Abstract Chandrayaan-2, being the sequel of Indian Lunar Mission, differs with Chandrayaan-1 in targeting a specific lunar orbit. The primary ground trajectory design objective is to achieve the desired lunar orbit, from which the lander attempts soft-landing on the pre-selected landing site. The target lunar orbit is designed such that while landing, the Sun elevation rise angle is 6° on the desired site. This is to ensure the lander touchdown is close to sunrise, which in-turn will maximize the lander mission life to one lunar solar day (approximately 14 Earth days). This makes the Chandrayaan-2 trajectory design unique and challenging in itself. The maneuver strategy has been worked out to acquire the specific target lunar orbit. The objective of the powered descent phase is soft-landing over the desired site satisfying all the sensor constraints. This multi-phase lunar landing optimal control problem has been solved for trajectory design of the powered descent phase. Based on this design, the Chandrayaan-2 spacecraft has been launched on July, 2019 UT and successfully rendezvoused with the Moon on August, 2019 UT and has attempted a soft-landing on September, 2019 UT.
Highlights Chandrayaan-2 ground trajectory design considering mission constraints A practical approach proposed for designing the target lunar orbit A detailed summary of executed Chandrayaan-2 maneuvers A brief summary of the Chandrayaan-2 spacecraft – hardware as well as payloads
ISRO’s Unprecedented Journey to the Moon
Acta Astronautica ; 177 ; 286-298
2020-07-28
13 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
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