Abstract This paper presents a computational methodology to predict the satellite system-level effects resulting from impacts of untrackable space debris particles. This approach seeks to improve on traditional risk assessment practices by looking beyond the structural penetration of the satellite and predicting the physical damage to internal components and the associated functional impairment caused by untrackable debris impacts. The proposed method combines a debris flux model with the Schäfer–Ryan–Lambert ballistic limit equation (BLE), which accounts for the inherent shielding of components positioned behind the spacecraft structure wall. Individual debris particle impact trajectories and component shadowing effects are considered and the failure probabilities of individual satellite components as a function of mission time are calculated. These results are correlated to expected functional impairment using a Boolean logic model of the system functional architecture considering the functional dependencies and redundancies within the system.

    Highlights ► A process to assess satellite risk posed by untrackable space debris is presented. ► Method predicts likelihoods of component failure and loss of system functionality. ► Individual particle trajectories and component shadowing effects are considered. ► The SRL ballistic limit equation is used to model component impact survivability. ► Results provide satellite designers with new information to mitigate overall risk.


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    Title :

    Computational methodology to predict satellite system-level effects from impacts of untrackable space debris


    Contributors:
    Welty, N. (author) / Rudolph, M. (author) / Schäfer, F. (author) / Apeldoorn, J. (author) / Janovsky, R. (author)

    Published in:

    Acta Astronautica ; 88 ; 35-43


    Publication date :

    2013-01-28


    Size :

    9 pages




    Type of media :

    Article (Journal)


    Type of material :

    Electronic Resource


    Language :

    English





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