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 the results from one of our tests, in LABVIEW with an Arduino library.

Title: Ozone Detector and Auto Ventilation System

Abstract: The purpose of this project is to design and produce a reliable, easy to install and affordable ozone detector similar to the commercially available carbon monoxide and gas detectors for the home and office. An additional ventilation controller system within our design automatically turns on when ozone levels in the monitored facility exceed acceptable levels, which provides convenience while also allowing users to customize system sensitivity to save energy and money. Our design is composed of a MQ131 Ozone Gas Detection Sensor integrated in a feedback control system that is controlled by an MSP430 microcontroller manufactured by Texas Instruments. An Xbee wireless transmitter is connected to the detector while Xbee wireless receivers are installed on a ventilation system and computer to control the ventilation system and allow users to directly ozone levels and system sensitivity, respectively. Key results from our project include the Labview monitoring program and a preliminary system design.

Foro Industrial Metal Mecánico Hispano

www.comunidadindustrial.com

Title: Ozone Detector and Auto Ventilation System

Abstract: The purpose of this project is to design and produce a reliable, easy to install and affordable ozone detector similar to the commercially available carbon monoxide and gas detectors for the home and office. An additional ventilation controller system within our design automatically turns on when ozone levels in the monitored facility exceed acceptable levels, which provides convenience while also allowing users to customize system sensitivity to save energy and money. Our design is composed of a MQ131 Ozone Gas Detection Sensor integrated in a feedback control system that is controlled by an MSP430 microcontroller manufactured by Texas Instruments. An Xbee wireless transmitter is connected to the detector while Xbee wireless receivers are installed on a ventilation system and computer to control the ventilation system and allow users to directly ozone levels and system sensitivity, respectively. Key results from our project include the Labview monitoring program and a preliminary system design.

OLYMPUS DIGITAL CAMERA

Product marketing manager for LabVIEW Micro as well as the medical segment lead at National Instruments

Prove Pratiche di acquisizione dati con LabVIEW e CompactDAQ

實驗室進門(左kiwi，中GW，右Dusk)，不是NI公司的Labview。

Upcoming sySTEMic challenges include programming a robotic arm in real world to achieve a task by using virtual world controls.

Robot, made by Denso Robotics and NI Alliance Partner ImagingLab, automated and controlled with LabVIEW 2009

Foro Industrial Metal Mecánico Hispano

www.comunidadindustrial.com

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 this scanner. Here you can see the back panel of the GUI, in LabVIEW with an Arduino library.

I. Grosso - TESEO

bit.ly/1GKDCRk

Matteo Bambini, Marketing Manager: "Abbiamo anche chiesto ai nostri Beta tester un parere su LabVIEW: "Ci spiace ma questa versione beta era così buona che gli unici bug trovati erano quelli che abbiamo introdotto noi stessi!" Così, per dirla in modo conciso, pensiamo che LabVIEW 2011 sia una delle versioni più stabile e robuste che abbiamo mai rilasciato

foto por Patricia Cardoso

An electric bike with a CompactRIO for a brain. I didn't hear the whole speech, but it used LabView and a few sensors to determine load and balance electric and human power.

When you quit pedaling the pedals would stay put while the motor continues to drive the chain. There was some sort of ratchet built into the crank so the front gears could spin w/o the pedals.

Jeff Kodosky, National Instruments Cofounder and Business and Technology Fellow, and the inventor of LabVIEW

delicious... stay tuned for temperature monitoring, DAQ, and some possible modifications - I'm thinking remote LabVIEW control via the internet

To monitor machinery or drive machinery we often use off the shelf devices like this 1208 FS from Measurement Computing which comes with Microsoft Visual Studio & LabView sample code and driver libraries.

Students Montana Lyjak (dark grey UM sweatshirt) and Aabia Hasanwork (light grey UM sweatshirt) work on their project while Lindsay Chen (first left) and Leon Wagner work on theirs 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.

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

Prove Pratiche di acquisizione dati con LabVIEW e CompactDAQ

S. Cerchio 1, S. Spizzi 1, G. Allegretti 2, A. Musso 2,

G. Fogliato 2 – CENTRO RICERCHE FIAT 1, FIAT GROUP AUTOMOBILES 2

Strumenti di test “General Purpose” per lavalidazione di sottosistemi automotive

Students Lana Sara (grey sweater) and

Grace Whah (Greta Van Fleet T-shirt) work on their project 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.

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

Elija Kerry, LabVIEW Senior Product Manager, Certified LabVIEW Architect: "una piattaforma, milioni di applicazioni. Ecco come potrebbe essere la versione futura di LabVIEW"