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Winners of Graphical System Design Achievement Awards for their appplication "Building a Semiautonomous Vehicle Driven by the Visually Impaired
with LabVIEW and CompactRIO"
"A wing of the Biotechnology Technologist – Forensics program currently houses several pieces of equipment, which includes a small number of liquid handler systems. In order for students to gain a better familiarity of their operation, an Adept linear robotics system will be equipped with Hamilton PSD/2 syringe pumps and a CRS gripper. With the addition of a terminal, supply and wash station, the syringe pumps and Adept will operate underneath National Instruments’ LabVIEW software environment. Full documentation regarding the workstation and software operation will be provided"
I'm not sure if this LabView was running the coffee maker or the Pancake Bot. But LabView was running something food-related.
PLC Programming Services requires a specialized professional to input information into the PLC to avoid machine malfunction. This programming is of extreme importance to industrial applications.
(left to right:) Sandeep Masarenhas M.E.M. candidate, Sanath Kumar Periyapatna Balasubramanyam M.E.M. candidate, and William Letson '08 Th'08 designed a labview-based robotics toolkit.
Photo by Douglas Fraser.
For an awesome class called POE we had two weeks to build a simple device to scan a petri dish and determine it's opacity using photoresistors, LEDs, servos, and an Arduino. My partner (Steph Northway) and I made the device. This was our GUI, in LABVIEW with and Arduino library.
The Delta robotic arm is a complex motion control system that uses NI LabVIEW and c Series data acquisition modules
I didn't take this picture, but I thought it was so cool I felt the need to share it. My sister gave her own simple description
"Greycliff, Madison Valley, MT: RadioShack HDTV antenna mounted on a tripod connected to a Tektronix spectrum analyzer which is automated on by a PC using LabView and the measurement of the power (dBm) of each channel is compared to predicted channel power by the FCC."
Rockford Area LabVIEW User Group, group photo taken at Kaney Aerospace Hangar.
The group meets once per quarter to and offers attendees the opportunity to network with other LabVIEW users, learn new LabVIEW features, and see how other companies and individuals in the area are using LabVIEW to solve complex test measurement, and automation problems.
Calendar of events and future meetings at:
decibel.ni.com/content/groups/rockford-area-labview-user-...
(From left to right) Students Zequan Lin, Leslie Igbo, Alison Haskell and Piush Sarkar work on their projects during the Biomedical Instrumentation and Design class (BME and EECS 458) taught by Kathleen Panagis at the BME building on the University of Michigan’s North Campus. Class GSI Julianna Caton (maroon sweater) is helping them.
In this lab section, students began the lab module on electrocardiography. The goal of the module is to build an instrument to acquire an electrocardiogram (ECG) signal from an individual and automatically calculate the person's heart rate. Students are constructing a signal conditioning circuit consisting of an instrumentation amplifier and a bandpass filter. They are also implementing digital filters and peak detection using LabVIEW software.
BIOMEDE 458: In the Biomedical Instrumentation and Design course students design and construct functioning biomedical instruments. They gain experience in designing analog signal conditioning circuits as well as analyzing digital signals. Project modules include measurement of respiratory volume and flow rates, biopotentials (electrocardiogram), and optical analysis of arterial blood oxygen saturation (pulse-oximetry). The different project modules also provide an introduction to sensors and transducers for biomedical applications.
February 22, 2024.
Photo by Marcin Szczepanski/Lead Multimedia Storyteller, Michigan Engineering