Latest Articles for Acoustics

Explore the basics and key concepts of the linear wave equation.

Analyzing how sound behaves in flowing fluids and its practical implications.

Deep learning models improve sound field reconstruction in complex environments.

This study examines how sound waves affect droplet suspension and sorting.

Study reveals how imperfections affect resonator behavior.

Research reveals methods to enhance quantum memory performance through phonons.

A study on disentangling speaker identity from speech signals for improved processing.

Exploring how neural networks improve the accuracy of sound source localization.

Study reveals how sound travels through fluids with bubbles.

Researchers create flat Landau levels in a 3D structure made from sound waves.

A look into how sound waves affect various structures.

An overview of approaches to tackle Helmholtz equation complexities.

This study examines how sound waves scatter off complex fractal shapes.

Study reveals how sound behaves in glassy systems using random particle models.

New methods improve wave scattering analysis in various fields, enhancing technology and science.

A novel approach improves wave simulation in irregular landscapes for better predictions.

A new approach improves sound estimation in spaces with scattering objects.

New method enhances sound source localization and field separation.

Explore how different shapes influence drum vibrations and sound.

Research reveals new methods for designing sound-controlling cavities with shared frequency properties.

RIGID uses machine learning for efficient metamaterial design with minimal data.

A new approach assesses audio quality using multiple microphones in various environments.

Exploring the link between sound waves and magnetic waves for advanced technology.

This study presents an attention-based model for estimating room volumes from audio recordings.

This article investigates the unique properties of bilayer phononic crystals and their applications.

This article examines how sound waves diminish in disorganized materials.

Learn how ultraspherical polynomials improve audio technology and sound directionality.

A new framework for combining spherical microphone and loudspeaker arrays in sound studies.

Discover how MIMO systems improve sound analysis in various environments.

New techniques improve sound direction estimation for various audio settings.

Research reveals methods to adjust sound behavior in rooms for improved clarity.

Dielectric elastomers convert electrical energy into mechanical motion, offering diverse applications.

Researchers combine generative and discriminative methods for improved sound classification.

A study on sound synthesis and its evaluation in controlled environments.

Examining the behavior and interactions of gas bubbles in changing liquid conditions.

This study examines how wall shapes affect nonlinear acoustic wave behavior.

New research reveals how disorder impacts sound behavior in acoustic crystals.

Study reveals new methods for identifying defects in materials using sound waves.

Learn how sound localization identifies the source of sounds using advanced techniques.

A new method reduces unwanted metallic sound in audio reverberation.