Performance‐based seismic design via yield frequency spectra‡ |
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| Authors: | Dimitrios Vamvatsikos Mark A. Aschheim |
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| Affiliation: | 1. School of Civil Engineering, National Technical University of Athens, Athens, Greece;2. Department of Civil Engineering, Santa Clara University, Santa Clara, CA, USA |
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| Abstract: | Yield frequency spectra (YFS) are introduced to enable the direct design of a structure subject to a set of seismic performance objectives. YFS offer a unique view of the entire solution space for structural performance. This is portrayed in terms of the mean annual frequency (MAF) of exceeding arbitrary ductility (or displacement) thresholds, versus the base shear strength of a structural system having specified yield displacement and capacity curve shape. YFS can be computed nearly instantaneously using publicly available software or closed‐form solutions, for any system whose response can be satisfactorily approximated by an equivalent nonlinear single‐degree‐of‐freedom oscillator. Because the yield displacement typically is a more stable parameter for performance‐based seismic design compared with the period, the YFS format is especially useful for design. Performance objectives stated in terms of the MAF of exceeding specified ductility (or displacement) thresholds are used to determine the lateral strength that governs the design of the structure. Both aleatory and epistemic uncertainties are considered, the latter at user‐selected confidence levels that can inject the desired conservatism in protecting against different failure modes. Near‐optimal values of design parameters can be determined in many cases in a single step. Copyright © 2016 John Wiley & Sons, Ltd. |
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| Keywords: | performance‐based seismic design nonlinear analysis uncertainty hazard confidence mean annual frequency |
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