Abstract Future human exploration missions require new concepts of operations since the international roadmap foresees stations with uncrewed periods (e.g. Lunar Gateway) and deep space missions with communication delays making real-time monitoring and control impossible (e.g. any vehicle on its way to or in orbit of Mars). As part of the commitment to achieve human presence in lunar orbit and prepare for missions to Mars, the goal for future operations is to become independent from ground and enable crews to live and work autonomously. However, as a first step towards on-board crew autonomy, the ground segment itself needs to be automated and its functions eventually transferred on-board. For this purpose, this paper introduces a novel tool, based on Columbus operations, conducted at the Columbus Control Center (COL-CC), allowing the interaction between scheduled activities and the commanding infrastructure, by automatically generating a command sequence, transferring the command sequence to the operators’ command interface for inspection and approval, and finally sending the commands to the receiver for execution. This tool is implemented as a ground prototype, in order to show how ground operations can be automated and how such a tool can ultimately lead to increased crew autonomy.

    Highlights Crewed deep-space missions cannot use real-time commanding, due to signal delays. Real-time commanding is shifted from the ground controller to an on-board system. An interface allows interaction between crew, mission timeline and command system. The system is capable of automatically generating commands, based on constraints. An activity database stores all necessary information for activity execution.


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    Titel :

    The road to on-board crew autonomy: Using ISS’ Columbus module as the basis for ground procedure automation


    Beteiligte:
    Hartmann, Carsten (Autor:in) / Speth, Franca (Autor:in) / Sabath, Dieter (Autor:in) / Sellmaier, Florian (Autor:in)

    Erschienen in:

    Acta Astronautica ; 213 ; 603-613


    Erscheinungsdatum :

    2023-09-17


    Format / Umfang :

    11 pages




    Medientyp :

    Aufsatz (Zeitschrift)


    Format :

    Elektronische Ressource


    Sprache :

    Englisch


    Schlagwörter :

    ACS , Automated Command Sequence , API , Application Programming Interface , APID , Application Identifier , B-USOC , Belgian User Support and Operations Center , CCSDS , Consultative Committee for Space Data Systems , COL-CC , Columbus Control Center , CPPDU , CCSDS Path Protocol Data Unit , DMC , Data Management Computer , DMS , Data Management System , DST , Deep Space Transport , ESA , European Space Agency , FLAP , Flight Automated Procedure , EVA , Extra-Vehicular Activity , FDIR , Failure Detection, Isolation and Recovery , FTP , File Transfer Protocol , GPT , Generic Planning Tool , GSOC , German Space Operations Center , GUI , Graphical User Interface , IGS , Interconnected Ground Segment , ISS , International Space Station , JWT , JSON Web Token , LEO , Low Earth Orbit , MCC , Mission Control Center , MCS , Monitoring and Control System , MMC , Mission Management Computer , MPCC , Multi-Purpose Computer and Communication , MTL , Master-Timeline , MTV , Mars Transit Vehicle , NASA , National Aeronautics and Space Administration , NTP , Network Time Protocol , OMPCV , Orion Multi-Purpose Crew Vehicle , OPTIMIS , Operations Planning and Timeline Integration System , OS , Operation System , PI , Principal Investigator , PINTA , Program for Interactive Timeline Analysis , PR , Plan Repository , REST , Representational State Transfer , TC , Telecommand , TCS , Thermal Control Subsystem , TDRS , Tracking Data and Relay Satellite System , TQVS , Testing, Qualification and Validation System , VTC , Vital Telemetry Computer , WebAD , Web Activity Dictionary , Human spaceflight , Spacecraft operations , Crew autonomy , Command interface , Procedure execution , Ground tools



    COLUMBUS CREW TERMINAL

    Petschelt, Stefan | TIBKAT | 2021


    COLUMBUS CREW TERMINAL

    Petschelt, Stefan | TIBKAT | 2021


    System Autonomy Through Ground Operations Automation

    Lecouat, F. / De Saint Vincent, A. | British Library Online Contents | 1996



    System Autonomy Through Ground Operations Automation

    Lecouat, F. / De Saint Vincent, A. / European Space Agency et al. | British Library Conference Proceedings | 1996