Exact Sciences: An accurate and efficient method of performing wireless temperature calibration
This project has been secured to protect intellectual property.
Login for More InformationWe are creating a product to wirelessly measure the temperature of a Hamilton Heater Shaker for calibration purposes.
Project Overview
Hamilton Heat Shakers are commonly used in lab settings to mix patients samples and reagents. Deep well plates hold 96 samples at a time and can differ in volume. Temperature calibration within these shakers plays a vital role to ensure the samples reach the desired temperature for a certain amount of time. Currently, the temperature calibration mechanism uses thermocouples that are directly connected to a laptop running LabView software. Our goal is to modify this system by using grounded thermocouples along with a wireless communication system. This will allow the temperature readings to be available from everywhere, not just inside the lab.
Team Picture
Contact Information
Team Members
- Caden Chier - Co-Team Leader
- Sofia Fardella - Co-Team Leader
- William Onuscheck - Communicator
- Rachel Trochlell - BSAC
- Chloe Jacobson - BWIG
- Charles Maysack-Landry - BPAG
Advisor and Client
- Prof. Filiz Yesilkoy - Advisor
- Mr. Siddhant Jain - Client
- Mr. Aaron Freis - Alternate Contact
- Mr. Gary Choncholas - Alternate Contact
- Mr. William Ault - Alternate Contact
Related Projects
- Spring 2024: Exact Sciences: An accurate and efficient method of performing wireless temperature calibration
- Fall 2023: Exact Sciences: An accurate and efficient method of performing wireless temperature calibration
- Spring 2023: Exact Sciences: An accurate and efficient method of performing wireless temperature calibration
- Fall 2022: Exact Sciences: An accurate and efficient method of performing wireless temperature calibration