Ir. L. (Livio) Carzana
Ir. L. (Livio) Carzana
Profile
PhD on Solar-sail Orbital Dynamics in the Near-Earth Environment
Delft University of Technology, Delft, The Netherlands
November 2020 - Present
Main activities:
- Development of new dynamical models and control strategies to describe the orbital dynamics of solar-sail propelled spacecraft in the near-Earth environment
MSc Thesis Project on Machine Learning-based Trajectory Optimization
FH Aachen University of Applied Sciences, Aachen, Germany
January 2017 - August 2017
Project on the optimization of laser-pushed solar-sail interplanetary trajectories, performed by means of a machine learning-based optimizer. Main activities pursued:
- Design, validation and implementation of a laser-enhanced solar sail thrust model within a machine learning-based trajectory optimizer witten in C++
- Trajectory optimisation and performance analysis of laser-enhanced sailcraft interplanetary missions
- Writing and publication of a paper for the 68th International Astronautical Congress
Academic background
MSc Space Engineering, ’Space Exploration’ Specialization
Delft University of Technology, Delft, The Netherlands
August 2015 - December 2017
BSc Aerospace Engineering
University of Naples ”Federico II”, Naples, Italy
September 2012 - July 2015
Expertise
Publications
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2024
A New Model for the Planetary Radiation Pressure Acceleration for Solar Sails
Livio Carzana / Pieter Visser / Jeannette Heiligers
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2024
Calibration Steering Laws to Estimate the Optical Properties of NASA's ACS3 Solar Sail
L. Carzana / A. Minervino Amodio / P.N.A.M. Visser / W. Keats Wilkie / M.J. Heiligers
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2024
High-fidelity Optimal Control Laws to Characterize the Maneuvering Capabilities of Earth-bound Solar Sails
L. Carzana / P.N.A.M. Visser / M.J. Heiligers
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2023
A New Model for the Planetary Radiation Pressure Acceleration for Optical Solar Sails
L. Carzana / P.N.A.M. Visser / M.J. Heiligers
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2023
Solar-sail Steering Laws to Calibrate the Accelerations from Solar Radiation Pressure, Planetary Radiation Pressure, and Aerodynamic Drag
L. Carzana / W. Keats Wilkie / Andrew F. Heaton / Ben DIEDRICHc Diedrich / M.J. Heiligers
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Ancillary activities
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2020-11-02 - 2025-06-30