L0 and L1 Guidance and Path-Following Control for Airborne Wind Energy Systems MCRM Fernandes, S Vinha, LT Paiva, FACC Fontes Energies 15 (4), 1390, 2022 | 4 | 2022 |
Cascade Control of the Ground Station Module of an Airborne Wind Energy System AA Uppal, MCRM Fernandes, S Vinha, FACC Fontes Energies 14 (24), 8337, 2021 | 3 | 2021 |
Automatic Circular Take-off and Landing of Tethered Motorized Aircraft S Vinha, GM Fernandes, HT Nguyen, MCRM Fernandes, FACC Fontes arXiv preprint arXiv:2402.10603, 2024 | | 2024 |
A Discussion on Automatic Take-off and Landing Approaches for Airborne Wind Energy Systems S Vinha, GM Fernandes, FACC Fontes | | 2024 |
L0 and L1 Guidance and Path-Following Control for Airborne Wind Energy Systems. Energies 2022, 15, 1390 M Fernandes, S Vinha, LT Paiva, F Fontes s Note: MDPI stays neutral with regard to jurisdictional claims in published …, 2022 | | 2022 |
Model Predictive Path–Following Control of Airborne Wind Energy Systems with Guaranteed Stability MCRM Fernandes, S Vinha, L Tiago Paiva, FACC Fontes | | 2022 |
Ground Station Control of an Airborne Wind Energy System in a Complete Operational Cycle A Arshad Uppal, MCRM Fernandes, S Vinha, FACC Fontes | | 2022 |
Kite Path–following with L0 and L1 Controllers Tested on a Small-scale Prototype S Vinha, MCRM Fernandes, L Tiago Paiva, FACC Fontes | | 2022 |
Comparison of L0 and L1 path-following controllers for Airborne Wind Energy Systems S Vinha, LT Paiva, FACC Fontes DCE21 13 Symposium on Electrical and Computer Engineering: Book of Abstracts, 13, 2021 | | 2021 |
Activities Report OCTOBER 2020-UPWIND S Vinha | | 2020 |
Activities Report APRIL 2020-UPWIND S Vinha | | 2020 |
Indoor Tracking for Drone SEC Vinha PQDT-Global, 2019 | | 2019 |