Computer Engineering Technology Student | Embedded & AI Researcher | Hardware Tinkerer
π Core Philosophy: "Ngulik" β I dive under the hood. I don't just make things run; I validate how and why they work, from silicon timing to software architecture.
π 8th Semester @ IPB University | Focused on Undergraduate Thesis & Edge-AI/IoT Integration
| Domain | Stack & Tools |
|---|---|
| Languages | Python (Primary) | C/C++ (Embedded) | Shell |
| Embedded & IoT | ESP32 (ESP-IDF/Arduino) | STM32 | Arduino | I2C | MQTT | REST API |
| AI & Vision | YOLOv8 | Roboflow | CNNs | Fuzzy Logic Systems |
| Infrastructure | Docker & Compose | Relational DBs | Linux Network Admin | Subnetting/DNS/DHCP |
| EDA & CAD | KiCAD 9 | Fusion 360 | Onshape | EasyEDA | Eagle | Proteus |
| Dev Workflow | VS Code | Jupyter | MATLAB | Git | Portainer | Cisco Packet Tracer |
- π Undergraduate Thesis: Designing & validating edge-AI inference pipelines integrated with real-time IoT sensor networks.
- π§ Hardware Prototyping: Custom PCB routing, power budgeting, brownout protection, and strict datasheet compliance.
- π§ Linux & DevOps: Optimizing reproducible development environments via Docker, automated testing, and CI-friendly project structures.
- π Mechatronics Integration: Bridging 3D mechanical models with electronic enclosures for field-deployable prototypes.
- β Academic Rigor: Code & schematics are structured, documented, and ready for thesis submission or peer review.
- π Hardware Safety First: Pin mappings, voltage/current limits, and protocol specs are cross-validated before flashing or powering.
- π§Ή Clean & Secure: PEP 8 compliant,
.env-managed secrets, modular architecture, and deterministic testing pipelines. - π Tool-Aligned Workflow: I prioritize mature, well-documented ecosystems (KiCAD, YOLOv8, ESP-IDF, Docker) to maximize reliability and reproducibility.
π¬ Open to academic discussions, research collaborations, and hardware/software prototyping challenges.
"If it compiles and runs, it's not finished until it's understood."