Module #1 Introduction to Seismic Performance and Reliability Analysis Overview of seismic design philosophy, importance of seismic performance and reliability analysis, and course objectives
Module #2 Seismic Hazard Analysis Types of seismic hazards, seismic hazard curves, and probability of exceedance
Module #3 Seismic Design Codes and Standards Overview of international seismic design codes and standards, including ASCE 7, IBC, and Eurocode 8
Module #4 Seismic Analysis Fundamentals Types of seismic analysis, including response spectrum, time history, and pushover analysis
Module #5 Structural Modeling for Seismic Analysis Modeling of structural components, including beams, columns, and foundations
Module #6 Seismic Ground Motion Selection and Scaling Selection and scaling of ground motions for seismic analysis, including ASCE 7 and FEMA P-1058
Module #7 Response Spectrum Analysis Theory and application of response spectrum analysis, including modal analysis and response modification
Module #8 Time History Analysis Theory and application of time history analysis, including nonlinear dynamic analysis
Module #9 Pushover Analysis Theory and application of pushover analysis, including capacity spectrum method
Module #10 Nonlinear Static Procedure (NSP) Theory and application of NSP, including coefficient method and displacement coefficient method
Module #11 Seismic Performance Evaluation Evaluation of seismic performance, including damage states, fragility curves, and seismic risk assessment
Module #12 Reliability Analysis Fundamentals Introduction to reliability analysis, including probability theory and reliability indices
Module #13 Structural Reliability Analysis Application of reliability analysis to structural systems, including load and resistance factor design
Module #14 Seismic Reliability Analysis Application of reliability analysis to seismic design, including probabilistic seismic demand analysis
Module #15 Uncertainty Quantification and Propagation Sources of uncertainty, uncertainty quantification, and propagation in seismic performance and reliability analysis
Module #16 Sensitivity Analysis and Importance Measures Sensitivity analysis and importance measures for seismic performance and reliability analysis
Module #17 Seismic Performance and Reliability Analysis for Special Structures Seismic performance and reliability analysis for special structures, including bridges, dams, and nuclear facilities
Module #18 Seismic Performance and Reliability Analysis for Soil-Structure Interaction Seismic performance and reliability analysis for soil-structure interaction, including site response and soil liquefaction
Module #19 Seismic Performance and Reliability Analysis for Masonry and Unreinforced Masonry Buildings Seismic performance and reliability analysis for masonry and unreinforced masonry buildings, including damage assessment and retrofitting
Module #20 Seismic Performance and Reliability Analysis for Existing Buildings Seismic performance and reliability analysis for existing buildings, including vulnerability assessment and retrofitting strategies
Module #21 Computational Tools and Software for Seismic Performance and Reliability Analysis Overview of computational tools and software for seismic performance and reliability analysis, including OpenSees, SAP2000, and MATLAB
Module #22 Case Studies and Applications Real-world case studies and applications of seismic performance and reliability analysis
Module #23 Research and Development in Seismic Performance and Reliability Analysis Current research and development in seismic performance and reliability analysis, including new methods and technologies
Module #24 Seismic Risk Assessment and Mitigation Strategies Seismic risk assessment and mitigation strategies, including cost-benefit analysis and decision-making frameworks
Module #25 Course Wrap-Up & Conclusion Planning next steps in Seismic Performance and Reliability Analysis career
