| Title | Assured System-Level Resilience for Guaranteed Disaster Response |
| Publication Type | Conference Paper |
| Year of Publication | 2022 |
| Authors | Ornik, Melkior, Bouvier, Jean-Baptiste |
| Conference Name | 2022 IEEE International Smart Cities Conference (ISC2) |
| Keywords | complex systems, control theory, Human Behavior, human factors, network systems, pubcrawl, Real-time Systems, resilience, Resiliency, Scalability, smart cities, smart infrastructure, System Dynamics, System performance, Task Analysis, uncertain systems |
| Abstract | Resilience of urban infrastructure to sudden, system-wide, potentially catastrophic events is a critical need across domains. The growing connectivity of infrastructure, including its cyber-physical components which can be controlled in real time, offers an attractive path towards rapid adaptation to adverse events and adjustment of system objectives. However, existing work in the field often offers disjoint approaches that respond to particular scenarios. On the other hand, abstract work on control of complex systems focuses on attempting to adapt to the changes in the system dynamics or environment, but without understanding that the system may simply not be able to perform its original task after an adverse event. To address this challenge, this programmatic paper proposes a vision for a new paradigm of infrastructure resilience. Such a framework treats infrastructure across domains through a unified theory of controlled dynamical systems, but remains cognizant of the lack of knowledge about the system following a widespread adverse event and aims to identify the system's fundamental limits. As a result, it will enable the infrastructure operator to assess and assure system performance following an adverse event, even if the exact nature of the event is not yet known. Building off ongoing work on assured resilience of control systems, in this paper we identify promising early results, challenges that motivate the development of resilience theory for infrastructure system, and possible paths forward for the proposed effort. |
| Notes | ISSN: 2687-8860 |
| DOI | 10.1109/ISC255366.2022.9922438 |
| Citation Key | ornik_assured_2022 |
Assured System-Level Resilience for Guaranteed Disaster Response