30 August 2023

Training Webinar - On Demand

Get up to speed on how to best use Treble Acoustic Simulation Suite for your acoustic projects.

Learn from our experts

Jesper Pedersen goes through all the steps involved in the modeling workflow and creating acoustic simulations for in-depth analysis. Amongst other things, you will learn:

  • How our simulation engine works
  • How to import your geometries into Treble
  • How to assign materials to your geometry
  • How to input sources and receivers
  • How to set up surface receivers
  • How to analyze acoustic parameters for your simulations
  • How to hear your designs in the Auralizer

Watch the training webinar

Please use the form to to watch the training webinar.

Recent posts

27 September 2023

Live webinar: Treble Success Stories & New Features

Join us for this exclusive webinar where you will hear from some of our customers who have used Treble’s Acoustic Simulation Suite to achieve amazing results in their acoustic design and engineering. Joining us are acoustic experts Bradley Alexander& Ethan Bourdeau, as well as Finnur Pind who will be showcasing the newest features of Treble Acoustic Simulation Suite
19 September 2023

Training Webinar #2

Don’t miss the chance to learn from our CPO, Jesper Pedersen, in a free training webinar on Tuesday 19th of September, at 1.00pm UTC. He will show you how to use Treble Acoustic Simulation Suite effectively for your acoustic projects. You will learn how to import your geometries, compare design iterations in our auralizer, and set source a receiver positions, and much more. You will also have the opportunity to ask questions about Treble.
18 September 2023

Treble simulation of empty rectangular rooms with porous absorbers

The sound field in a rectangular empty room becomes more or less two-dimensional with a porous ceiling absorber since the vertical sound field energy diminishes more quickly than for the horizontal sound field. In such a condition, the porous ceiling absorber can lower the reverberation time effectively at low frequencies. This documentation shows how the sound field changes with two different porous layer configurations in both measurements and treble simulations.