Operations-driven low-thrust trajectory optimization with applications to DESTINY+
DA Dei Tos, T Yamamoto, N Ozaki, Y Tanaka… - AIAA SciTech 2020 …, 2020 - arc.aiaa.org
Solar electric propulsion is a key enabling technology that has improved the efficiency of
space transport. With specific impulses that are typically ten times higher than the chemical …
space transport. With specific impulses that are typically ten times higher than the chemical …
Multiple-Target Low-Thrust Interplanetary Trajectory of
O Çelik, DA Dei Tos, T Yamamoto, N Ozaki… - Journal of Spacecraft …, 2021 - arc.aiaa.org
DESTINY+ is a medium-class interplanetary mission, selected by the Japan Aerospace
Exploration Agency for potential launch windows in the first half of 2020s. The mission will …
Exploration Agency for potential launch windows in the first half of 2020s. The mission will …
[PDF][PDF] Multi-objective design optimization of DESTINY+ spiral trajectory in consideration of the diversity of launch date and time
H INAZUKA, D SASAKI, A OYAMA, T YAMAMOTO - jaxa.repo.nii.ac.jp
DESTINY+ は, JAXA が開発を進める深宇宙探査技術実証機である. ミッションを達成するためには
, DESTINY+ が地球から月までのフェーズでスパイラル軌道を最適化する必要がある. 本研究では …
, DESTINY+ が地球から月までのフェーズでスパイラル軌道を最適化する必要がある. 本研究では …
打ち上げ日時の多様性を考慮したDESTINY+ スパイラル軌道の多目的設計最適化
稲塚遥香, 佐々木大輔, 大山聖… - … 部門講演会講演論文集 …, 2021 - jstage.jst.go.jp
抄録 DESTINY+(Demonstration and Experiment of Space Technology for INterplanetary
voYage, Phaethon fLyby and dUSt analysis) is a small-sized high-performance deep space …
voYage, Phaethon fLyby and dUSt analysis) is a small-sized high-performance deep space …