The third aviation revolution is seeking to enable transportation where users have access to immediate and flexible air travel; the users dictate trip origin, destination and timing. One of the major components of this vision is urban air mobility (UAM) for the masses. UAM means a safe and efficient system for vehicles to move passengers and cargo within a city. In order to reach UAM’s full market potential the vehicle will have to be autonomous. One of the primary challenges of autonomous flight is dealing with off-nominal events, both common and unforeseen; thus, intelligent contingency management (ICM) is one of the enabling technologies. This paper proposes an ICM architecture with associated tools that would help enable the UAM vision.


    Access

    Access via TIB

    Check availability in my library


    Export, share and cite



    Title :

    Intelligent Contingency Management for Urban Air Mobility


    Contributors:
    I. M. Gregory (author) / M. J. Acheson (author) / B. J. Bacon (author) / T. C. Britton (author) / N. H. Campbell (author) / J. W. Cook (author) / J. B. Holbrook (author) / D. D. Moerder (author) / P. C. Murphy (author) / N. A. Neogi (author)

    Publication date :

    2020


    Size :

    21 pages


    Type of media :

    Report


    Type of material :

    No indication


    Language :

    English




    INTELLIGENT CONTINGENCY MANAGEMENT FOR URBAN AIR MOBILITY

    Gregory, Irene M. / Neogi, Natasha A. / Grauer, Jared A. et al. | TIBKAT | 2021


    Intelligent Contingency Management for Urban Air Mobility

    Irene M Gregory / Newton H. Campbell / Natasha A. Neogi et al. | NTRS


    Intelligent Contingency Management for Urban Air Mobility

    I. M. Gregory / M. J. Acheson / B. J. Bacon et al. | NTIS | 2020


    Intelligent Contingency Management for Urban Air Mobility

    Gregory, Irene M. / Neogi, Natasha A. / Grauer, Jared A. et al. | AIAA | 2021


    Intelligent Contingency Management for Urban Air Mobility

    Irene M Gregory / Natasha A. Neogi / Jared Andrew Grauer et al. | NTRS | 2021