MultiDomain model in Coustyx uses the direct boundary integral formulation. The primary variables in this formulation are the pressure and velocity on the surface of the structure. Coustyx multidomain model solves only the interior or the exterior problem at a time. Each mesh should enclose a volume. Go through the following multidomain models to validate Coustyx.

• Acoustic-Structural Coupling
  • Elastic Panel backed by Cavity
  • Plane Wave Scattered by Elastic Sphere
  • A Linear Duct with a Movable Absorbing Wall
  • A Linear Duct with a Movable Rigid Wall
  • Transmission Loss due to a Movable Rigid Wall
• Radiation (Exterior Problems - Boundary Excitation)
  • Sphere
    • Pulsating Sphere
    • Oscillating Sphere
    • Spherical Harmonic Excitation
    • Spherical Baffle
  • Circular Piston in a Plane Baffle
  • Hemisphere in a Rigid Baffle
• Scattering
  • Plane Wave
    • Hard Sphere
    • Soft Sphere
  • Spherical Wave
    • Hard Sphere
    • Soft Sphere
• Penetrable Concentric Spheres
  • Plane Wave Excitation
  • Spherical Wave Excitation
• Interior Problem ( Boundary Excitation)
  • Cube
    • Anechoic Termination
    • Vibrating Face
  • Sphere
    • Pulsating Sphere
    • Oscillating Sphere
• Acoustic Sources (Interior Problems with Acoustic Sources inside)
  • Cube
    • Rigid Cube with a Monopole
    • Rigid Cube with a Dipole
  • Sphere
    • Monopole Off Center
  • Cylinder
    • Rigid Cylinder with a Monopole
• Muffler (Transmission Loss Computations)
  • Simple Expansion Chamber
  • Dissipative Perforated Muffler

• Waveguide
  • Dissipative Duct