Search results
Results from the WOW.Com Content Network
The resilience loss is a metric of only positive value. It has the advantage of being easily generalized to different structures, infrastructures, and communities. This definition assumes that the functionality is 100% pre-event and will eventually be recovered to a full functionality of 100%. This may not be true in practice.
As per W Hidayat, the AQ also has an effect on the student's mathematics understandability. Hence, it is commonly known [by whom?] as the science of resilience. The term was coined by Paul Stoltz in 1997 in his book Adversity Quotient: Turning Obstacles Into Opportunities. To quantify the adversity quotient, Stoltz developed an assessment ...
In the life sciences the term adaptability is used variously. At one end of the spectrum, the ordinary meaning of the word suffices for understanding. At the other end, there is the term as introduced by Conrad, [3] referring to a particular information entropy measure of the biota of an ecosystem, or of any subsystem of the biota, such as a population of a single species, a single individual ...
sustained adaptability: the ability of a system to continue to keep adapting to surprises, over long periods of time; These two concepts are elaborated in Woods's theory of graceful extensibility. Woods contrasts resilience with robustness, which is the ability of a system to deal effectively with potential challenges that were anticipated in ...
Resilience in art, the property of artwork to remain relevant over changing times; Resilience (organizational), the ability of a system to withstand changes in its environment and still function
ISO 22300:2021, Security and resilience – Vocabulary, is an international standard developed by ISO/TC 292 Security and resilience. This document defines terms used in security and resilience standards and includes 360 terms and definitions. [1] [2] [3] This edition was published in the beginning of 2021 and replaces the second edition from ...
Adaptive capacity confers resilience to perturbation, giving ecological and human social systems the ability to reconfigure themselves with minimum loss of function.In ecological systems, this resilience shows as net primary productivity and maintenance of biomass and biodiversity, and the stability of hydrological cycles.
Mathematically, resilience can be approximated by the inverse of the return time to an equilibrium [6] [7] [8] given by (()))where is the maximum eigenvalue of matrix .. The largest this value is, the faster a system returns to the original stable steady state, or in other words, the faster the perturbations decay.