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I am currently in my final year of completing a double degree in Electrical and Computer Systems Engineering (ECSE) and Science with an extended major in Computational Science at Monash University.

Soon after starting university, I joined Monash Human Power (MHP) as a member of the hardware electrical subteam. I am currently the hardware electrical subteam lead.

Below are a few engineering related projects and experiences that I have been involved in.

Projects and posts

  • Final year project - cycling power meter and crankset

    In 2024, I completed the final year project (FYP) for my degree, working with Oscar Varney to develop a power meter and crank-set for Human Powered Vehicles (HPVs).

  • Dashcam hacking

    Like many IoT devices, Dad’s dashcam is highly customisable in ways that the manufacturer may not have originally intended.

  • Tractor watchdog

    We use an early 1960s Fordson Dexta tractor to run the irrigation pump. During a day when we are irrigating, the tractor can often be left running for extended periods of time between checks. If something were to go wrong such as a loss of oil or the engine overheating, then the system should be shut down as quickly as possible to minimise damage. I have designed and built an engine watchdog for this tractor that monitors various engine parameters and shuts it down if something is wrong. I snuck this project in as part of FIT3146 (Makerlab) in semester 2 2023.

  • Farm sensor network

    On our family farm I have set up a network of remote sensors to assist with the monitoring of various pieces of equipment and to be on the lookout for any potential issues or ways to improve productivity. This sensor network uses the PJON protocol over LoRa radio to communicate. Back at the house, a base station receives messages from the sensors and passes them on to a Thingsboard dashboard where the data is displayed and managed. The base station can also transmit commands back to the sensors as required.

  • FIT3179 Data visualisations

    I had to make a couple of data visualisations over the course of the FIT3179 data visualisation unit I completed in Semester 2 2023.

  • World Human Powered Speed Challenge

    In September 2023, Monash Human Power (MHP) competed for the first time in the World Human Powered Speed Challenge (WHPSC). I was fortunate to be among the 16 team members who travelled to Battle Mountain in Nevada, USA to compete with our bike Bilby, also known as V3. We had a fantastic time, did a lot of talking to people from across the world also involved with weird bicycles and broke a record in the process.

  • TunePlayer Arduino library

    An Arduino library to decode and play simple tunes. This library was written for use in the musical bicycle siren and has since been used in other projects as well. It is inspired by the tune command from PICAXE microcontrollers, however has more functionality and uses a different encoding scheme.

  • Paddock plantation timelapse

    Back in July 2020, I set up an old phone and an assortment of other parts in a new tree plantation to watch the trees (and grass) grow. Over the following three years it has taken well over 196,000 photos.

  • LCDGraph Arduino Library

    An Arduino library for drawing line graphs on alphanumeric displays using custom characters

  • Solar MPPT Battery charger

    This project was to build a battery charger to stop my Grandparent’s tractor’s battery from going flat over the winter when it was not in use. The charger’s main claim to fame is that it is designed to charge batteries from solar panels that provide a lower voltage output than the battery requires. The charger currently provides power for a solar-powered electric fence.

  • Musical bicycle siren

    A “musical” siren for bicycles. This design was published in the Circuit Notebook section of the February 2022 issue of the Silicon Chip magazine.

  • Human Powered Vehicle racing (high school)

    I was a member of the Kingswood College Human Powered Vehicle (HPV) racing team for three years from 2017 to 2019. We competed in three races each year, culminating in the Energy Breakthrough held in Maryborough. This contains a 24-hour endurance race where a team of eight riders complete as many laps as possible on a track with often over 100 vehicles on it.

  • Cosmic watch muon detectors

    In year 11, my physics teacher asked if I could build a Cosmic Watch muon detector to assist with proving the effects of special relativity.

  • HPV Simulator

    The Human Powered Vehicle (HPV) simulator is mainly a joke from year 10 that I spent way too much time on. This was developed using Unity and contains models that I and some friends made.

  • Model solar car racing

    For five years I designed, built and raced model solar cars. This was part of the Victorian Model Solar Vehicle Challenge (VMSVC) held at Scienceworks and the Australian-International Model Solar Vehicle Challenge (AIMSVC).