Research: Novel Low-Cost, High-Performance Resistive Sensor Interface Technologies For Ppb-Level Chemical Detection In Smart-Cities

Authors : Kyle G. Gayliyev
Mentor: Prof. Pierre-Emmanuel Gaillardon, Raven Reitstetter
Date: 26-Aug-2024
Organization: The University of Utah
Course: ECE6950 - Research Project, ECE Department, The University of Utah
GitHub IDs: ggayliye
Repo: https://github.com/ggayliye/air_sensor_research
Date: By 10-December-2024 (Time of when submission is due/will be ready to be evaluated)
Copyright: ECE6950, Kyle G. Gayliyev - This work may not be copied for use in Academic Coursework.

Overview of the project

Progress Notes

Final Notes:

• MATLAB coding for the plots and SNR are complete.
• AI draft code using Phython is complete.

Week2 Notes:

• On Wed Sep 3rd, 2024: Started reading the topic related the PhD student, Matthieu Couriol's, thesis/dissertation
• On Thu Sep 4th, 2024: Met with the scientist Raven who leads the project

Week1 Notes:

• Met with the professor, discussed about the project.
• Met with the team
• Met with the team leader Corinne Garcia about the project and logistics of working in the peoject.
• Participated in the team socializing activity.

All weekly updates will be in it's related folder on top. The last week will include imprivemnets from all weeks.

Future extensions :  

Time Expenditures:

Predicted Hours: 84h		Actual Hours:	will be updated		 

The actual hours recorded on top reflect the time spent for the project including the time spent in labs.

Partnership

Comments to Evaluators:

Thank you for evaluating this project.

Have a wonderful day!

References:

1. “Laboratory for Nanointegrated Systems (LNIS).” GitHub, github.com/lnis-uofu. Accessed 11 Sept. 2024.
   

Useful Abbreviations

• ppb : Part Per Billion
• SWaP: Size, Weight, and Power