In the fields of engineering and construction, resilience is the ability to absorb or avoid damage without suffering complete failure and is an objective of design, maintenance and restoration for buildings and infrastructure, as well as communities. A more comprehensive definition is that it is the ability to respond, absorb, and adapt to, as well as recover in a disruptive event. A resilient structure/system/community is expected to be able to resist to an extreme event with minimal damages and functionality disruptions during the event; after the event, it should be able to rapidly recovery its functionality similar to or even better than the pre-event level.
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| - Resilienz (Ingenieurwissenschaften) (de)
- Resilience (engineering and construction) (en)
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| - Resilienz (von lateinisch resilire: zurückspringen, abprallen, nicht anhaften) bezeichnet in den Ingenieurwissenschaften die Fähigkeit von technischen Systemen, bei Störungen bzw. Teil-Ausfällen nicht vollständig zu versagen, sondern wesentliche Systemdienstleistungen aufrechtzuerhalten. In einem Teil der Literatur wird Resilienz weiter verstanden. Dort geht es um die Realisierung eines neuen Systemzustands, der gegenüber dem Ausgangszustand ein sogar verbessertes Systemverhalten aufweist. So verstanden, beinhaltet Resilienz eine inhärente Lern- und Entwicklungsfähigkeit von Systemen. (de)
- In the fields of engineering and construction, resilience is the ability to absorb or avoid damage without suffering complete failure and is an objective of design, maintenance and restoration for buildings and infrastructure, as well as communities. A more comprehensive definition is that it is the ability to respond, absorb, and adapt to, as well as recover in a disruptive event. A resilient structure/system/community is expected to be able to resist to an extreme event with minimal damages and functionality disruptions during the event; after the event, it should be able to rapidly recovery its functionality similar to or even better than the pre-event level. (en)
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| - Resilienz (von lateinisch resilire: zurückspringen, abprallen, nicht anhaften) bezeichnet in den Ingenieurwissenschaften die Fähigkeit von technischen Systemen, bei Störungen bzw. Teil-Ausfällen nicht vollständig zu versagen, sondern wesentliche Systemdienstleistungen aufrechtzuerhalten. In einem Teil der Literatur wird Resilienz weiter verstanden. Dort geht es um die Realisierung eines neuen Systemzustands, der gegenüber dem Ausgangszustand ein sogar verbessertes Systemverhalten aufweist. So verstanden, beinhaltet Resilienz eine inhärente Lern- und Entwicklungsfähigkeit von Systemen. (de)
- In the fields of engineering and construction, resilience is the ability to absorb or avoid damage without suffering complete failure and is an objective of design, maintenance and restoration for buildings and infrastructure, as well as communities. A more comprehensive definition is that it is the ability to respond, absorb, and adapt to, as well as recover in a disruptive event. A resilient structure/system/community is expected to be able to resist to an extreme event with minimal damages and functionality disruptions during the event; after the event, it should be able to rapidly recovery its functionality similar to or even better than the pre-event level. The concept of resilience originated from engineering and then gradually applied to other fields. It is related to that of vulnerability. Both terms are specific to the event perturbation, meaning that a system/infrastructure/community may be more vulnerable or less resilient to one event than another one. However, they are not the same. One obvious difference is that vulnerability focuses on the evaluation of system susceptibility in the pre-event phase; resilience emphasizes the dynamic features in the pre-event, during-event, and post-event phases. Resilience is a multi-facet property, covering four dimensions: technical, organization, social and economic. Therefore, using one metric may not be representative to describe and quantify resilience. In engineering, resilience is characterized by four Rs: robustness, redundancy, resourcefulness, and rapidity. Current research studies have developed various ways to quantify resilience from multiple aspects, such as functionality- and socioeconomic- related aspects. The built environment need resilience to existing and emerging threats such as severe wind storms or earthquakes and creating robustness and redundancy in building design. New implications of changing conditions on the efficiency of different approaches to design and planning can be addressed in the following term. Engineering resilience has inspired other fields and influenced the way how they interpret resilience, e.g. supply chain resilience. (en)
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