Abstract :
A generic framework for risk analysis is presented, comprising the following tasks: system definition, hazard identification, definition of risk tolerability criteria, consequence and loss analysis, and risk assessment. The object of this approach is to derive qualitative and quantitative safety integrity requirements for technological systems. The framework is holistic and covers technological as well as human and operational factors. The framework is compared to other approaches. Three different railroad signaling case studies, that use the same process, but under different circumstances, are presented. The lessons learned from these case studies, which, like the process itself have applications beyond railroad signaling, are reported and discussed
Keywords :
human factors; rail traffic; railways; reliability; risk management; safety; signalling; traffic control; case studies; consequence analysis; generic framework; hazard identification; human factors; loss analysis; operational factors; rail traffic control; railroad signaling risk assessment; risk tolerability criteria; safety integrity requirements; system definition; technological factors; technological systems; Hazards; Maintenance; Product safety; Rail transportation; Railway safety; Risk analysis; Risk management; Signal processing; Software safety; Standards;
