About
Computer Engineering student at FEU Institute of Technology with hands-on experience in embedded systems, software development, autonomous systems, and AI technologies.
Passionate about designing intelligent systems that bridge software and hardware to solve real-world engineering challenges. My work spans embedded control systems, IoT solutions, autonomous drones, networking, and machine learning applications.
Through academic projects, certifications, and independent learning, I have developed practical skills in Python, C++, Java, networking fundamentals, telemetry systems, and hardware integration. I enjoy building end-to-end solutions from firmware development and system architecture to deployment and testing.
Currently seeking internship opportunities in Software Engineering, Embedded Systems/Firmware Development, Robotics, IoT, Artificial Intelligence, and AI Engineering.
Projects
ReserveIt – School Facility & Venue Reservation Management System
ReserveIt is a production-ready full-stack web application developed to modernize the reservation process for university facilities and event venues. The platform replaces manual reservation workflows with a centralized online system where students, organization officers, faculty members, and administrators can efficiently request, manage, and approve facility reservations.
Project Highlights
- Secure role-based authentication
- Real-time facility availability
- Online reservation requests
- Reservation approval workflow
- Interactive scheduling calendar
- Dashboard analytics and reporting
- Responsive UI with light and dark mode
SAFET: Smart Automated Fire Detection and Water Suppression System
Designed and developed an Arduino-powered autonomous fire detection and suppression system capable of identifying fire sources and executing targeted response actions. The system integrates flame detection sensors, servo motor control, and a 360° rotating suppression turret to accurately direct water toward detected hazards.
Project Highlights
- Embedded systems programming using Arduino
- Sensor integration and signal-based fire detection
- Servo motor control and automation logic
- CAD-assisted mechanical design
- Custom 3D-printed component fabrication
- System testing, troubleshooting, and iteration
Autonomous UAS: Manual FPV & GPS-Guided Flight
Engineered a custom unmanned aerial system capable of operating in both manual first-person-view mode and autonomous GPS-guided navigation mode. The system utilizes telemetry communication, flight control systems, and sensor integration to enable reliable flight operations across varying mission requirements.
Project Highlights
- Flight controller configuration and calibration
- GPS-based waypoint navigation
- RF telemetry integration
- FPV communication systems
- Autonomous mission planning
- System testing, debugging, and performance optimization
Certifications
Supervised Machine Learning: Regression and Classification
Stanford University & DeepLearning.AI
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AWS Academy Graduate – Cloud Foundations
Amazon Web Services
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CCNA: Switching, Routing, and Wireless Essentials
Cisco Networking Academy
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