Assessing the ‘system’ in safe systems-based road designs: Using cognitive work analysis to evaluate intersection designs

•A significant proportion of road trauma occurs at intersections.•Systemic applications in intersection design are sparse.•We use systemic Ergonomics methods to evaluate two intersection designs.•Application revealed unanticipated emergent behaviour induced by future design.•Unaware of emergent beha...

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Veröffentlicht in:	Accident analysis and prevention 2015-01, Vol.74, p.324-338
Hauptverfasser:	Cornelissen, M., Salmon, P.M., Stanton, N.A., McClure, R.
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Sprache:	eng
Schlagworte:	Accidents, Traffic - prevention & control Australia Automobile Driving - psychology Cognition - physiology Cognitive work analysis Design engineering Environment Design Humans Incompatibility Intersection design Intersections Road design Road safety Road transport Roads Safe systems Safety Strategies analysis diagram Strategy Systems Analysis Systems approach Work measurement
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creator	Cornelissen, M. Salmon, P.M. Stanton, N.A. McClure, R.
description	•A significant proportion of road trauma occurs at intersections.•Systemic applications in intersection design are sparse.•We use systemic Ergonomics methods to evaluate two intersection designs.•Application revealed unanticipated emergent behaviour induced by future design.•Unaware of emergent behaviour, design induced problems remain untouched. While a safe systems approach has long been acknowledged as the underlying philosophy of contemporary road safety strategies, systemic applications are sparse. This article argues that systems-based methods from the discipline of Ergonomics have a key role to play in road transport design and evaluation. To demonstrate, the Cognitive Work Analysis framework was used to evaluate two road designs – a traditional Melbourne intersection and a cut-through design for future intersections based on road safety safe systems principles. The results demonstrate that, although the cut-through intersection appears different in layout from the traditional intersection, system constraints are not markedly different. Furthermore, the analyses demonstrated that redistribution of constraints in the cut-through intersection resulted in emergent behaviour, which was not anticipated and could prove problematic. Further, based on the lack of understanding of emergent behaviour, similar design induced problems are apparent across both intersections. Specifically, incompatibilities between infrastructure, vehicles and different road users were not dealt with by the proposed design changes. The importance of applying systems methods in the design and evaluation of road transport systems is discussed.
doi_str_mv	10.1016/j.aap.2013.10.002
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While a safe systems approach has long been acknowledged as the underlying philosophy of contemporary road safety strategies, systemic applications are sparse. This article argues that systems-based methods from the discipline of Ergonomics have a key role to play in road transport design and evaluation. To demonstrate, the Cognitive Work Analysis framework was used to evaluate two road designs – a traditional Melbourne intersection and a cut-through design for future intersections based on road safety safe systems principles. The results demonstrate that, although the cut-through intersection appears different in layout from the traditional intersection, system constraints are not markedly different. Furthermore, the analyses demonstrated that redistribution of constraints in the cut-through intersection resulted in emergent behaviour, which was not anticipated and could prove problematic. Further, based on the lack of understanding of emergent behaviour, similar design induced problems are apparent across both intersections. Specifically, incompatibilities between infrastructure, vehicles and different road users were not dealt with by the proposed design changes. 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While a safe systems approach has long been acknowledged as the underlying philosophy of contemporary road safety strategies, systemic applications are sparse. This article argues that systems-based methods from the discipline of Ergonomics have a key role to play in road transport design and evaluation. To demonstrate, the Cognitive Work Analysis framework was used to evaluate two road designs – a traditional Melbourne intersection and a cut-through design for future intersections based on road safety safe systems principles. The results demonstrate that, although the cut-through intersection appears different in layout from the traditional intersection, system constraints are not markedly different. Furthermore, the analyses demonstrated that redistribution of constraints in the cut-through intersection resulted in emergent behaviour, which was not anticipated and could prove problematic. 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subjects	Accidents, Traffic - prevention & control Australia Automobile Driving - psychology Cognition - physiology Cognitive work analysis Design engineering Environment Design Humans Incompatibility Intersection design Intersections Road design Road safety Road transport Roads Safe systems Safety Strategies analysis diagram Strategy Systems Analysis Systems approach Work measurement
title	Assessing the ‘system’ in safe systems-based road designs: Using cognitive work analysis to evaluate intersection designs
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