacts with shear layers in high-speed fluids.

Study reveals how cavity angles affect noise levels from airflow.

New method enhances sound wave efficiency for technology applications.

Exploring the complexities and applications of multiperforated plates in various fields.

A novel approach to estimating sound traits in challenging environments using deep learning.

New models help design materials that control wave behavior effectively.

Neural networks enhance design processes for better sound control in acoustics.