Mission proposals that land on asteroids are becoming popular. However, in order to have a successful mission the spacecraft must reliably and softly land at the intended landing site. The problem under investigation is how to design a fuel-optimal powered descent trajectory that can be quickly computed on-board the spacecraft, without interaction from ground control. An optimal trajectory designed immediately prior to the descent burn has many advantages. These advantages include the ability to use the actual vehicle starting state as the initial condition in the trajectory design and the ease of updating the landing target site if the original landing site is no longer viable. For long trajectories, the trajectory can be updated periodically by a redesign of the optimal trajectory based on current vehicle conditions to improve the guidance performance. One of the key drivers for being completely autonomous is the infrequent and delayed communication between ground control and the vehicle. Challenges that arise from designing an asteroid powered descent trajectory include complicated nonlinear gravity fields, small rotating bodies and low thrust vehicles.


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    Title :

    Rapid Generation of Optimal Asteroid Powered Descent Trajectories Via Convex Optimization


    Contributors:
    Pinson, Robin (author) / Lu, Ping (author)

    Conference:

    AAS/AIAA Aerodynamics Specialist Conference ; 2015 ; Vail, CO, United States


    Publication date :

    2015-08-09


    Type of media :

    Conference paper


    Type of material :

    No indication


    Language :

    English


    Keywords :