Rasmussen's legacy in the great outdoors : A new incident reporting and learning system for led outdoor activities
- Authors: Salmon, Paul , Goode, Natassia , Taylor, Natalie , Lenne, Michael , Dallat, Clare , Finch, Caroline
- Date: 2017
- Type: Text , Journal article
- Relation: Applied Ergonomics Vol. 59, no. (2017), p. 637-648
- Relation: http://purl.org/au-research/grants/nhmrc/565900
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- Description: Jens Rasmussen's seminal risk management framework and accompanying Accimap method have become highly popular in safety science circles. Despite this, widespread adoption of the model and method in practice has not yet been achieved. This paper describes a project involving the development and implementation of an incident reporting and learning system underpinned by Rasmussen's risk management framework and Accimap method. The system was developed for the led outdoor activity sector in Australia to enable reporting and analysis of injuries and near miss incidents, with the aim of supporting the development of more effective countermeasures. An analysis of the data derived from the first 3 months use of the system by 43 organisations is presented. The outputs provide an in-depth Accimap-based analysis of all incidents reported by participating organisations over the 3 month period. In closing, the importance of developing usable domain specific tools to support translation of Ergonomics theory and methods in practice is discussed.
- Description: Jens Rasmussen's seminal risk management framework and accompanying Accimap method have become highly popular in safety science circles. Despite this, widespread adoption of the model and method in practice has not yet been achieved. This paper describes a project involving the development and implementation of an incident reporting and learning system underpinned by Rasmussen's risk management framework and Accimap method. The system was developed for the led outdoor activity sector in Australia to enable reporting and analysis of injuries and near miss incidents, with the aim of supporting the development of more effective countermeasures. An analysis of the data derived from the first 3 months use of the system by 43 organisations is presented. The outputs provide an in-depth Accimap-based analysis of all incidents reported by participating organisations over the 3 month period. In closing, the importance of developing usable domain specific tools to support translation of Ergonomics theory and methods in practice is discussed. (C) 2015 Elsevier Ltd. All rights reserved.
Lost in translation: the validity of a systemic accident analysis method embedded in an incident reporting software tool
- Authors: Goode, Natassia , Salmon, Paul , Taylor, Natalie , Lenné, Michael , Finch, Caroline
- Date: 2016
- Type: Text , Journal article
- Relation: Theoretical Issues in Ergonomics Science Vol. 17, no. 5-6 (2016), p. 483-506
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- Description: ABSTRACT Despite the proposed advantages of systems accident analysis (SAA) methods for understanding incident causation, they have not been widely adopted by practitioners. The aim of this study was to evaluate the criterion-referenced validity of an SAA method embedded within an incident reporting software tool. Thirteen practitioners used the tool to collect and analyse incident data within their organisation. The incident data were then analysed by researchers experienced in using the SAA method. Overall, there were low levels of agreement between participants and researchers regarding the identification and classification of factors and relationships. The findings indicate the systems thinking principles underpinning the SAA method may have been ‘lost in translation’, in that participants often identified only one or two factors and showed a poor understanding of how to identify relationships between factors. The methodological developments required to ensure that practitioners can validly apply the SAA method are discussed.
Closing Pandora's Box : Adapting a systems ergonomics methodology for better understanding the ecological complexity underpinning the development and prevention of running-related injury
- Authors: Hulme, Adam , Salmon, Paul , Nielsen, Rasmus , Read, Gemma , Finch, Caroline
- Date: 2017
- Type: Text , Journal article
- Relation: Theoretical Issues in Ergonomics Science Vol. 18, no. 4 (2017), p. 338-359
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- Description: The popularity of running as a form of exercise continues to increase dramatically worldwide. Alongside this participation growth is the burden of running-related injury (RRI). Over the past four decades, traditional scientific research applications have primarily attempted to isolate discrete risk factors for RRI using observational study designs as commonly used in public health epidemiology. Unfortunately, only very few randomised controlled trials have evaluated the efficacy associated with a well-specified RRI prevention intervention. Even though the knowledge about risk factors as generated in observational studies is valuable for better understanding why RRI develops, it nonetheless means that there remains a major knowledge gap about how best to prevent it, especially in a way that fully addresses all causal factors. Alongside the continuing use of traditional scientific approaches, a particular systems ergonomics methodology should also be considered in light of its potential to visualise the complete distance running system. This article adapts the Systems Theoretic Accident Mapping and Processes (STAMP) model to the RRI research prevention context. The direct application of STAMP might offer new knowledge about how to prevent RRI, such as exposing questions around the feasibility of adopting novel injury prevention interventions that do not directly target runners themselves. © 2017 Informa UK Limited, trading as Taylor & Francis Group.
Developing a contributing factor classification scheme for Rasmussen's AcciMap : Reliability and validity evaluation
- Authors: Goode, Natassia , Salmon, Paul , Taylor, Natalie , Lenné, Michael , Finch, Caroline
- Date: 2017
- Type: Text , Journal article
- Relation: Applied Ergonomics Vol. 64, no. (2017), p. 14-26
- Relation: http://purl.org/au-research/grants/nhmrc/565900
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- Description: One factor potentially limiting the uptake of Rasmussen's (1997) Accimap method by practitioners is the lack of a contributing factor classification scheme to guide accident analyses. This article evaluates the intra- and inter-rater reliability and criterion-referenced validity of a classification scheme developed to support the use of Accimap by led outdoor activity (LOA) practitioners. The classification scheme has two levels: the system level describes the actors, artefacts and activity context in terms of 14 codes; the descriptor level breaks the system level codes down into 107 specific contributing factors. The study involved 11 LOA practitioners using the scheme on two separate occasions to code a pre-determined list of contributing factors identified from four incident reports. Criterion-referenced validity was assessed by comparing the codes selected by LOA practitioners to those selected by the method creators. Mean intra-rater reliability scores at the system (M = 83.6%) and descriptor (M = 74%) levels were acceptable. Mean inter-rater reliability scores were not consistently acceptable for both coding attempts at the system level (MT1 = 68.8%; M T2 = 73.9%), and were poor at the descriptor level (MT1 = 58.5%; M T2 = 64.1%). Mean criterion referenced validity scores at the system level were acceptable (MT1 = 73.9%; M T2 = 75.3%). However, they were not consistently acceptable at the descriptor level (MT1 = 67.6%; M T2 = 70.8%). Overall, the results indicate that the classification scheme does not currently satisfy reliability and validity requirements, and that further work is required. The implications for the design and development of contributing factors classification schemes are discussed. © 2017 Elsevier Ltd
From control to causation : Validating a ‘complex systems model’ of running-related injury development and prevention
- Authors: Hulme, Adam , Salmon, Paul , Nielsen, Rasmus , Read, Gemma , Finch, Caroline
- Date: 2017
- Type: Text , Journal article
- Relation: Applied Ergonomics Vol. 65, no. (2017), p. 345-354
- Full Text: false
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- Description: Introduction There is a need for an ecological and complex systems approach for better understanding the development and prevention of running-related injury (RRI). In a previous article, we proposed a prototype model of the Australian recreational distance running system which was based on the Systems Theoretic Accident Mapping and Processes (STAMP) method. That model included the influence of political, organisational, managerial, and sociocultural determinants alongside individual-level factors in relation to RRI development. The purpose of this study was to validate that prototype model by drawing on the expertise of both systems thinking and distance running experts. Materials and methods This study used a modified Delphi technique involving a series of online surveys (December 2016- March 2017). The initial survey was divided into four sections containing a total of seven questions pertaining to different features associated with the prototype model. Consensus in opinion about the validity of the prototype model was reached when the number of experts who agreed or disagreed with survey statement was ≥75% of the total number of respondents. Results A total of two Delphi rounds was needed to validate the prototype model. Out of a total of 51 experts who were initially contacted, 50.9% (n = 26) completed the first round of the Delphi, and 92.3% (n = 24) of those in the first round participated in the second. Most of the 24 full participants considered themselves to be a running expert (66.7%), and approximately a third indicated their expertise as a systems thinker (33.3%). After the second round, 91.7% of the experts agreed that the prototype model was a valid description of the Australian distance running system. Conclusion This is the first study to formally examine the development and prevention of RRI from an ecological and complex systems perspective. The validated model of the Australian distance running system facilitates theoretical advancement in terms of identifying practical system-wide opportunities for the implementation of sustainable RRI prevention interventions. This ‘big picture’ perspective represents the first step required when thinking about the range of contributory causal factors that affect other system elements, as well as runners' behaviours in relation to RRI risk. © 2017 Elsevier Ltd