Jordan Bourdeau

MS Student

Jordan Bourdeau
Affiliated Department(s)

Computer Science

Areas of expertise

embedded systems, distributed systems, operating systems, and machine learning

BIO

Jordan is a master's student in computer science working on the CIROH
project, primarily in developing IoT applications to run on low-cost
microcontrollers for detecting rain-on-snow events using acoustic data. As part 
of this work, he has developed:

  • Reliable TDMA protocol for distributed sensor nodes in remote environments to communicate.
  • Full IoT pipeline which reads weather sensors, records & processes acoustic data, predicts precipitation phase, and transmits predictions + sensor readings over a satellite connection.
  • Data pipeline for collecting high-quality sensor/audio data with accurate ground truth provided by a laser disdrometer.
  • Audio recording library to perform high-performance, multi-channel audio recording on AVR microcontrollers.

For his master's thesis, Jordan is developing a network simulator which aims to make
simulating complex IoT applications possible with minimal code changes
while also allowing highly scalable simulations. 

Bio

Jordan is a master's student in computer science working on the CIROH
project, primarily in developing IoT applications to run on low-cost
microcontrollers for detecting rain-on-snow events using acoustic data. As part 
of this work, he has developed:

  • Reliable TDMA protocol for distributed sensor nodes in remote environments to communicate.
  • Full IoT pipeline which reads weather sensors, records & processes acoustic data, predicts precipitation phase, and transmits predictions + sensor readings over a satellite connection.
  • Data pipeline for collecting high-quality sensor/audio data with accurate ground truth provided by a laser disdrometer.
  • Audio recording library to perform high-performance, multi-channel audio recording on AVR microcontrollers.

For his master's thesis, Jordan is developing a network simulator which aims to make
simulating complex IoT applications possible with minimal code changes
while also allowing highly scalable simulations.