I am Andrei,
an Embedded Systems
& Software Engineer
based in Boston, MA.
Recent Personal & Academic Projects
2025 VCU Software & GLV Design
Designed and implemented the Vehicle Control Unit (VCU) software and Grounded Low Voltage (GLV) system for Dartmouth Formula Racing's 2025 competition vehicle. This year's entry is designed to comply with both FSAE Electric and Formula Hybrid & Electric rulebooks. The VCU controls vehicle state and provides high-level motor control, implementing torque vectoring, traction control, and regenerative braking. The GLV system provides power distribution for low-voltage components and ensures safety through isolation monitoring and emergency shutdown mechanisms.
- C
- FreeRTOS
- Systems Design
- Power Electronics
DAQ System & Dashboard
Developed a data acquisition system and real-time dashboard for Dartmouth Formula Racing's 2024-2025 vehicles. The system uses a Raspberry Pi with a custom HAT featuring a 5.1 V DC/DC converter and CAN support. A C backend streams CAN data to a driver-facing UI for real-time visualization and in-vehicle tuning, and a hosted server for real-time telemetry plotting and analysis over LTE.
- CAN Bus
- Data Acquisition
- C
- Web Applications
ENGS 89/90 Capstone Project
A multifaceted project sponsored by the Town of Hanover, NH, to develop a pedestrian and cyclist counting device that can be used to automatically collect data on pedestrian traffic throughout the town. The device uses a combination of normal and IR-sensitive cameras to record video of an area, and uses an NVIDIA Jetson Nano to run a YOLOv8-based object detection model to detect pedestrians and cyclists.
- Python
- OpenCV
- TensorFlow
- PCB Design
DFR 2023/2024 Low Voltage System Redesign
Redesigned the low-voltage electrical system for the Dartmouth Formula Racing 2023-2024 vehicle, replacing a stack of development and relay boards with a single custom control board and unified wiring harness. The new design integrates safety-critical shutdown logic and high-level control functions, was updated to meet current competition rules, eliminates numerous failure modes, improves power efficiency, reduces wiring and weight, and introduces a safer, more maintainable firmware architecture enabling more advanced control algorithms.
- C
- Embedded Systems
- PCB Design
- FMEA
Experience
Enyuare
Electrical & Embedded Firmware Engineer
July 2025 - Present
Own and execute full lifecycle development of complex embedded platforms for client systems, including architecture, RTOS firmware, production-ready hardware, and regulatory compliance, with designs optimized for high reliability and 10+ year product lifetimes.
- Develop RTOS-based embedded firmware, including low-level drivers, task scheduling, power management, diagnostics, and full hardware bring-up across multiple platforms.
- Architect production-ready embedded hardware with high-speed digital and mixed-signal circuitry, RF components, and designs optimized for mass production and long-term reliability.
- Deliver embedded systems meeting FCC and intrinsic safety requirements, with full end-to-end responsibility from prototype to production-ready design.
MIT Lincoln Laboratory
Research Program Intern
June 2024 – Sep 2024
Developed a standardized methodology to quantify microgrid stability and optimizing EV charging configurations.
- Integrated electric vehicle charging equipment with HIL-based microgrid models for accurate grid simulation.
- Developed communication bus reverse-engineering tools to enable integration of new hardware.
- Created high-fidelity simulation of a microgrid installation site with added electric vehicle infrastructure.
Dartmouth College
Teaching Assistant - Embedded Systems
March 2024 - June 2024
Ran weekly lab sessions for ENGS 2 - Embedded Systems, assisting students with lab work and answering questions about the course material.
- Course was taught using AVR microcontrollers and introduced students to basic embedded systems concepts such as GPIO, interrupts, timers, and serial communication.
Plexim
Embedded Engineering Intern
June 2022 - August 2022
Implemented support for the TI Fast Serial Interface module within the PLECS C2000 Target Support Package.
- Researched and tested various module configurations and network layouts using TI C2000 microcontrollers, and developed a method for automatically configuring a network with minimal user input.
- Designed a front-end interface for the module as a part of the C2000 target support package.
- Implemented automatic C code generation for the FSI module in PLECS, with support for PWM synchronization across multiple devices.
Education
Master of Engineering, Computer Engineering
Dartmouth College
June 2025
Bachelor of Engineering, Computer Engineering
Dartmouth College
June 2024
Bachelor of Arts, Computer Science
Wheaton College
May 2023
About
I am an embedded systems engineer with a passion for designing and developing robust and reliable embedded solutions. I enjoy working on real-time systems, firmware programming, and hardware-software integration, particularly in areas like as IoT, automotive, and industrial automation.
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