Abstract
BackgroundDespite their important role in railway operations, switches and crossings (S&C) have changed little since their conception over a century ago. It stands now that the existing designs for S&C are reaching their maximum point of incremental performance improvement, and only a radical redesign can overcome the constraints that current designs are imposing on railway network capacity. This paper describes the process of producing novel designs for next generation switches and crossings, as part of the S-CODE project.MethodsGiven the many aspects that govern a successful S&C design, it is critical to adopt multi criteria decision making (MCDM) processes to identify a specific solution for the next generation of switches and crossings. However, a common shortcoming of these methods is that their results can be heavily influenced by external factors, such as uncertainty in criterium weighting or bias of the evaluators, for example. This paper therefore proposes a process based on the Pugh Matrix method to reduce such biases by using sensitivity analysis to investigate them and improve the reliability of decision making.ResultsIn this paper, we analysed the influences of three different external factors, measuring the sensitivity of ranking due to (a) weightings, (b) organisational and (c) discipline bias. The order of preference of the results was disturbed only to a minimum while small influences of bias were detected.ConclusionsThrough this case study, we believe that the paper demonstrates an effective case study for a quantitative process that can improve the reliability of decision making.
Highlights
1.1 Switch and crossing (S&C) design Switches and crossings (S&C) have been an integral part of the railway since their inception
(2021) 13:6 revolutionised by technological innovations that have led to significant increases in operational capacity. It seems that the current design of switches and crossings (S&C) is reaching the maximum performance that can be achieved by incremental improvements; current S&C design is one cause of important bottlenecks in contemporary railways
5 Conclusions This article has presented a process to incorporate sensitivity analysis into multi-criteria decision making methods (MCDM) through a case study that looked at novel designs for switches and crossings (S&C)
Summary
1.1 Switch and crossing (S&C) design Switches and crossings (S&C) have been an integral part of the railway since their inception They are an important part of railway operations, enabling railway vehicles to travel on various routes while maintaining a safe interface between wheels and tracks. Boghani et al European Transport Research Review (2021) 13:6 revolutionised by technological innovations that have led to significant increases in operational capacity. It seems that the current design of S&C is reaching the maximum performance that can be achieved by incremental improvements; current S&C design is one cause of important bottlenecks in contemporary railways. This paper describes the process of producing novel designs for generation switches and crossings, as part of the S-CODE project
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
