Abstract
In safety science and practice, there have been various safety models, each of them reflecting a particular approach to safety management and accident causality. The large variety of models suggested in literature and applied in practice serve the communication of diverse perspectives towards safety and the need to consider contextual factors, but it does not allow the establishment of a common language within and across organisations and industry sectors. Considering the potential benefits of talking a lingua franca when it comes to safety and inspired by the Standard Model used in particle physics and recent suggestions from relevant studies, we thought of exploring the possibility to introduce a Standard Safety Model (STASAM). As a first step, we focused on four representative safety and accident models widely used, discussed and debated: the Swiss Cheese Model, AcciMap, Functional Resonance Analysis Method (FRAM) and Systems-Theoretic Accident Model and Processes (STAMP). We reviewed literature which compares the particular models, and we listed the strengths and weaknesses of each as a means to set the grounds for the STASAM. The combinations of these models with a focus to host their advantages and avoiding their disadvantages led to a three-level STASAM. The concept STASAM was used in two random incident investigation reports to assess its applicability and visualisation against the original models. The results of the application along with the STASAM concept were reviewed by three safety professionals and three safety researchers. The comments received were in the positive direction and indicated the potential of establishing an inclusive and commonly accepted safety/accident model. The next research phase will be the additional review of the STASAM and its pilot application to a variety of safety events and systems as a means to test its reliability and strengthen its validity.
Highlights
Over the last decades, hundreds of safety and accident methods and models (SAMMs) have been developed (Everdij & Blom, 2016) to help practitioners and scientists analyse and understand socio-technical systems with the goal to improve safety
The comments of the reviewers regarding the interim version of the concept Standard Safety Model (STASAM) presented above showed that the representation of system levels, elements and connections was rated from slightly to much better than the ones included in the four original models
The Sequence Map was received as much to highly improved compared to the options given by the other models, and most of the reviewers expressed their opinion that the STASAM could be used in the context of both safety management and safety investigations
Summary
Hundreds of safety and accident methods and models (SAMMs) have been developed (Everdij & Blom, 2016) to help practitioners and scientists analyse and understand socio-technical systems with the goal to improve safety. Albeit the idea to introduce inclusive SAMMs is not new (e.g., Le Coze, 2013), our goal was to use previous research about the strengths and weaknesses of safety models and methods and compile a Standard Safety Model (STASAM) that accommodates the former, addresses the latter and avoids the mere reference to abstract representations, such as the Systemic and Dynamic Sensitising Model of Safety (SDSMS) and Systemic and Socio-NaturalTechnical System (SNTS) suggested by Le Coze (2013) This way we aimed at building upon existing knowledge and contributing to the minimisation of the gap amongst researchers and between research and practice (Underwood & Waterson, 2013)
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