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In Performance-Based Earthquake Engineering, it is often necessary to be able to estimate the response of a structure whilst accounting for various sources of uncertainty [...]
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In regions of low or moderate seismicity there may be cases in which a rapid, simplified and conservative seismic assessment may be sufficient to demonstrate that a build [...]
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This paper investigates the importance of numerical modelling decisions on the seismic assessment of reinforced concrete (RC) structures typical of construction practice [...]
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This paper examines the uncertainty in the response of existing RC frames with masonry infill in Italy. This is done using a numerical modelling approach calibrated and v [...]
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The research findings made in recent years now mean that the prospect of accounting for soil-foundation-structure interaction within seismic design is becoming a viable r [...]
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The recently developed PEER Performance-Based Earthquake Engineering (PBEE) approach can be used to provide building owners and stakeholders with loss estimates, on which [...]
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This paper examines the influence of different definitions of demand parameters for the seismic assessment of ductile RC frames. Fragility functions used in the performan [...]
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A novel gapped-inclined brace system (GIB) has been developed to enhance the seismic performance of soft-story buildings. The GIB system consists of a pinned brace and a [...]
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The adequate consideration of acceleration demands in the seismic design of acceleration-sensitive nonstructural components, although challenging, has shown to be a key a [...]
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Architectural layouts of reinforced concrete buildings often require structural walls, with varying dimensions, to be placed in an asymmetric plan configuration. During s [...]
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