Tutorials and Model Library
IC.IDO Tutorial - Persistent Experience - Sharing IC.IDO experience outside of application (13.x+)
Persistent Experiences created in IC.IDO allow for the sharing of three degree of freedom (3 DoF) immersive views viewable through WebVR (WebXR) enabled browsers and devices. Using Persistent experience you will be able to export specific view points and recorded interactions from IC.IDO and shar...
Virtual Reality
Basic
IC.IDO Tutorial - Navigating in IC.IDO 13.x and newer
As you get started in IC.IDO, navigating within the Collaborative Virtual Workspace is one of the first challenges to overcome. This tutorial introduces the navigation controls for effective and comfortable navigation while in VR.
Virtual Reality
Basic
CEM-HF Parameters Setting
Basic recommendations (guidelines) for the setting of major CEM-HF parameters
Electromagnetics
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How to calibrate EWK from tensile test data
Guidelines to prepare EWK model in PAM-STAMP
Sheet Metal Forming
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Presto Tutorials
This is a set of basic tutorials to introduce the user to ESI Presto's capabilities.
CFD
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HVAC Duct - FE acoustic
This FE model is representative of a HVAC cylindrical duct.
The aim of this model is to predict average sound pressure along the duct by recovering data on several locations of the duct.
Vibro-Acoustics
Getting Started
Loudspeaker - FE-BEM model
This FE-BEM model is representative of a generic loudspeaker.
The aim of this model is to predict low-frequency noise generated by the loudspeaker due to mechanical excitation .
The loudspeaker is represented by its structure (speaker box) with an enclosed acoustic cavity, and the d...
Vibro-Acoustics
Getting Started
Factory building - SEA model
This SEA model is representative of a generic factory building.
The aim of this model is to predict sound pressure distribution due to airborne noise generated by the heavy machinery in the building interior.
Vibro-Acoustics
Getting Started
Escavator CAB - SEA model
This SEA model is representative of an excavator cab.
The aim of this model is to predict energy flow and sound pressure in the cabin interior due to structure-borne noise.
Vibro-Acoustics
Getting Started
Elevator Cabin - Hybrid FE-SEA Model
This Hybrid FE-SEA model is representative of an elevator.
The aim of this model is to predict structural velocity response of the frame holding the cabin (FE structural modes contribution) and sound pressure in the cabin interior space (Hybrid FE-SEA ) due to structural mount excitation....
Vibro-Acoustics
Getting Started