Engineers are always interested in the worst-case scenario. One of the most important and challenging missions of structural engineers may be to narrow the range of unexpected incidents in building structural design. Redundancy, robustness and resilience play an important role in such circumstances. Improving the Earthquake Resilience of Buildings: The worst case approach discusses the importance of worst-scenario approach for improved earthquake resilience of buildings and nuclear reactor facilities. Improving the Earthquake Resilience of Buildings: The worst case approach consists of two parts. The first part deals with the characterization and modeling of worst or critical ground motions on inelastic structures and the related worst-case scenario in the structural design of ordinary simple building structures. The second part of the book focuses on investigating the worst-case scenario for passively controlled and base-isolated buildings. This allows for detailed consideration of a range of topics including: A consideration of damage of building structures in the critical excitation method for improved building-earthquake resilience, A consideration of uncertainties of structural parameters in structural control and base-isolation for improved building-earthquake resilience, and New insights in structural design of super high-rise buildings under long-period ground motions. Improving the Earthquake Resilience of Buildings: The worst case approach is a valuable resource for researchers and engineers interested in learning and applying the worst-case scenario approach in the seismic-resistant design for more resilient structures.
This book deals with earthquake-resistant structures, such as, buildings, bridges and liquid storage tanks. It contains twenty chapters covering several interesting research topics written by researchers and experts in the field of earthquake engineering. The book covers seismic-resistance design of masonry and reinforced concrete structures to be constructed as well as safety assessment, strengthening and rehabilitation of existing structures against earthquake loads. It also includes three chapters on electromagnetic sensing techniques for health assessment of structures, post earthquake assessment of steel buildings in fire environment and response of underground pipes to blast loads. The book provides the state-of-the-art on recent progress in earthquake-resistant structures. It should be useful to graduate students, researchers and practicing structural engineers.
Engineers are always interested in the worst-case scenario. One of the most important and challenging missions of structural engineers may be to narrow the range of unexpected incidents in building structural design. Redundancy, robustness and resilience play an important role in such circumstances. Improving the Earthquake Resilience of Buildings: The worst case approach discusses the importance of worst-scenario approach for improved earthquake resilience of buildings and nuclear reactor facilities. Improving the Earthquake Resilience of Buildings: The worst case approach consists of two parts. The first part deals with the characterization and modeling of worst or critical ground motions on inelastic structures and the related worst-case scenario in the structural design of ordinary simple building structures. The second part of the book focuses on investigating the worst-case scenario for passively controlled and base-isolated buildings. This allows for detailed consideration of a range of topics including: A consideration of damage of building structures in the critical excitation method for improved building-earthquake resilience, A consideration of uncertainties of structural parameters in structural control and base-isolation for improved building-earthquake resilience, and New insights in structural design of super high-rise buildings under long-period ground motions. Improving the Earthquake Resilience of Buildings: The worst case approach is a valuable resource for researchers and engineers interested in learning and applying the worst-case scenario approach in the seismic-resistant design for more resilient structures.
This book provides powerful insights into the dynamics, nature, and experiences of the terrors of counter-terrorism measures in the UK. Abbas links her analysis to wider concerns of nation construction and belonging; racial profiling and policing; the state of exception and pre-emptive counter-terrorism measures; community-based counter-terrorism measures; and restrictions to political engagement, freedom of speech and hate speech. What makes this work distinct is its advancement of an original framework - the Concentrationary Gothic - to delineate the racialised mechanisms of terror involved in the governance of Muslim populations in the ‘war on terror’ context. The book illuminates the various ways in which Muslims in Britain experience terror through racialised surveillance and policing strategies operating at state, group (inter- and intra-), and individual levels in diverse contexts such as the street, workplace, public transport and the home. Abbas situates these experiences within wider racial politics and theory, drawing connections to anti-Semitism, anti-blackness, anti-Irishness and whiteness, to provide a complex mapping of the ways in which racial terror has operated in both historical and contemporary contexts of colonialism, slavery, and the camp, and offering a unique point of analysis through the use of Gothic tropes of haunting, monstrosity and abjection. This vital work will be of interest to students and scholars across sociology, criminology, anthropology, terrorism studies, Islamic studies, and critical Muslim studies, researching race and racialisation, security, immigration, nationhood and citizenship.
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