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VIBES Academy
1 Getting started
- 1.1 Overview
- 1.2 Demo project
- Experimental modal analysis – Algorithm
- Experimental modal analysis in DIRAC – Workflow
- 4.1 Module overview
- 4.2 Prepare widgets
- 4.3 Geometries
- 4.4 Sensors, shakers and impacts
- 4.5 Virtual Points
- 4.6 Virtual Point Transformation
- 4.7 Photo viewer
- 4.8 Wireframes Examples
- 5.1 Module overview
- 5.2 DAQ
- 5.3 Measurement execution: impact locations and shaker control card
- 5.4 Reviewing data: graphing card
- 5.5 Measurement control: hardware card
- 5.6 Troubleshooting: scope card Examples
- 7.1 Module overview
- 7.2 Matrix selections, VPT and post-processing
- 7.3 Measurement Matrix
- 7.4 Validate
- 7.5 Operational Deflection Shapes
- 7.6 Power user tips Examples
- 8.1 Module overview
- 8.2 Performing Modal Analysis
- 8.3 Visualizing results
- Experimental modal analysis – Algorithm
- Experimental modal analysis in DIRAC – Workflow
01 Getting Started
02 Software Releases
03 Modules & Preferences
04 Importing and Organizing Data
05 Channels and Virtual Points
06 Pre-processing
07 3D-Animation
08 Auralization
09 Plotting
- 9.1 Plot types
- 9.2 Creating plots
- 9.3 Managing data in plots
- 9.4 Plot settings
- 9.5 Legends
- 9.6 Chapter management Examples
New articles
Quality checks for source characterization
Checking operational consistency
Checking operational deflection shapes
Checking signal and noise
Creating Virtual Acoustic Prototypes in COUPLE
EMA in DIRAC
What’s new
Getting Started
Quick links
Blocked Force Characterization
- 1 The basics
- 2 Mathematics behind Blocked Forces
- 3 Blocked Forces vs Interface Forces
- 4 Methods to determine Blocked Forces
- 5 Methods to determine interface forces
- 6 Evaluating Blocked Force quality
- 1 Modeling Domains
- 2 Basics of Substructuring Assembly
- 3 Substructuring methods
- 4 Transmission Simulators & decoupling
- 5 Rubber bushing identification using DS
- 6 Combining test-based models with FE models