Innovative Electrical Engineer with a strong background in industrial automation, control systems, and robotics. Experienced in designing and implementing electrical and communication systems for maritime vessels, automation projects, and robotic competitions.
Proven track record of leading successful projects and securing top placements in international competitions. Skilled in C/C++, Python, and industrial technologies including PLCs, machine vision, and IoT systems.
View ResumeAs the Project Leader in the KKN ABMAS thematic-based activities, I led the development of a Smart and Integrated Water Quality Management System for BUMDES Delta Mina Sidoarjo. This project aims to ensure safe and sustainable water quality for local communities through continuous monitoring and analysis.
The "SeaNaturners" project centers on the development of an advanced Autonomous Underwater Vehicle (AUV) tailored for the predictive maintenance of subsea oil and gas refinery pipelines. This innovative AUV is equipped with state-of-the-art sensors and AI-driven analysis, enabling it to autonomously navigate and monitor pipelines while detecting and preventing potential leaks before they escalate. This proactive approach ensures the safety and integrity of crucial infrastructure located deep beneath the ocean's surface.
Served as an electrical staff for the Autonomous Modular Unmanned Surface Vehicle (USV) HydroOceanography project, responsible for designing and implementing the power schematic and wiring system, including creating the PCB for powering the entire USV. Collaborated with a team of three to ensure proper power distribution across all components, from automation systems to navigation, and ensuring seamless integration and operational efficiency.
I contributed to the Structural Health Monitoring System project, developing a real-time data collection framework and alert mechanisms for structural anomalies. I ensured system reliability through testing, utilizing C++, Python, and PHP, along with expertise in electrical design, embedded systems, and Linux server management.
I contributed to the Structural Health Monitoring System project, developing a real-time data collection framework and alert mechanisms for structural anomalies. I ensured system reliability through testing, utilizing C++, Python, and PHP, along with expertise in electrical design, embedded systems, and Linux server management.
As Senior Electrical Designer for the award-winning Barunastra ITS Roboboat Team, I play a crucial role in the innovation and development of hardware and electrical systems for autonomous robotic vessels. I am responsible for designing and optimizing custom PCB architectures and managing the electrical integrity of the entire robotic system to meet the demands of international competitions.
Acted as the electrical and mechanical consultant, responsible for designing both communication and electrical diagrams for oil navigation vessels. Spearheaded strategic recommendations on system integration, leading to a 30% energy efficiency improvement through optimized battery management and ship maneuvering processes.
I led the development of an integrated project combining STM32, ESP32, and CAN bus communication within a single module. This project involved designing a robust system architecture that facilitates seamless data exchange between the STM32 microcontroller and the ESP32, utilizing the CAN bus for efficient communication in automotive applications. My contributions included programming, circuit design, and implementing protocols to ensure reliable operation and enhanced functionality of the module.
I designed the Power System Architecture for an autonomous maritime vehicle, focusing on efficiency, redundancy, and reliability. This system integrates various components, including thrusters, flight controllers, multi-voltage batteries, voltage regulators, and sensors, to ensure optimal performance in complex operational environments. With a modular approach, the system enables real-time monitoring and failure protection through dedicated protection and monitoring circuits, supporting advancements in marine technology innovation.
