Screenshots
Electromagnetics
Waveller Electromagnetics solution for the scattering from a perfectly conducting NASA almond at 9.9 GHz. The simulations are computed in the mesh pictured below. For more details about this benchmark see the article Solving Maxwell's Equations Using the Ultra Weak Variational Formulation.
The mesh for the NASA almond scattering simulation.
Acoustics
Modeling of a needle hydrophone for ultrasound field measurements. More details on this simulation can be found from the publication Modeling of anomalies due to hydrophones in continuous-wave ultrasound fields
Wave transmission through a plastic plate. More details on this simulation can be found from the publication A full-wave Helmholtz model for continuous-wave ultrasound transmission
Focused ultrasound field through a human cranium.
A 300 Hz noise field inside car cabin originating from leg room.
A 2500 Hz noise field inside car cabin originating from leg room.
A 5000 Hz noise field inside car cabin originating from leg room.
Whats new
May 5th 2007
Waveller IPR have been acquired by Kuava ltd. Kuava continues Waveller development and uses it for simulation services.July 21th 2006
Waveller Acoustics 1.1 is available! Pricing information and information on how to receive an evaluation license are on page Waveller Acoustics.February 2nd 2006
Waveller ElectromagneticsThe first results using Waveller Electromagnetics are available in article Solving Maxwell's Equations Using the Ultra Weak Variational Formulation and in the screenshots-section. The mathematical formulation of Waveller Electomagnetics is extremely useful for solving electromagnetic field related wave problems in many application fields. We are currently seeking collaborators for developing a COMSOL plug-in for Waveller Electromagnetics.
