Given the complex nature of today’s electronic devices, verification of performance and compliance with standards has become an increasingly time consuming burden and barrier to market launch.
Please join us for this free seminar where engineers from MathWorks and Agilent will use live demonstrations and worked examples to highlight how to streamline your workflow and enhance capabilities by connecting MATLAB with Agilent instruments. During the breaks you will have time to network with industry colleagues and speak with engineers from MathWorks and Agilent Technologies.
Who Should Attend
This seminar is recommended for: Engineers and scientists involved in test, evaluation and characterisation C, C++ and MATLAB users who need to analyse and visualise captured data Users of oscilloscopes, signal sources, signal analysers, data acquisition boards and other instruments Being a current user of MathWorks or Agilent products is not required.
Seminar Highlights
This seminar will help you to: Design and automate test and measurement applications in MATLAB Run algorithms directly on Agilent instruments Learn about new capabilities for RF test and measurement Discover MATLAB extensions for signal processing and communications applications Because this is a jointly hosted seminar, MathWorks and Agilent will share registration information. Agenda 09.30- 10:00 Registration and Coffee 10:00 - 10:10 Introduction 10:10 - 11:10 Introduction to MATLAB and Instrument Connectivity Import data into MATLAB from static files and live instruments Automate data analysis, visualisation and reporting Rapidly Prototype Graphical User Interfaces for hardware connectivity
Case study:
Design and validate a custom Test and Measurement application
- 11:10 - 11:30 Coffee Break
- 11:30 - 12:30 Controlling General Purpose Instruments Review of instrument connectivity standards Introduction to general purpose instruments User Defined Function for application-specific measurements
Case study:
Automated channel optimisation
- 12.30 - 13.30 Lunch
- 13:30 - 14:45 Overview of RF Instruments in System Development and Prototyping Use RF instruments for development, design validation and block diagram substitution Enhance the capability of RF instruments with MATLAB Control RF instruments with MATLAB for performance testing and test reports generation
Case study:
Instrument Control for TOI measurements.
Case study:
RF Signal Capture, Transmission and Playback.
- 14:45 - 15:00 Coffee Break
- 15:00 - 16:00 Developing and Testing Signal Processing and Communications Systems with MATLAB Use MATLAB for signal processing and communications applications Capture and verify implementation-related choices (e.g. fixed point) ahead of time Generate embeddable source C code from MATLAB algorithms
Case study: Develop Digital Pre-Distortion filters for RF applications
Case study: Deploy Signal Processing algorithms onto embedded platforms
- 16:00 Summary and Close