VIBES Academy
Welcome to the VIBES Academy!
This Academy has been created to provide you with information about our products & technology. If the answer to you questions is not in the Academy, do not hesitate to contact us!
1 Our Methodology
2 Virtual Point
- 2.1 The basics
- 2.2 Why use Virtual Points?
- 2.3 Unique software solution: DIRAC
- 2.4 Workflow
- 2.5 A modular way of working
- 3.1 The basics
- 3.2 Why use Component-based TPA?
- 3.3 General framework for TPA
- 3.4 A modular way of working
1 Getting Started
- 1.1 About DIRAC and this user manual
- 1.2 Licensing & general support
- 1.3 System requirements
- 1.4 Demo project
- 4.1 Module overview
- 4.2 Prepare widgets
- 4.3 Geometries
- 4.4 Sensors and impacts
- 4.5 Virtual Points
- 4.6 VP quality
- 4.7 DAQ and Export buttons
- 4.8 DIRAC-file as a measurement instruction
- 4.9 Using the photo viewer
- 5.1 Module overview
- 5.2 Measurement wizard
- 5.3 Measurement execution: impact locations card
- 5.4 Reviewing data: graphing card
- 5.5 Measurement control: hardware card
- 5.6 Troubleshooting: scope card
- 7.1 Module overview
- 7.2 Using the measurement matrix
- 7.3 Information in the Validate card
- 7.4 Operational deflection shapes
- 7.5 Power user tips
1 Getting Started
2 Quick Reference
3 Technology
- 3.1 Literature
- 3.2 Transfer Path Analysis (TPA)
- 3.3 Source Characterization
- 3.4 Virtual Point: a brief overview
- 4.1 Plot types
- 4.2 Setting the plot style and spectrum options
- 4.3 Data selection
- 4.4 Data averaging
- 4.5 Setting the axes limits
- 4.6 Plot legends
- 4.7 Exporting plots
- 6.1 Module overview
- 6.2 Loading operational data
- 6.3 Reviewing operational data
- 6.4 Using segments & sequences
- 6.5 Channel mapping
- 8.1 General overview on channel mapping
- 8.2 Setting channels as Master channels and editing channels
- 8.3 Mapping channels
1 Getting Started
- 1.1 About the Toolbox for MATLAB
- 1.2 Licensing and general support
- 1.3 Basic commands
- 1.4 Working with VIBES objects
- 2.1 Nodes, DoFs and channels
- 2.2 Dataset classes
- 2.3 Plotting of time data
- 2.4 Plotting of spectral data
- 2.5 Using the 3D environment