CV

My summarized CV.

Basics

Name Luca Di Pierno
Label PhD Candidate Scientist
Email luca.dipierno@aau.at
Url https://github.com/LucaDiPierno/
Summary Robotics PhD student building autonomy for aerial and space robots. My research focuses on multi-agent systems, real-time perception, and collaborative decision-making in GPS-denied environments. I lead a student team at the University of Klagenfurt, developing autonomous systems for search and rescue operations.

Work

  • 2023.03 - 2024.01
    Visitng Researcher
    NASA Jet Propulsion Laboratory
    Visiting researcher at the NASA Jet Propulsion Laboratory, focusing on the development of autonomous systems for space exploration.
    • Robotics
    • Autonomy
    • Space Exploration

Volunteer

  • 2014.04 - 2015.07

    Zurich, Switzerland

    Student Member
    Malwai Village Water Project

Education

  • 2021.09 - 2024.09

    Zurich, Switzerland

    Master of Science
    ETH Zurich, Zurich, Switzerland
    Mechanical Engineering
    • Advanced Robotics
    • Control Systems
    • Machine Learning
    • Computer Vision
  • 2017.09 - 2021.05

    Zurich, Switzerland

    Bachelor of Science
    ETH Zurich, Zurich, Switzerland
    Mechanical Engineering
    • Engineering Mathematics
    • Computer Science
    • Software Engineering
    • Data Structures and Algorithms

Awards

Certificates

Space Holder
2018-01-01
Space Holder
2018-01-01

Publications

Skills

Engineering
Mechanical Engineering
Computer Aided Design
Electrical Engineering
Materials Science
Programming
Pyhton
C++
C

Languages

German
Native speaker
English
Fluent
Italian
Good

Interests

Robotics
Multi-Agent Systems
Real-Time Perception
Adaptive Behavior
Autonomous Navigation
Search and Rescue Operations
Collaborative Decision-Making
GPS-Denied Environments

References

Professor Stephan Weiss
My PhD advisor at the University of Klagenfurt, specializing in aerial robotics and autonomous systems.

Projects

  • 2024.01 - 2026.03
    Sapience
    Indoor Autonomous Multi-Agent Search and Rescue in GPS-Denied Environments
    • Multi Agent Systems
    • Real-Time Perception
    • Collaborative Decision-Making