Seminal Resilience Engineering Research
Resilience engineering acknowledges how humans are intimately coupled with complex social, ecological, and technological systems. As such, resilience engineering seminal work considers the dynamic nature of complex adaptive systems by incorporating the social dimension to better understand how these systems might behave in surprise or unexpected conditions. Applications are especially relevant to fields such as emergency management, disaster response, and infrastructure. This seminal work section offers a platform for coalescing diverse concepts and perspectives of resilience that have influenced the emergent field of resilience engineering.
Publications
Holling, C.S. "Engineering resilience versus ecological resilience." Engineering within ecological constraints 31, no. 1996 (1996): 32. ‘Engineering resilience’ is not ‘resilience engineering’. One of the most common mistakes made by experts and newcomers ...
Hollnagel, Erik., Building Research & Information 42, no. 2 (2014): 221-228. Resilience engineering and the Built Environment provides a brief overview of resilience engineering concepts and how they may apply in technological systems ...
Authors: Wears, Robert L., and L. Kendall Webb. Publication: Resilience engineering in practice 2 (2014): 33-46. “Things that never happened before happen all the time” Carl Sagan (1993) ‘Surprise’ underpins all resilience engineering ...
Author: Erik Hollnagel Technical note publication date: 2015 Erik Hollnagel introduced the Resilience Analysis Grid as a method for accessing the resilience of a system by determining how it may perform in both ...
Park, Jeryang, Thomas P. Seager, Palakurth Suresh Chandra Rao, Matteo Convertino, and Igor Linkov. Risk Analysis 33, no. 3 (2013): 356-367. Integrating risk and resilience approaches to catastrophe management in engineering systems provides ...
Edited by Erik Hollnagel, Jean Paréis, David D. Woods, and John Wreathall Resilience Engineering in Practice provides a practical interpretation of a resilient system performance based on the system’s ability to adjust its ...