This paper proposes a novel computationally economical stochastic dynamics framework to estimate the peak inelastic response of yielding structures modelled as nonlinear multi degreeof-freedom (DOF) systems subject to a given linear response spectrum defined for different damping ratios. This is accomplished without undertaking nonlinear response history analyses (RHA) or, to this effect, constructing an ensemble of spectrally matched seismic accelerograms. The proposed approach relies on statistical linearization and enforces pertinent statistical conditions to decompose the inelastic d-DOF system into d linear single DOF oscillators with effective linear properties (ELPs): natural frequency and damping ratio. Each such oscillator is subje...
Fluid damper devices in civil structures such as buildings or bridges are commonly used as energy ab...
A novel efficient stochastic incremental dynamics methodology considering first-excursion probabilit...
A novel methodology for conducting efficiently fragility analysis considering nonproportionally damp...
This paper proposes a novel computationally economical stochastic dynamics framework to estimate the...
An efficient nonlinear stochastic dynamics methodology has been developed for estimating the peak in...
A novel statistical linearization based approach is proposed to derive effective linear properties (...
A novel statistical linearization based approach is proposed to derive effective linear properties (...
A stochastic approach is proposed to obtain reliable estimates of the peak response of nonlinear sys...
A stochastic averaging approach is used in conjunction with non-stationary response spectrum compati...
An efficient stochastic modal decomposition method for random vibration analysis of non-classically ...
A stochastic approach for obtaining reliable estimates of the peak response of nonlinear systems to ...
An approximate analytical technique for determining the survival probability and first-passage proba...
A novel inelastic modal decomposition method for random vibration analysis in alignment with contemp...
An efficient stochastic modal decomposition method for random vibration analysis of non-classically ...
A novel approximate approach is developed for determining, in a computationally efficient manner, th...
Fluid damper devices in civil structures such as buildings or bridges are commonly used as energy ab...
A novel efficient stochastic incremental dynamics methodology considering first-excursion probabilit...
A novel methodology for conducting efficiently fragility analysis considering nonproportionally damp...
This paper proposes a novel computationally economical stochastic dynamics framework to estimate the...
An efficient nonlinear stochastic dynamics methodology has been developed for estimating the peak in...
A novel statistical linearization based approach is proposed to derive effective linear properties (...
A novel statistical linearization based approach is proposed to derive effective linear properties (...
A stochastic approach is proposed to obtain reliable estimates of the peak response of nonlinear sys...
A stochastic averaging approach is used in conjunction with non-stationary response spectrum compati...
An efficient stochastic modal decomposition method for random vibration analysis of non-classically ...
A stochastic approach for obtaining reliable estimates of the peak response of nonlinear systems to ...
An approximate analytical technique for determining the survival probability and first-passage proba...
A novel inelastic modal decomposition method for random vibration analysis in alignment with contemp...
An efficient stochastic modal decomposition method for random vibration analysis of non-classically ...
A novel approximate approach is developed for determining, in a computationally efficient manner, th...
Fluid damper devices in civil structures such as buildings or bridges are commonly used as energy ab...
A novel efficient stochastic incremental dynamics methodology considering first-excursion probabilit...
A novel methodology for conducting efficiently fragility analysis considering nonproportionally damp...