Browse Teaching Resources

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Students complete activities that progress from the basics in modeling and control to more complex control strategies like hybrid and digital control. Designed for NI ELVIS III and LabVIEW.
In this lab students will complete hands-on activities to measure, calibrate, and analyze common physical properties/phenomenon. Designed for NI ELVIS III.
Students complete activities that progress from the basics in modeling and control to more complex control strategies like hybrid and digital control. Designed for NI ELVIS III and Simulink®.
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The QNET Energy Conversion board provides an experimental platform to introduce fundamental concepts of power electronics and energy conversion. Designed for NI ELVIS II/II+.
Students complete hands-on activities to control and compare common motors to be equipped to make system design decisions. Designed for NI ELVIS III
Students interact with a complete mechatronic system from low-level integration, through sub-systems and processes, to the higher-level automation algorithms. Designed NI ELVIS III.
RIO Developer Essentials Guide for Academia

by Dr. Ed Doering | Rose-Hulman Institute of Technology

This Guide introduces students to a widely adopted NI RIO technology. Students will write LabVIEW code to communicate between PC hosts, real-time and FPGA targets.
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This set of ABET-aligned labs introduces students to control systems for a servomotor and pendulum. Student design simple to complex models and control systems, and ultimately design and stabilize a...
NI myRIO Vision Essentials Guide

by Dr. Ed Doering | Rose-Hulman Institute of Technology

This manual serves as a guide to the essential techniques necessary for students to add vision to their NI myRIO project. Students complete design projects that interact with the visual world to...
In this set of experiments for the QNET Physics and Dynamics Add-on Board, students learn the basic principles related to physics and engineering dynamics. Designed for NI ELVIS II/II+.