Sfoglia per Correlatore BRANDONISIO, ANDREA
Mostrati risultati da 1 a 5 di 5
Assessment of deep reinforcement learning for flexibility enhancement of planetary landing guidance and control : reinforcement learning of policies for reusable launchers planetary landing
2022/2023 Iafrate, Davide
Deep Reinforcement Learning Aided Robotics for Uncooperative Space Asset Grasping and In-Orbit Servicing
2022/2023 D'Ambrosio, Matteo
Deep reinforcement learning towards spacecraft adaptive vision-based autonomous guidance
2020/2021 Capra, Lorenzo
Integrated optical terrain relative navigation for autonomous lunar landing
2023/2024 Parracino, Giovanni Pio
Towards data-driven mission design: harnessing language models for systems engineering activities
2022/2023 Capasso, Roberto
| Fulltext | Data | Tipo | Titolo | Autore (i) |
|---|---|---|---|---|
| 2023-05-04 | Tesi di laurea Magistrale | Assessment of deep reinforcement learning for flexibility enhancement of planetary landing guidance and control : reinforcement learning of policies for reusable launchers planetary landing | Iafrate, Davide | |
| 2023-12-19 | Tesi di laurea Magistrale | Deep Reinforcement Learning Aided Robotics for Uncooperative Space Asset Grasping and In-Orbit Servicing | D'Ambrosio, Matteo | |
| 2022-04-28 | Tesi di laurea Magistrale | Deep reinforcement learning towards spacecraft adaptive vision-based autonomous guidance | Capra, Lorenzo | |
| 2024-07-16 | Tesi di laurea Magistrale | Integrated optical terrain relative navigation for autonomous lunar landing | Parracino, Giovanni Pio | |
| 2024-04-09 | Tesi di laurea Magistrale | Towards data-driven mission design: harnessing language models for systems engineering activities | Capasso, Roberto |
Mostrati risultati da 1 a 5 di 5
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