Seismology to Engineering: Earth’s Core to Design
Learn the fundamentals of seismology and earthquake engineering, from wave propagation to structural response.
Learn the fundamentals of seismology and earthquake engineering, from wave propagation to structural response.
This comprehensive course bridges the gap between seismology and earthquake engineering, offering a multidisciplinary approach to understanding earthquakes and their impact on structures. Designed for intermediate-level learners with a background in earth sciences, civil engineering, or mechanics, the course covers a wide range of topics from the Earth's structure and plate tectonics to the seismic response of soils, foundations, and structures. Students will explore various technical fields including rock mechanics, soil dynamics, structural dynamics, and dynamic soil-structure interaction. The curriculum combines theoretical concepts with practical applications, featuring lab sessions, research topics, and mini-projects. Participants will gain insights into seismic wave propagation, fault mechanics, ground motion analysis, and seismic risk assessment. By the end of the course, learners will have a solid understanding of how earthquakes are generated, how seismic waves propagate, and how structures can be designed to withstand seismic shaking.
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What you'll learn
Understand the Earth's structure, plate tectonics, and fault mechanics
Analyze seismic wave propagation and amplification in various geological settings
Evaluate seismic site effects and methods for soil and site characterization
Comprehend the seismic response of soils and structures, including nonlinear behavior
Learn about seismic isolation techniques and dynamic soil-structure interaction
Apply concepts of modal analysis and response spectra in structural design
Skills you'll gain
This course includes:
6.67 Hours PreRecorded video
10 quizzes
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FullTime access
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There are 6 modules in this course
This course provides a comprehensive overview of seismology and earthquake engineering, covering the entire spectrum from the Earth's core to structural design. The curriculum is structured into five main modules, exploring seismicity and faults, seismic waves and ground motion, seismic response of soil and structures, complex structures and nonlinearities, and seismic risk assessment. Students will learn about plate tectonics, fault mechanics, seismic wave propagation, site effects, soil-structure interaction, and nonlinear structural behavior. The course emphasizes both theoretical understanding and practical applications, featuring lab sessions, research topics, and mini-projects. By integrating concepts from geology, geophysics, soil mechanics, and structural engineering, the course offers a unique interdisciplinary perspective on earthquake-related phenomena and their implications for engineering design and risk management.
Introduction
Module 1 · 4 Minutes to complete
Week 1 - Seismicity and faults
Module 2 · 2 Hours to complete
Week 2 - Seismic waves and ground motion
Module 3 · 3 Hours to complete
Week 3 - Seismic response of soil and structures
Module 4 · 4 Hours to complete
Week 4 - Complex structures and non linearities
Module 5 · 3 Hours to complete
Week 5 - Seismic risk
Module 6 · 1 Hours to complete
Fee Structure
Payment options
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Instructors
Head of office at IRSN and member of the Board of Directors chez Association francaise de genie parasismique (AFPS)
Benjamin Richard is Head of the Structural Performance Analysis and Modeling Lab at the Radioprotection and Nuclear Safety Institute (IRSN). He was a research engineer working at the French Sustainable Energies and Atomic Energy Commission (CEA) since October 2011 up to July 2018. He is interested in the numerical prediction of the seismic behavior of reinforced concrete structures dedicated to either civil engineering or nuclear engineering. Within the framework of research projects joining French or European major institutions working in the field of nuclear engineering, Benjamin Richard is in charge of developing efficient numerical strategies to assess the safety of complex structures regarding the seismic risk. In particular, he is interested in predicting specific nonlinear responses, such as cracking, that are of primary importance for design or safety studies. Benjamin Richard promotes the use of probabilistic approaches in risk assessment and vulnerability studies. Benjamin Richard is also a lecturer at Ecole Normale Supérieure Paris Saclay. He teaches the course entitled "seismic design of reinforced concrete and steel structures" to graduate students. In 2018, Benjamin Richard was author or coauthor of more than 31 papers published in international journals and more than 34 papers presented in international conference proceedings. Benjamin Richard is Head of the Technical and Scientific Committee of the French Association for Earthquake Engineering (AFPS) since 2019.
Associate Professor ENS Paris-Saclay
Cédric Giry is associate professor at the Ecole normale supérieure Paris-Saclay, in the Civil Engineering Departement. He develops his research activities at LMT (Laboratoire de Mécanique et Technologie) on the analysis of civil engineering structures subjected to static and severe loadings (earthquake). He develops also dedicated tools for the modeling of cracking in reinforced concrete structures and old masonry. He is in charge at LMT of the Thematical Research Unit “Dynamic and behavior of civil engineering structures”.
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4.1 course rating
34 ratings
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