Optimal Operation and Resilience Enhancement of Integrated Power and Transport Systems is a practical guidebook that builds your skills from fundamental principles to advanced applications, using actionable tools. This book supports a solid foundation in the principles of integrated power and transport, breaking down basic system structures, the fundamentals of key techniques such as game theory and variational inequality, and their function in optimization and resilience. Part II ensures the reader has a clear understanding of the design of such systems and key considerations from essential needs to the challenges of expansion, while parts III and IV outline the opportunities offered by cooperative and non-cooperative game theory. Special challenges are covered in part V, focusing on the major disruptions of adverse weather events and unpredictable demand. Providing a broad range of replicable and amendable methods, Optimal Operation and Resilience Enhancement of Integrated Power and Transport Systems supports readers in taking practical steps to improve resilience, sustainability, and responsive in integrated transport and energy systems.

• Builds from fundamental principles to real-world scenarios applicable in a wide range of geographies, jurisdictions, and infrastructures
• Provides tools such as variational inequality, cooperative and non-cooperative game theory, and nested game models to respond to challenges from mixed demand uncertainties to extreme weather
• Includes step-by-step calculations and access to a companion website hosting original MATLAB code for replication and application