One of the challenges in designing and operating systems composed of interacting components is validating that the emergent behavior of the system does not cause one or more components to migrate, over time, into a hazardous operating state. Many modern airline accidents can be characterized as Interaction Accidents – no component failed, but the interaction of components resulted in a hazardous state.Due to the dependence of time, emergent behavior cannot be evaluated by analysis of the design. In theory it can be evaluated by Digital-Twin agent-based simulations. However, the running these simulations to uncover rare event emergent hazardous states is prohibitive due to: (1) the combinatorics of initial states of each of the components, and the (2) combinatorics of the time dimension (i.e. small variations in timing can result in very different outcomes). Deep Learning Neural Networks (DLNN) have shown promise to capture the underlying combinatoric behavior as well as compress the time dimension.This paper demonstrates the application of DLNN to identify emergent behavior from components with hybrid moded/continuous behavior that plays out over time. DLNNs were trained and tested for three systems with increasing behavioral complexity. The DLNNs accurately were able to represent the time dependent behavior for which they were trained/tested. The DLNNs were also able to learn and predict emergent behavior for behaviors that were not included in the training/testing data (up to 63% of the missing cases). The implications of these results are discussed.


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    Title :

    Potential for Using Deep Learning for Digital-Twin System Validation Testing


    Contributors:
    Sherry, Lance (author) / Ansari, Shamshad (author) / Baldo, James (author) / Berlin, Brett (author) / Shortle, John (author) / Raz, Ali (author)


    Publication date :

    2022-09-18


    Size :

    3904691 byte





    Type of media :

    Conference paper


    Type of material :

    Electronic Resource


    Language :

    English



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