This book provides an overview of, and practical guidance on, the range of human factors (HF) methods that can be used for the purposes of accident analysis and investigation in complex sociotechnical systems. Human Factors Methods and Accident Analysis begins with an overview of different accident causation models and an introduction to the concepts of accident analysis and investigation. It then presents a discussion focussing on the importance of, and difficulties associated with, collecting appropriate data for accident analysis purposes. Following this, a range of HF-based accident analysis methods are described, as well as step-by-step guidance on how to apply them. To demonstrate how the different methods are applied, and what the outputs are, the book presents a series of case study applications across a range of safety critical domains. It concludes with a chapter focussing on the data challenges faced when collecting, coding and analysing accident data, along with future directions in the area. Human Factors Methods and Accident Analysis is the first book to offer a practical guide for investigators, practitioners and researchers wishing to apply accident analysis methods. It is also unique in presenting a series of novel applications of accident analysis methods, including HF methods not previously used for these purposes (e.g. EAST, critical path analysis), as well as applications of methods in new domains.
Systems thinking tells us that human error, violations and technology failures result from poorly designed and managed work systems. To help us understand and prevent injuries and incidents, incident reporting systems must be capable of collecting data on contributory factors from across the overall work system, in addition to factors relating to the immediate context of the event (e.g. front-line workers, environment, and equipment). This book describes how to design a practical, usable incident reporting system based on this approach. The book contains all the information needed to effectively design and implement a new incident reporting system underpinned by systems thinking. It also provides guidance on how to evaluate and improve existing incident reporting systems so they are practical for users, collect good quality data, and reflect the principles of systems thinking. Features Highlights the key principles of systems thinking for designing incident reporting systems Outlines a process for developing and testing incident reporting systems Describes how to evaluate incident reporting systems to ensure they are practical, usable, and collect good quality data Provides detailed guidance on how to analyze incident data, and translate the findings into appropriate incident prevention strategies
Governments and road safety agencies around the world have either introduced or are considering 'safe system' strategies, a long overdue acknowledgement that different elements of the road system contribute to road safety outcomes. Human factors approaches have a leading role here in both conceptualising the road system as a complex sociotechnical system and in providing practical approaches to support true systems-based countermeasures. This book illustrates the potential for integrating contemporary systems-based human factors methods with modern day driving-assessment methods, such as vehicle instrumentation and driving simulation, to understand and enhance performance in modern day road-transport systems. The book outlines why a fundamental paradigm shift is needed in the way these systems are designed and operated, and illustrates how a wide range of accepted human-factors approaches can be applied successfully to road transport to revolutionise the countermeasure design process. The practical illustrations of these human factors methods are applied to a long-standing road and rail safety issue: rail level crossings, where the road and rail systems intersect. The final chapter of the book highlights the utility of the human factors approach to reducing road trauma and discusses future applications of the approach.
It’s a widely recognised trend that powered-two-wheelers' (PTWs) use has been steadily increasing and is projected to increase further. While providing benefits to the community in the form of reduced traffic congestion and environmental benefits, the risks to PTW riders remain and visibility will always be a key issue. Increasing Motorcycle Conspicuity aims to illustrate how driving simulation, field studies and laboratory experiments can be used to improve rider safety through the design and evaluation of a range of safety measures. The book outlines the factors that contribute to PTW visibility and detection by car drivers, and presents case studies to illustrate how the various methods can be used to explore the contribution of these factors. The final chapter of the book highlights the utility of a simulation-based approach to improving PTW safety and discusses this method’s future applications. The case studies collected within the volume cover phases of the design of conspicuity treatments and provide a broad spectrum of empirical strategies for assessing the interventions. The book is most directly relevant to researchers and applied scientists from the fields of traffic/transportation psychology and human factors, as well as to practitioners from the traffic safety sector.
How can we design transport environments that cater to the situation awareness needs of different end-users? This book answers this question by showcasing how state-of-the-art human factors theory and methods can be used to understand how situation awareness differs across drivers, cyclists, motorcyclists, and pedestrians and creates new designs that cater to these diverse situation awareness needs. Written by experts in the field and based on a major program of work funded by the Australian Research Council, this book outlines the distributed situation awareness model and provides practical guidance on how to study situation awareness naturalistically and how to create designs that support, rather than hinder, situation awareness. The book closes by outlining outline a generic framework to support similar applications in other areas, and discusses future applications in areas such as vehicle automation, artificial intelligence, and cybersecurity. Features Challenges traditional road safety analysis, design processes and conventions Outlines a novel on-road study methodology for analyzing naturalistic interactions among drivers, cyclists, motorcyclists and pedestrians Presents a review of state-of-the-art situation awareness theory and methods Provides practical guidance on a series of human factors methods Describes a framework to support the design of transport environments Evaluates new intersection concepts that encompass features designed to prevent collisions at intersections
Systems thinking tells us that human error, violations and technology failures result from poorly designed and managed work systems. To help us understand and prevent injuries and incidents, incident reporting systems must be capable of collecting data on contributory factors from across the overall work system, in addition to factors relating to the immediate context of the event (e.g. front-line workers, environment, and equipment). This book describes how to design a practical, usable incident reporting system based on this approach. The book contains all the information needed to effectively design and implement a new incident reporting system underpinned by systems thinking. It also provides guidance on how to evaluate and improve existing incident reporting systems so they are practical for users, collect good quality data, and reflect the principles of systems thinking. Features Highlights the key principles of systems thinking for designing incident reporting systems Outlines a process for developing and testing incident reporting systems Describes how to evaluate incident reporting systems to ensure they are practical, usable, and collect good quality data Provides detailed guidance on how to analyze incident data, and translate the findings into appropriate incident prevention strategies
This book provides an overview of, and practical guidance on, the range of human factors (HF) methods that can be used for the purposes of accident analysis and investigation in complex sociotechnical systems. Human Factors Methods and Accident Analysis begins with an overview of different accident causation models and an introduction to the concepts of accident analysis and investigation. It then presents a discussion focussing on the importance of, and difficulties associated with, collecting appropriate data for accident analysis purposes. Following this, a range of HF-based accident analysis methods are described, as well as step-by-step guidance on how to apply them. To demonstrate how the different methods are applied, and what the outputs are, the book presents a series of case study applications across a range of safety critical domains. It concludes with a chapter focussing on the data challenges faced when collecting, coding and analysing accident data, along with future directions in the area. Human Factors Methods and Accident Analysis is the first book to offer a practical guide for investigators, practitioners and researchers wishing to apply accident analysis methods. It is also unique in presenting a series of novel applications of accident analysis methods, including HF methods not previously used for these purposes (e.g. EAST, critical path analysis), as well as applications of methods in new domains.
In the summer of 1943, the country of Finland face certain annihilation from Russia. A plan for neutral Sweden to temporarily adopt Finland's children until the war's end is developed. Within three months, an operation called Finska Krigsbarn becomes the greatest exodus of children in recorded history.
Governments and road safety agencies around the world have either introduced or are considering 'safe system' strategies, a long overdue acknowledgement that different elements of the road system contribute to road safety outcomes. Human factors approaches have a leading role here in both conceptualising the road system as a complex sociotechnical system and in providing practical approaches to support true systems-based countermeasures. This book illustrates the potential for integrating contemporary systems-based human factors methods with modern day driving-assessment methods, such as vehicle instrumentation and driving simulation, to understand and enhance performance in modern day road-transport systems. The book outlines why a fundamental paradigm shift is needed in the way these systems are designed and operated, and illustrates how a wide range of accepted human-factors approaches can be applied successfully to road transport to revolutionise the countermeasure design process. The practical illustrations of these human factors methods are applied to a long-standing road and rail safety issue: rail level crossings, where the road and rail systems intersect. The final chapter of the book highlights the utility of the human factors approach to reducing road trauma and discusses future applications of the approach.
How can we design transport environments that cater to the situation awareness needs of different end-users? This book answers this question by showcasing how state-of-the-art human factors theory and methods can be used to understand how situation awareness differs across drivers, cyclists, motorcyclists, and pedestrians and creates new designs that cater to these diverse situation awareness needs. Written by experts in the field and based on a major program of work funded by the Australian Research Council, this book outlines the distributed situation awareness model and provides practical guidance on how to study situation awareness naturalistically and how to create designs that support, rather than hinder, situation awareness. The book closes by outlining outline a generic framework to support similar applications in other areas, and discusses future applications in areas such as vehicle automation, artificial intelligence, and cybersecurity. Features Challenges traditional road safety analysis, design processes and conventions Outlines a novel on-road study methodology for analyzing naturalistic interactions among drivers, cyclists, motorcyclists and pedestrians Presents a review of state-of-the-art situation awareness theory and methods Provides practical guidance on a series of human factors methods Describes a framework to support the design of transport environments Evaluates new intersection concepts that encompass features designed to prevent collisions at intersections
Systems thinking tells us that human error, violations and technology failures result from poorly designed and managed work systems. To help us understand and prevent injuries and incidents, incident reporting systems must be capable of collecting data on contributory factors from across the overall work system, in addition to factors relating to the immediate context of the event (e.g. front-line workers, environment, and equipment). This book describes how to design a practical, usable incident reporting system based on this approach. The book contains all the information needed to effectively design and implement a new incident reporting system underpinned by systems thinking. It also provides guidance on how to evaluate and improve existing incident reporting systems so they are practical for users, collect good quality data, and reflect the principles of systems thinking. Features Highlights the key principles of systems thinking for designing incident reporting systems Outlines a process for developing and testing incident reporting systems Describes how to evaluate incident reporting systems to ensure they are practical, usable, and collect good quality data Provides detailed guidance on how to analyze incident data, and translate the findings into appropriate incident prevention strategies
It’s a widely recognised trend that powered-two-wheelers' (PTWs) use has been steadily increasing and is projected to increase further. While providing benefits to the community in the form of reduced traffic congestion and environmental benefits, the risks to PTW riders remain and visibility will always be a key issue. Increasing Motorcycle Conspicuity aims to illustrate how driving simulation, field studies and laboratory experiments can be used to improve rider safety through the design and evaluation of a range of safety measures. The book outlines the factors that contribute to PTW visibility and detection by car drivers, and presents case studies to illustrate how the various methods can be used to explore the contribution of these factors. The final chapter of the book highlights the utility of a simulation-based approach to improving PTW safety and discusses this method’s future applications. The case studies collected within the volume cover phases of the design of conspicuity treatments and provide a broad spectrum of empirical strategies for assessing the interventions. The book is most directly relevant to researchers and applied scientists from the fields of traffic/transportation psychology and human factors, as well as to practitioners from the traffic safety sector.
Drawing on scientific evidence from medicine, psychology, criminology, and sociology, this book explores the veracity of claims about marijuana use and misuse. Is marijuana an innocent recreational pleasure and medicinal boon or an evil that must be outlawed to protect the American public? With the legal and social status of marijuana in transition, accurate and objective information regarding its use is necessary for informed decisionmaking in both the personal and political arenas. To distinguish truth from fiction, this book draws on scientific evidence from medicine, psychology, criminology, and sociology, exploring many of the most commonly held beliefs about marijuana and documenting the scope and impact of its use-and abuse-in the United States. The work is organized around five broad topics: patterns and trends; risks and benefits; causes and consequences; criminalization; and practice and policy. It opens with examinations of use and abuse trends among various U.S. subpopulations, then goes on to scrutinize claims about the medical risks associated with the substance. Social and interpersonal causes and consequences of marijuana use are addressed, as is the history and future of marijuana legislation in the United States. Readers will come away from this book with broad-based knowledge about marijuana-and a scientifically grounded understanding of the benefits and risks of marijuana use.
Presents region-by-region information for travelers to Germany, including details on its history, landscape, historic sites, hotels and restaurants, and more, and provides color photographs, maps, and cutaway illustrations.
Human Laterality presents the main facts of human laterality as they are known. Drawing on evidence from normal, intact human beings and neurological patients, along with material on asymmetries in other species, this book traces the development of laterality, its evolution, and inheritance. This text also reviews the literature on the relation between laterality and developmental disorders of speech and language, including dyslexia, stuttering, and dysphasia. This book is organized into nine chapters and begins with an overview of the development of knowledge and ideas about laterality over the course of history. This text gives an account of the myths that abound regarding handedness, including the association of right with male and left with female, with the goal of demythologizing human laterality. It argues that there is a common basis to both handedness and cerebral lateralization, and indeed to other manifestations of human laterality such as eyedness and footedness, and that lateralization is fundamentally biological rather than sociocultural. Human laterality is also seen as an innate disposition rather than a matter of learning or imitation. In the final chapter, this book speculates about the possible origins of laterality in the fundamental asymmetries of living molecules and of particle physics. This book is essential reading for biologists and researchers interested in the human anatomy.
In the summer of 1943, the country of Finland face certain annihilation from Russia. A plan for neutral Sweden to temporarily adopt Finland's children until the war's end is developed. Within three months, an operation called Finska Krigsbarn becomes the greatest exodus of children in recorded history.
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