search-head

You are here: Homepage >  Search

    SIMULATION COMPARISON OF ENTRY AND POWERED DESCENT GUIDANCE ALGORITHMS FOR A HUMAN-SCALE MARS MISSION

    SIMULATION COMPARISON OF ENTRY AND POWERED DESCENT GUIDANCE ALGORITHMS FOR A HUMAN-SCALE MARS MISSION


    Large uncertainty in atmospheric conditions at Mars make entry, descent, and landing a challenging task for human-scale missions that require safe and precise landing. Since the knowledge of the actual conditions is limited by the navigation system of the vehicle, guidance algorithms capable of accommodating these types of dispersions are critical to develop future human missions to Mars. This paper focuses on the performance comparison of two state-of-the-art numerical predictor-corrector (NPC) entry guidance algorithms and guidance approaches: one uses direct-force control and the other the conventional bank-angle control. The algorithms are applied to a reference human-scale Mars mission. Both algorithms are implemented in the Program to Optimize Simulated Trajectories II at the Langley Research Center. Three degree-of-freedom end-to-end simulations of the low lift-to-drag ratio NASA reference entry vehicle are used to compare the performance of both algorithms. Monte Carlo simulations enable performance comparison by introducing dispersions that the guidance algorithms must accommodate. The results from this study provide a comparative assessment of the current EDL guidance capability for human-scale Mars Mission.

    Access

    Check access

    Check availability in my library

    Order at Subito €

    Export, share and cite

    Document information

    Title :

    SIMULATION COMPARISON OF ENTRY AND POWERED DESCENT GUIDANCE ALGORITHMS FOR A HUMAN-SCALE MARS MISSION

    Contributors:
    Sandnas, Matt (editor) / Spencer, David B. (editor) / Sandoval, Sergio A. (author) / Lugo, Rafael A. (author) / Lu, Ping (author) / Cianciolo, Alicia D. (author)
    Published in:

    Proceedings of the 44th Annual American Astronautical Society Guidance, Navigation, and Control Conference, 2022 ; Chapter : 54 ; 945-962

    Advances in the Astronautical Sciences ; 179

    Publication date :

    2024-01-01

    Size :

    18 pages

    ISBN :

    978-3-031-51928-4 , 978-3-031-51927-7

    ISSN :

    2731-0884 , 2731-0876

    DOI :

    https://doi.org/10.1007/978-3-031-51928-4_54

    Type of media :

    Article/Chapter (Book)

    Type of material :

    Electronic Resource

    Language :

    English

    Keywords :

    Engineering , Aerospace Technology and Astronautics , Astronomy, Astrophysics and Cosmology , Physics and Astronomy

    Similar titles

    Fuel-Optimal Guidance for End-to-End Human-Mars Entry, Powered-Descent, and Landing Mission

    Wan, Changhuang / Jing, Gangshan / Dai, Ran et al. | AIAA | 2020

    Fuel-Optimal Guidance for End-to-End Human-Mars Entry, Powered-Descent, and Landing Mission

    Wan, Changhuang / Jing, Gangshan / Dai, Ran et al. | IEEE | 2022

    Onboard fuel-optimal guidance for human-Mars entry, powered-descent, and landing mission based on feature learning

    You, Sixiong / Wan, Changhuang / Dai, Ran et al. | Elsevier | 2022

    Entry, Descent, and Landing Guidance and Control Approaches to Satisfy Mars Human Mission Landing Criteria

    A. Dwyer Cianciolo / R. W. Powell | NTIS | 2017

    Entry, Descent, and Landing Guidance and Control Approaches to Satisfy Mars Human Mission Landing Criteria

    Dwyer Cianciolo, Alicia / Powell, Richard W. | NTRS | 2017

    Access

    Check access

    Check availability in my library

    Order at Subito €

    Page navigation

    Document information

    Similar titles

    Export, share and cite