04150nam 22006495 450 991033791430332120230810163659.03-030-04565-X10.1007/978-3-030-04565-4(CKB)4100000007522620(MiAaPQ)EBC5638869(DE-He213)978-3-030-04565-4(PPN)233800867(EXLCZ)99410000000752262020190117d2019 u| 0engurcnu||||||||txtrdacontentcrdamediacrrdacarrierThe Science and Practice of Resilience /by Igor Linkov, Benjamin D. Trump1st ed. 2019.Cham :Springer International Publishing :Imprint: Springer,2019.1 online resource (212 pages)Risk, Systems and Decisions,2626-67253-030-04563-3 PartI: Foundations of Resilience -- Chapter1: Risk and Resilience: Similarities and Differences -- Chapter2: Resilience as Function of Space and Time -- Chapter3: Panarchy: Thinking in Systems and Networks -- Chapter4: Lessons from History -- PartII: Resilience Assessment: State of Science and Governance -- Chapter5: Resilience and Governance -- Chapter6: Resilience Quantification and Assessment -- PartIII: Resilience Management: State of Practice and Case Studies -- Chapter7: The State of Practice -- Chapter8: Metrics-based Approaches -- Chapter9: Applications of Network Science and Systems Thinking -- Chapter10: Conclusion. .This book offers a comprehensive view on resilience based upon state-of-the-science theories and methodological applications that resilience may fill. Specifically, this text provides a compendium of knowledge on the theory, methods, and practice of resilience across a variety of country and case contexts, and demonstrates how a resilience-based approach can help further improved infrastructure, vibrant societies, and sustainable environments and ecologies, among many others. Resilience is a term with thousands of years of history. Only recently has resilience been applied to the management of complex interconnected systems, yet its impact as a governing philosophy and an engineering practice has been pronounced. Colloquially, resilience has been used as a synonym for ‘bouncing back’. Philosophically and methodologically, however, it is much more. In a world defined by interconnected and interdependent systems such as water, food, energy, transportation, and the internet, a sudden and unexpected disruption to one critical system can lead to significant challenges for many others. The Science and Practice of Resilience is beneficial for those seeking to gain a rich knowledge of the resilience world, as well as for practitioners looking for methods and tools by which resilience may be applied in real-world contexts.Risk, Systems and Decisions,2626-6725Environmental managementSystem theoryControl theoryEnvironmental sciencesMathematicsEnergy policyEnergy and stateEnvironmental ManagementSystems Theory, Control Mathematical Applications in Environmental ScienceEnergy Policy, Economics and ManagementEnvironmental management.System theory.Control theory.Environmental sciencesMathematics.Energy policy.Energy and state.Environmental Management.Systems Theory, Control .Mathematical Applications in Environmental Science.Energy Policy, Economics and Management.658.155361.1Linkov Igorauthttp://id.loc.gov/vocabulary/relators/aut942553Trump Benjamin Dauthttp://id.loc.gov/vocabulary/relators/autBOOK9910337914303321The Science and Practice of Resilience2294568UNINA