Wilhelm, Julia Claire Wolf2024-04-302024-04-302024-04-30vt_gsexam:40122https://hdl.handle.net/10919/118706Systems engineering has many subdisciplines which would be useful to study in terms of complex system behavior. However, it is the interactions between a complex system and its operating environment which drive the motivation for this analysis. Specifically, this work introduces a new approach to assessing these interactions called "boundary resilience." While classical resilience theory measures a system's internal reaction to adverse event, boundary resilience evaluates the impacts such an event may have on the surrounding environment. As the scope of this analysis is quite large, it was deemed appropriate to conduct a case study to determine the fundamental tenants of boundary resilience. SpaceX's satellite Internet mega-constellation (StarLink) was chosen due to its large potential to impact the space environment as well as its size and complexity. This study produced two boundary resilience measures, one for local boundary resilience of a single component and one for the global boundary behavior of the entire system. The local metric measures the likelihood of an adverse event occurring at that boundary location as well as its potential to impact the surrounding environment. The global boundary resilience metric reflects a nonlinear relationship among the system components.ETDenCreative Commons Attribution-NonCommercial-NoDerivatives 4.0 Internationalresiliencemega-constellationcomplexityemergenceboundaryBoundary Resilience: A New Approach to Analyzing Behavior in Complex SystemsDissertation