Systems Engineering in Context 2019
DOI: 10.1007/978-3-030-00114-8_3
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Using Systems Engineering Ilities to Better Understand Resiliency

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Cited by 3 publications
(5 citation statements)
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“…34,36,37 From the perspective of the resilience of engineered Systems of Systems (SoS), resilience can be viewed as an inherent property of the system that is influenced by the SoS components and their behaviors, with an understanding that the resilience of a system is dynamic, and changes as the environment changes. 30 In a similar approach to the NAS definition above, 38 recognize that quality, robustness and agility are components of resilience, and identify repairability, extensibility, flexibility, adaptability, and versatility as how the system achieves robustness after a shock. In addition to these components, Haimes 39 identified also ''the ability to prepare and plan for, absorb or mitigate, recover from, or more successfully adapt to actual or potential adverse events.''…”
Section: Resilience In Dynamic and Contested Environmentsmentioning
confidence: 99%
See 1 more Smart Citation
“…34,36,37 From the perspective of the resilience of engineered Systems of Systems (SoS), resilience can be viewed as an inherent property of the system that is influenced by the SoS components and their behaviors, with an understanding that the resilience of a system is dynamic, and changes as the environment changes. 30 In a similar approach to the NAS definition above, 38 recognize that quality, robustness and agility are components of resilience, and identify repairability, extensibility, flexibility, adaptability, and versatility as how the system achieves robustness after a shock. In addition to these components, Haimes 39 identified also ''the ability to prepare and plan for, absorb or mitigate, recover from, or more successfully adapt to actual or potential adverse events.''…”
Section: Resilience In Dynamic and Contested Environmentsmentioning
confidence: 99%
“…Complex systems are ubiquitous, and, as their operations increasingly take place in contested and dynamic environments, so the need for their resilience becomes critical. 36,38 Modeling and simulation approaches by their nature have become increasingly popular in the analysis of the resilience of complex systems under various attacks and environmental changes, 4,40 with application domains such as energy infrastructures, 41 emergency department planning and analysis, 42 landscape ecology, 43 sociotechnical systems, 44 supply chain management, [45][46][47] and cyber-physical systems (CPS) 48 employing modeling and simulation to study various aspects of resilience. Keane et al 43 proposed the use of discrete event simulation to understand the resilience of emergency departments within hospitals that are facing earthquakes.…”
Section: Modeling Simulation Experimentation and Validationmentioning
confidence: 99%
“…Often these ilities do not exist in isolation and relationships between the ilities become an important factor when attempting to understand the ilities. Previous work also identifies potential linkages between resiliency and the ilites as a means to understand certain aspects of the resiliency curve as well as how engineered systems achieve resiliency . Table presents common definitions for a subset of the systems engineering ilities that apply to this article; however, various sources define the ilities slightly differently.…”
Section: Literature Reviewmentioning
confidence: 99%
“…These ilities assist systems engineers in understanding how a system's nonfunctional attributes can contribute to resiliency. Next, the section discusses the means by which systems achieve resiliency through changeability or versatility . These ilities allow systems to continue to meet stakeholder's expectations and in some cases exceed the previous performance level to demonstrate resiliency.…”
Section: Framework For Applying Ilities To Resiliencymentioning
confidence: 99%
“…16 for a more detailed review. While other aspects of resilience may also include: quality, agility, repairability, extensibility, flexibility, and versatility, here we focus on the three aforementioned aspects of robustness, recovery, and adaptability 16,41 . For this paper, resiliency can be described as: “a system's ability to adjust its activity to retain its basic functionality when errors, failures, and environmental changes occur.” 42 …”
Section: Introductionmentioning
confidence: 99%