Chapter 1. Enhancing Civil Infrastructure Resilience with Structural Health Monitoring/ Yunfeng Zhang, Bilal Ayyub and Hongwei Huang; Chapter 2. Reliability Analysis and Real-Time Predictions in Mechanized Tunneling/ Günther Meschke, Ba Trung Cao and Steffen Freitag; Chapter 3. Non-intrusive Inspection and Real-Time Monitoring for Tunnel Structural Resilience/ Hongwei Huang and Dongming Zhang; Chapter 4. Efficient Reliability and Risk Analysis of Complex Interconnected Systems/ J. Behrensdorf, M. Broggi and M. Beer; Chapter 5. Enhancing Resilience of Traffic Networks with a Focus on Impacts of Neuralgic Points Like Urban Tunnels /Katharina Klemt-Albert, Robert Hartung and Sascha Bahlau; Chapter 6. Reliability of Critical Infrastructure Networks: Challenges/ Konstantin M. Zuev and Michael Beer; Chapter 7. Decision Aids for Tunneling/ Herbert H. Einstein -- Breakout session reports; Chapter 8. Topic 1: Monitoring for Resiliency of Urban Tunnels Topic 2: Monitoring for Resiliency of Urban Tunnels Topic 3: Modeling and Management of Uncertainties -- Research recommendations; Chapter 9 1. Monitoring for Resiliency of Urban Tunnels 2. Robust Monitoring and Maintenance for Durability 3. Resilience Engineering at System Scale

Selected papers from the 2016 International Workshop on Resilience of Urban Tunnels, held in Reston, Virginia, September 1, 2016. Sponsored by the Infrastructure Resilience Division of ASCE. Resiliency Engineering for Urban Tunnels addresses tunnels as a part of the complex urban infrastructure system including transportation systems, such as metro transit networks, and provides a basis for the development of a dynamic risk control and resilient design approach to urban tunnels. Topics in this, the second Infrastructure Resilience Publication (IRP), include smart sensing, uncertainty modeling in construction, integrated robust design through modularity and adaptability, modeling with a component scale and a systems scale perspective, resilience-informed decision making, and multisector interdependencies. Also included is a report on the discussions held during the workshop and the conclusions drawn for future research recommendations. IRP 2 provides state-of-the-art information for researchers, practitioners, and students interested in resilience of urban tunnels and infrastructure

Trabajos seleccionados del Taller Internacional sobre Resiliencia de Túneles Urbanos 2016, realizado en Reston, Virginia, el 1 de septiembre de 2016. Patrocinado por la División de Resistencia de Infraestructura de la ASCE. La ingeniería de resiliencia para túneles urbanos aborda los túneles como parte del complejo sistema de infraestructura urbana, incluidos los sistemas de transporte, como las redes de transporte público, y proporciona una base para el desarrollo de un control dinámico de riesgos y un enfoque de diseño resistente para los túneles urbanos. Los temas de esto, la segunda Publicación de Resiliencia de Infraestructura (IRP), incluyen detección inteligente, modelado de incertidumbre en la construcción, diseño robusto integrado a través de la modularidad y adaptabilidad, modelado con una escala de componentes y una perspectiva de escala de sistemas, toma de decisiones basada en resiliencia e interdependencias multisectoriales . También se incluye un informe sobre las discusiones mantenidas durante el taller y las conclusiones extraídas para futuras recomendaciones de investigación. IRP 2 proporciona información de vanguardia para investigadores, profesionales y estudiantes interesados ​​en la resistencia de los túneles urbanos y la infraestructura.