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hystereticUniversity
The objective of this study is development of a method for evaluation of performance of moment resisting steel frames under seismic loads. The emphasis is on modeling and quantification of the large uncertainties associated with the excitation, details in design according to current code specifications (UBC) , and the nonlinear inelastic response behavior of the structure. A site-specific seismic hazard.analysis is carried out to identify and quantify the uncertainties associated with· the source, the path and the site condition. Future earthquakes are treated as either characteristic (major event along a well-identified major fault segment) on non-characteristic (local events). Ground motions are modeled as nonstationary random pro...
The reliable estimation of the seismic performance of structures requires quantifying the aleatory a...
AbstractSeismic performance of Steel Moment-Resisting Frames (SMRFs) with side-plate connections has...
There are many sources of uncertainty when designing or evaluating new buildings for seismic loads. ...
The objective of this study is development of a method for evaluation of performance of moment resi...
A method for the evaluation of structural performance of moment resisting steel frames in future ear...
This work applies 64,765 simulated seismic ground motions to four models each of 6- or 20-story, ste...
Abstract: This paper proposes a reliability-based framework for quantifying structural robustness co...
The paper presented herein proposes a reliability-based framework for quantifying the structural rob...
This paper proposes a reliability-based framework for quantifying structural robustness considering ...
The current study deals with the robustness assessment methods of steel framed buildings under catas...
A unified performance-based seismic design procedure is proposed and successfully implemented in thi...
Recently developed steel self-centering moment-resisting frames (SC-MRFs) have been analytically and...
The 2010 AISC Specification establishes the Direct Analysis Method (DM) as the standard stability an...
AbstractThe design of Moment Resisting Steel Frames (MRSFs) is usually governed by drift limits rath...
Probability of structure failure which has been designed by "deterministic methods" can be more than...
The reliable estimation of the seismic performance of structures requires quantifying the aleatory a...
AbstractSeismic performance of Steel Moment-Resisting Frames (SMRFs) with side-plate connections has...
There are many sources of uncertainty when designing or evaluating new buildings for seismic loads. ...
The objective of this study is development of a method for evaluation of performance of moment resi...
A method for the evaluation of structural performance of moment resisting steel frames in future ear...
This work applies 64,765 simulated seismic ground motions to four models each of 6- or 20-story, ste...
Abstract: This paper proposes a reliability-based framework for quantifying structural robustness co...
The paper presented herein proposes a reliability-based framework for quantifying the structural rob...
This paper proposes a reliability-based framework for quantifying structural robustness considering ...
The current study deals with the robustness assessment methods of steel framed buildings under catas...
A unified performance-based seismic design procedure is proposed and successfully implemented in thi...
Recently developed steel self-centering moment-resisting frames (SC-MRFs) have been analytically and...
The 2010 AISC Specification establishes the Direct Analysis Method (DM) as the standard stability an...
AbstractThe design of Moment Resisting Steel Frames (MRSFs) is usually governed by drift limits rath...
Probability of structure failure which has been designed by "deterministic methods" can be more than...
The reliable estimation of the seismic performance of structures requires quantifying the aleatory a...
AbstractSeismic performance of Steel Moment-Resisting Frames (SMRFs) with side-plate connections has...
There are many sources of uncertainty when designing or evaluating new buildings for seismic loads. ...
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