The objective of this study is to develop qualitative and quantitative information on the various braking strategies used in high-speed ground transportation systems in support of the Federal Railroad Administration (FRA). The approach employed in this study is composed of two steps: first, build a technical understanding of the various braking strategies, and second, perform a safety analysis for each system. The systems considered in this study include seven operating high-speed rail transportation systems and three existing magnetic levitation systems. The principal technique used in the system safety analysis is Failure Modes and Effects Analysis (FMEA), an inductive approach to identifying system failure modes that depends on a thorough understanding of the system design and operation. Key elements derived from the system safety analysis are the fault-tolerant and fail-safe characteristics of the braking systems. The report concludes with recommended guidance on the structure of potential future regulations governing high-speed rail braking systems.
Safety of High Speed Ground Transportation Systems: Safety of Advanced Braking Concepts for High Speed Ground Transportation Systems
1995
88 pages
Report
No indication
English
Transportation Safety , Railroad Transportation , Brake systems , Magnetic levitation vehicles , High speed ground transportation , Rail transportation , Railroad car brakes , Brake performance , Fail-safe systems , Fault tolerance , Brake controls , Brake tests , Friction brakes , Magnetic brakes , Eddy current brakes , Regenerative braking , Dynamic engineering , Transportation safety