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An introduction to
Boundary Element Acoustics - November 15th
 Boundary
element acoustics is a technology used to simulate radiated acoustics.
This web seminar will explain the basic differences between the
finite element method and the boundary element method. The Boundary
Element Method (BEM) effectively reduces complex 3D geometry to 2D surface
dimensions. Only the surface areas of t he structural systems that are
vibrating or scattering sound need to be modeled. The BEM model sizes are
typically limited to a few thousand elements, resulting in relatively
small, easy-to-create, easy-to-check and easy-to-handle models, as opposed
to the complexity of full 3D Finite Element models. These reduced models
also deliver results in a shorter timeframe, allowing users to quickly get
insights in the acoustic performance of their designs.
Once a basic
understanding is obtained some application examples will be shown both in
the presentation and then backed up by a short demonstration using LMS
Virtual.Lab. 15 minutes will also be reserved for a question and answer
session and there is also time available after the web seminar to
talk to the presenter to get further information on Virtual.Lab acoustics
and its technology.
What will you learn:
- The basic difference between Boundary Element Acoustics and Finite
Element Acoustic
- How LMS approaches application examples such as washing machine or
electric motors
Who should attend:
- Management that want a better understanding of Acoustics and how it
can help their work
- New users to acoustics, this short web seminar will give you a
good understanding of what is available and what is possible with
Boundary Element Acoustics
Register for the European session
(10am Brussels time CET)
Register for the US
session (2pm EST
time)
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Introduction
to multi-domain system simulation in LMS Imagine.Lab AMESim - November
15th
 LMS Imagine.Lab AMESim offers a complete 1D simulation platform
to model and analyze multi-domain, intelligent systems and to predict
their multi-disciplinary performance. The components of the model are
described by analytical models representing the hydraulic, pneumatic,
electric or mechanical behavior of the system. To create the system
simulation model in LMS Imagine.Lab AMESim, the user can make use of a
large set of validated libraries of pre-defined components from different
physical domains. The software creates a physics based model of the
system, which doesn’t require a full 3D geometry representation. This
approach gives LMS Imagine.Lab AMESim the capability to simulate the
behavior of intelligent systems long before detailed CAD geometry becomes
available.
LMS Imagine.Lab AMESim has been adopted as the
preferred 1D system simulation platform by major OEMs and suppliers in the
automotive, aerospace and mechanical industries worldwide. The reference
list include companies like General Motors, Toyota, Renault, PSA PEUGEOT
CITROËN, Bosch, Siemens, Delphi, Airbus, Embraer, Dassault, Snecma,
Caterpillar, Komatsu, CNH…
This web seminar starts with a
presentation of the main features and benefits of LMS Imagine.Lab AMESim
platform, and continues with a live demo of the
product.
What will you learn:
The attendee
will learn how leading commercial automotive manufacturers and suppliers
take advantage of latest developments multidomain systems simulation to
accelerate the design and the validation of engine
controls.
Who should attend:
This web
seminar is intended for managers and simulation engineers operating in the
automotive, aerospace and mechanical industries (supplier and
manufacturer) involved in designing, simulating and optimizing intelligent
system.
Duration: The session will last 60 minutes
and includes dedicated time for questions and answers.
Register for the European session
(9am Brussels time CET)
Register for the US
session (11am EST time)
To check out other LMS webseminars, please click
here
For practical information on how our web
seminars work, please click
here
To download or order hardcopy LMS Demo CDs,
Application Cases, etc, please click
here |