PART 1 Introduction, earthquake-induced damage evaluation and repairs in structures 1. Damage indexes for performance assessment of low-rise RC walls 2. Controlling the deflection of long beams using pre-tensioning cables 3. Cable-Cylinder Bracing System: Theoretical Background, Structural Behaviour and Seismic Design Coefficients 4. Method of seismic resistance design - Case studies 5. Probabilistic evaluation of earthquake-induced damage 6. Novel technique of seismic resistance design 7. Development and application of Bouc-Wen model in seismic performance evaluation of reinforced concrete members

PART 2 Repair of structural and non-structural components 8. Developing Seismic Fragility Curves for Caisson-type Quay Walls with Improved Backfill Soil

PART 3 Seismic damage mitigation strategies 9. Machine learning for seismic assessment 10. Robust design of intelligent control systems to mitigate earthquake-induced vibrations under uncertain conditions 11. Multi-Story Buildings Equipped with Innovative Structural Seismic Shear Fuse Systems 12. Seismic protection strategies for damage mitigation in structures 13. Measures to mitigate seismic risks 14. Mitigation of Deformations of a Hunchbacked Block-type Gravity Quay Wall Subjected to Dynamic Loading through Optimizing its Back-face Configuration 15. Other methods of seismic damage mitigation strategies

Iman Mansouri received his Ph.D. degree from the Department of Civil Engineering at the Shahid Bahonar University of Kerman. He ranked first in all his previous academic degrees. Currently, he has been an Associate Professor at the Department of Civil Engineering, Birjand University of Technology. He has many collaborations with researchers around the world (e.g., the U.S., Japan, Spain, Canada, South Korea, Nigeria, and China). He is a member of the Editorial Committee of KSCE Journal of Civil Engineering, an International journal having a JCR index. His research interests are in the area of nonlinear structural analysis, earthquake engineering, seismic retrofitting, performance-based design, and soft computing methods. Paul Awoyera is a Senior Lecturer and a Researcher in the areas of concrete structures, structural retrofitting, sustainable/innovative construction materials, fire resistance, non-destructive testing, data science, and applied Artificial Intelligence. He has over 12 years of experience in structural engineering consulting, teaching, and research. He obtained his PhD Degree in Civil Engineering from Covenant University, Nigeria.
Dr. Awoyera completed a one-year Post-Doctoral research, focusing on lightweight composite development using paper and ceramic wastes, at the University of KwaZulu-Natal, Durban, South Africa. He was awarded the prestigious Split-Site PhD Scholarship by the Commonwealth Scholarship Commission in the United Kingdom, which was tenable at the University of Nottingham, United Kingdom.
Dr. Awoyera is a registered engineer with the Council for the Regulation of Engineering in Nigeria (COREN), a member of the International Association for Engineers (IAENG), and a corporate member of the Nigeria Society of Engineers(NSE). He has published over 100 articles in leading publishing outlets and served as the editor/editorial board member and reviewer for numerous international journals.