PART 1: INTRODUCTION 1. Toward sustainable and multi-hazard resilient buildings: Current issues and needs PART 2: INTEGRATED TECHNOLOGIES 2. A step-change for seismic risk reduction: Developing a national plan for the integrated seismic-energetic rehabilitation of the building stock 3. Advancements in post-tensioned timber buildings: The Pres-Lam system and its multi-hazard design and detailing 4. Refurbishment of residential buildings through multi-functional, modular building envelope systems 5. Low-carbon, resilient building envelopes: Development and multi-performance testing of bio-based facade solutions PART 3: INTEGRATED DESIGN AND PERFORMANCE ASSESSMENT 6. Structural and non-structural performance objectives and decision variables 7. Multi-hazard risk assessment: Scoring, selection, and development of physical impact models 8.

Evaluating the performance of integrated seismic and energy-efficient retrofitting interventions via experimental testing 9. Impact of extreme weather-related events on building occupants and envelope design 10. Resilience and sustainability of tall buildings under wind loading PART 4: MULTIDISCIPLINARY DECISION-MAKING 11. Integrating multi-hazard resilience into multi-criteria decision-making 12. Markov decision processes for optimal energy and seismic retrofit planning under uncertainty 13. Multi-criteria evaluation for integrated seismic and energy solutions for existing buildings 14. Resilience-based decision framework for building design against seismic and flood hazards 15. Digital twinning for building resilience and multidisciplinary planning PART 5: CONCLUSIONS 16.

Toward sustainable and multi-hazard resilient buildings: From theory to future practice.