Participants will gain a solid foundation in LabVIEW, understanding its graphical programming environment and core concepts. They will learn how to navigate the LabVIEW interface, create and manage Virtual Instruments (VIs), and utilize basic programming structures such as loops, case structures, and event handling. The seminar will cover data acquisition techniques, signal processing, and data visualization, enabling attendees to develop functional applications for measurement and automation tasks. Additionally, participants will explore best practices for debugging and optimizing LabVIEW programs, ensuring efficient and reliable performance. By the end of the seminar, participants will be equipped to design and implement basic LabVIEW applications tailored to their specific engineering and scientific needs.
Integrating with hardware devices (DAQ devices, sensors)
Basic signal processing techniques
Data Visualization and Analysis
Creating graphs and charts
Implementing real-time data monitoring
Data logging and storage solutions
Control Systems and Automation
Designing control loops
Implementing PID controllers
Automating measurement and control tasks
Debugging and Optimization
Debugging techniques and tools in LabVIEW
Optimizing VI performance
Best practices for efficient programming
Advanced Features (Introduction)
State machines and sequential programming
Integrating LabVIEW with other software (MATLAB, Python)
Introduction to LabVIEW Real-Time and FPGA modules
Best Practices and Project Management
Organizing LabVIEW projects
Version control and collaborative development
Documentation and code maintenance
Exercises
Exercise 1: Building a Simple Data Acquisition VI
Description: Create a VI that acquires data from a simulated sensor, processes the signal, and displays the results in real-time on the front panel.
Result: Participants will develop a functional data acquisition application, demonstrating their ability to integrate data acquisition, signal processing, and data visualization within LabVIEW.
Exercise 2: Designing an Automated Control System
Description: Develop a VI that implements a basic PID control loop to maintain a simulated temperature at a setpoint, including real-time monitoring and adjustment capabilities.
Result: Attendees will create an automated control system, showcasing their skills in designing control loops, implementing PID controllers, and managing real-time data within LabVIEW.
Dauer/zeitlicher Ablauf:
3 Tage
Zielgruppe:
This seminar is ideal for engineers, scientists, researchers, technicians, and students who are new to LabVIEW or seeking to enhance their foundational skills in this powerful graphical programming environment. It is perfect for individuals involved in data acquisition, instrument control, automation, and those looking to streamline their workflow with LabVIEW's intuitive interface and robust capabilities
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