Seismic Design and Analysis
( 25 Modules )

Module #1
Introduction to Seismic Design
Overview of seismic design principles, importance, and history

Module #2
Seismic Hazard and Risk Assessment
Understanding seismic hazard, risk, and probability of exceedance

Module #3
Seismic Waves and Earthquake Types
Characteristics of seismic waves, earthquake types, and faulting mechanisms

Module #4
Seismic Design Philosophy and Codes
Overview of seismic design philosophy, codes, and standards (e.g. IBC, ASCE 7)

Module #5
Building Classification and Seismic Design Categories
Building classification, seismic design categories, and importance factors

Module #6
Site-Specific Seismic Hazards
Site-specific seismic hazards, soil characteristics, and site classification

Module #7
Seismic Loads and Load Combinations
Seismic loads, load combinations, and importance of load factors

Module #8
Structural System Selection and Configuration
Selection and configuration of structural systems for seismic resistance

Module #9
Seismic Analysis Methods
Overview of seismic analysis methods (e.g. equivalent lateral force, response spectrum)

Module #10
Response Spectrum Analysis
Response spectrum analysis, SDOF and MDOF systems, and damping

Module #11
Time History Analysis
Time history analysis, ground motion selection, and scaling

Module #12
Nonlinear Static Procedure (NSP)
Nonlinear static procedure, pushover analysis, and capacity curve development

Module #13
Seismic Design of Foundations
Seismic design of foundations, soil-foundation-structure interaction, and pile design

Module #14
Seismic Design of Bridges
Seismic design of bridges, bridge types, and seismic retrofitting

Module #15
Seismic Design of Buildings
Seismic design of buildings, building types, and seismic detailing

Module #16
Seismic Design of Non-Structural Components
Seismic design of non-structural components, anchorage, and bracing

Module #17
Seismic Retrofitting and Rehabilitation
Seismic retrofitting and rehabilitation strategies, techniques, and case studies

Module #18
Seismic Performance-Based Design
Seismic performance-based design, performance goals, and acceptance criteria

Module #19
Computational Tools for Seismic Analysis
Overview of computational tools for seismic analysis (e.g. ETABS, SAP2000, OpenSees)

Module #20
Case Studies in Seismic Design and Analysis
Real-world case studies in seismic design and analysis, success stories, and lessons learned

Module #21
Seismic Risk Assessment and Loss Estimation
Seismic risk assessment, loss estimation, and economic loss analysis

Module #22
Seismic Design for Resilience and Sustainability
Seismic design for resilience and sustainability, green buildings, and post-disaster recovery

Module #23
Collaboration and Communication in Seismic Design
Importance of collaboration and communication in seismic design, multidisciplinary teams, and stakeholder engagement

Module #24
Seismic Design and Analysis for Special Structures
Seismic design and analysis for special structures (e.g. hospitals, schools, and museums)

Module #25
Course Wrap-Up & Conclusion
Planning next steps in Seismic Design and Analysis career

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Seismic Design and Analysis ( 25 Modules )

Seismic Design and Analysis
( 25 Modules )