Digital Cities Roadmap. Группа авторов

Digital Cities Roadmap - Группа авторов


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evidence is practically available. The cumulative effects of type 2 hazards may be triggered. Examples include volcano eruptions, meteor collisions, solar storms of extreme severity, rapid temperature change as well as significant terrorist activities.

       1.5.3 Quantification of Resilience

      The literature includes a fairly wide number of ideas for modeling and quantifying network durability, e.g. Cimellaro et al. [60], Linkov et al. [59], Sharma et al. [61] and Tamvakis and Xenedis [62]. The proposed models are more commonly aimed at the short-term reflection of the system’s capacity to withstand and rebound from disruptions, without major output loss and without outside assistance, usually, the emphasis on the portrayal of resilience models.

      For impact on service delivery of the stated perturbations and on recovery characteristics in relation to service grade recovered against period and overall service failure, see Figure 1.6.

      Until recently only the modeling of processes to rebound from disruptions has been granted tacit attention. Neither the functional failure nor rather the production of capability that is critical to the productive, yet quick reorganization, change, yet recovery following disruptions and danger events will take account of processes flexibility providing a life cycle gain in the flexibility model described in Faber and Qin [57]. See Figure 1.6.

      Figure 1.6 Quantification of resilience.

       1.5.4 Quantification of Sustainability

      Addressing biodiversity includes a shared analysis of the implications of inter-generational and intra-generational inequality on the environment, public safety and wellbeing, financial circumstances and extension of natural capital [45, 46, 48, 49]. In relation to the consequences currently discussed in resilience models, the emphasis is on whether changes on the ecosystem should be taken into consideration.

      The theory behind this is to extend the Planetary Boundaries principle as a way to reflect the Earth‘s capabilities which are essential to continuing social growth, as we know it today. The Planet Life Support System (ELSS) is the following features of the Earth system. It is often believed that device states and the associated effects linked to the effect on the environmental quality, which put strain on the ELSS, may be attributed to every alternate decision concerning the configuration and the management of an integrated system. This relationship may be built in the sense of product production following Hauschild [63], by Life Cycle Analysis, as implemented in support of QSAs. Figure 1.7 demonstrates the definition.

      Another important point of this article is that due to lack of knowledge and inherent natural variability the resilience and sustainability of engineered systems can only be proven and probabilistically modeled in a meaningful way. As a result, resilience and sustainability criteria need to be described in terms, for example, of appropriate annual resilience probabilities and sustainability failures. It quickly becomes apparent from this point of view that tradeoffs occur.

      Figure 1.7 Mapping of quantification of sustainability and resilience.

      The problem of how robust built structures and efficient society innovations should be taken into consideration when choosing. The short-term social security may rely on what are perceived as appropriate threats linked to local adaptation failures (e.g. at neighborhood level) as well as society’s tolerance for the possibility of global mitigation failures. In order to promote effective and educated collective decision-making, more work on this solution will be carried out to the immediate future.

      The impact of natural (and anthropogenic) dangers can be significant in communities. Objectives must be described in terms of their appropriate after-effects. Resilience and sustainability objectives can be defined explicitly in assessing the impact on the well-being of recovery times, environmental justice, and social justice (i.e., international and inter-generational justice) [58]. We ought to identify quantification measures to assess the effect of a harmful occurrence on the well-being. These quantification indicators may be described at various intervals in order to reflect improvements in the health directly after and after the rehabilitation period, even until a danger arises [55, 64]. The individual’s well-being is dynamic and relies on several aspects, including resources, social expectations and socioeconomic status that are open to the society. Social standards and status are commonly referred to as factors of social vulnerability [71]. Such principles ought to compensate for priorities and quantification in order to correctly forecast and measure the impact of a natural catastrophe on health (Figure 1.8).

      Figure 1.8 Techniques of quantification of sustainability and resilience [58].

       1.6.1 Definition of Quantification Metric

       1.6.2 Considering and Community

      We find the City of Seaside, Oregon, vulnerable to potential seismic hazards to highlight some of the ideas explored in this segment. Seaside is a coastal city with a population of 6,000 to 14,000 based on the season of the year. According to the 2010 Decades Census estimates [65], 6,440 people are dispersed across the city to different houses. The seismic risk is Mw = 70 and a 25 km southwest epicenter of the area.

      Equations [66] are used to build graphs of the amplitude of the ground motion measurements across the appropriate field of research.

      For each residential building on the Seaside, Figure 1.9 shows the mean injury. In Figure 1.9, Bai et al. [67] describes insignificant, moderate, weighted and complete definitions.

      A logistical model predicts the likelihood of dislocation of a household [65]. The likelihood of community dislocation is estimated in Figure 1.10.

An illustration of a map depicting a paradigm of damage of building.

      Figure 1.9 Paradigm of


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