Blog Posts Tagged Acoustics Module
Taking a Closer Look at MEMS Technology with COMSOL Multiphysics®
Explore the benefits that MEMS bring to microphones and how modeling and simulation can help make the design process of MEMS microphones more efficient.
Convolution and Auralization for Room Acoustics Analysis
Convolution is applied in various fields for signal and image processing, statistics, and more. Explore 3 methods for performing convolution in COMSOL Multiphysics® here.
Modeling Acoustic Energy Generation in Thermoacoustic Engines
Thermoacoustic engines do not use moving parts, keeping their structure very simple. Learn more about these engines and how to model them here.
Full Acoustic Room Impulse Response of a Small Smart Speaker
The acoustic response of a small smart speaker can be modeled using the built-in hybrid FEM–ray coupling functionality in the COMSOL Multiphysics® software. Learn more here.
Modeling Room Acoustics Using a Hybrid Approach
Explore a hybrid approach that combines ray-tracing and finite element methods for modeling room acoustics.
A Practical Implementation of Multiphysics Topology Optimization
A guest blogger from GN Audio A/S introduces a multiphysics topology framework developed with the COMSOL Application Programming Interface and LiveLink™ for MATLAB®.
Computing Transient Sound Pressure Levels in COMSOL®
Sound pressure level metrics are important to know when trying to make results from a transient simulation easier to interpret on a logarithmic scale. Learn how to compute 3 of these metrics here.
The Octave Band Plot for Acoustics Simulation
The Octave Band plot provides an easy and flexible way to represent any frequency response, transfer function, sensitivity curve, transmission loss, or insertion loss in your acoustics analyses.