About Me
I’m a multifaceted engineer who graduated from UPC with degrees in Industrial Electronics & Automatic Control Engineering and Mechanical Engineering. I have a strong foundation in electromechanical systems, embedded programming (C++, Python, Arduino), automation, ROS-based robotics (including motion planning), 3D design (SOLIDWORKS, ANSYS), data analysis (SQL, NumPy, Pandas), and PCB design with a focus on testing and integration. I’m passionate about UAVs, Industry 4.0, AI-driven automation, predictive maintenance, and solving real-world problems through innovative engineering solutions in smart manufacturing, sustainability, and autonomous vehicles. Eager to contribute to interdisciplinary teams in driving the future of robotics and green tech.
Work Experience
- Engineered C++ control algorithms that boosted robotic system performance and reliability, ensuring seamless integration and compliance with engineering standards.
- Collaborated with multidisciplinary teams to design, build, and test autonomous robots, delivering competition-compliant innovations on tight deadlines.
- Optimized control logic and sensor integration through troubleshooting and debugging, with detailed documentation enabling scalable future projects
- Developed MATLAB application to analyze and optimize vehicle energy consumption, delivering precise insights that drove energy efficiency enhancements.
- Maintained CANalyzer database and implemented Git version control, boosting diagnostic accuracy and workflow consistency.
- Updated and maintained PLC code for refuse collection trucks, improving operational reliability and integration with electromechanical components.
- Delivered technical support for large-scale events (e.g., Recircula Challenge, VEX, II Jornada de Recerca) and online classes serving 3,000+ students, ensuring seamless operations via proactive system maintenance, troubleshooting, and IT solutions.
- Designed and maintained a website for remote connection services, enhancing user accessibility and integration across platforms.
- Upgraded over 350 computers through hardware changes and system configurations, boosting performance, reliability, and overall efficiency
Education
- Engineered C++ control algorithms that boosted robotic system performance and reliability, ensuring seamless integration and compliance with engineering standards.
- Collaborated with multidisciplinary teams to design, build, and test autonomous robots, delivering competition-compliant innovations on tight deadlines.
- Optimized control logic and sensor integration through troubleshooting and debugging, with detailed documentation enabling scalable future projects
- Developed MATLAB application to analyze and optimize vehicle energy consumption, delivering precise insights that drove energy efficiency enhancements.
- Maintained CANalyzer database and implemented Git version control, boosting diagnostic accuracy and workflow consistency.
- Updated and maintained PLC code for refuse collection trucks, improving operational reliability and integration with electromechanical components.
- Delivered technical support for large-scale events (e.g., Recircula Challenge, VEX, II Jornada de Recerca) and online classes serving 3,000+ students, ensuring seamless operations via proactive system maintenance, troubleshooting, and IT solutions.
- Designed and maintained a website for remote connection services, enhancing user accessibility and integration across platforms.
- Upgraded over 350 computers through hardware changes and system configurations, boosting performance, reliability, and overall efficiency
My Portfolio
What My Clients Says
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