- 🔭 I’m currently working on ADAS Safety Software
- 🌱 I’m currently learning Rust, Kubernetes and KiCad
- 👯 I’m looking to collaborate on Fault Tolerant Software Architecture for RTOS
- 🤔 I’m looking for help with kubernetes and Javascript
- 💬 Ask me about Open Source Hardware projects
- 📫 How to reach me: linkedin
- ⚡ Fun fact: I build End to End solutions for everyday problems we all face!
| Category | Key Skills |
|---|---|
| Functional Safety | ISO 26262, ASPICE, FMEA/FTA, Medini Analyze, Safety Architecture |
| ADAS Development | AUTOSAR Classic, MagicDraw, Vector CANoe/CANape, Trace32 Debugging |
| EV Powertrain | Hybrid/BEV Control, BSW & App Integration, HCP Calibration |
| Software Development | C/C++, Python, MATLAB/Simulink, Auto-code Generation, CI/CD Pipelines |
| Tools & Protocols | ETAS ISOLAR, Jira, Git, CAN/LIN/SPI, INCA, Lauterbach |
| Emerging Technologies | Computer Vision (YOLO, OpenCV), ROS, 3D Printing, Wireless Sensor Networks |
| Skill | Proficiency | Evidence |
|---|---|---|
| ISO 26262 Compliance | Expert | Leading ADAS Safety Software analysis |
| AUTOSAR Development | Advanced | Production integrations at TCS using Vector Tools |
| C/C++ Programming | Advanced | Safety-critical firmware for production ECUs |
| MATLAB/Simulink | Expert | Developed MAAB guideline checker tool adopted by 150+ engineers Developed Safety Critical Models upto ASIL D |
| Python (OpenCV) | Intermediate | Road sign recognition using YOLO and color thresholding |
| CAN/LIN Protocols | Advanced | Vector toolchain mastery in both roles |
| Devops | Advanced | Deployed High Availability servers here and here |
| Hardware Design | Intermediate | Proficient in developing electronic circuits |
| Tool Category | Tools |
|---|---|
| Safety Analysis | Medini Analyze, Jama Connect |
| Debugging | Vector CANoe/CANape, Lauterbach Trace32 |
| Version Control | Git, IBM Rational Synergy |
| Automotive Middleware | ETAS ISOLAR-A/B, AUTOSAR Classic |
| Calibration | INCA, CANape |
| Hardware | Aurix TC3xx, Raspberry Pi, BeagleBone |
| Project | Key Achievements |
|---|---|
| ADAS Safety Monitor | Performing SW Safety Analysis according to ISO 26262 part 6 ensuring compliance at Ford |
| FMVSS127 - AEB | Developed SW Requirements and implemented Safety Software to achieve compliance with FMVSS127 |
| Medical 3D Printing | Created $12 blood centrifuge prototype with high efficacy |
| Road Sign Recognition | Implemented YOLO-based system using MATLAB/OpenCV |
| Battery Optimization | Enhanced wireless sensor node battery life using KiBam models |
| Category | Details |
|---|---|
| Certifications | TÜV SÜD Functional Safety Engineer (2024) |
| Education | M.S. Electrical Engineering (Michigan Tech, 3.72 GPA) |
| Relevant Coursework | Computer Vision, Automotive Cybersecurity, Adv. 3D Printing |
| Area | Experience |
|---|---|
| Development Processes | V-Model, Agile, ASPICE L2 |
| Safety Standards | ISO 26262 (Part 4,6,9), MISRA-C 2012 |
| Quality Assurance | Model-Based Design, MAAB Guidelines, ASPICE-compliant documentation |
- Leadership: Mentored 4 engineers, scaled tools to 150+ users
- Innovation: 30% validation time reduction through automation
- Problem Solving: Resolved 50+ field issues pre-launch
- Communication: Authored 12+ process documents for cross-team adoption
- Vortexer Mixer : Lab focused Centrifuge Device
- Raspberry Pi Based CCTV : Indoor camera with night vision capability
- Fume Extractor : Fume extracting Device for use in labs
- Pico Based Relay Board : Circuit schematic and PCB design to control HV devices.
- Pico Based Web USB Device : Source code for Pico W to control GPIO pins using a webpage
- JS based Website for WebUSB : web based application for controlling WebUSB devices
