Human Error Risk Management For Engineering Systems
Request full-text Human error risk management for engineering systems: A methodology for design, safety assessment, accident investigation and trainingArticle in Reliability Engineering [?] System Safety 83(2):229-240 · February 2004 with 45 ReadsDOI: 10.1016/j.ress.2003.09.013 1st P.C CacciabueAbstractThe objective of this paper is to tackle methodological issues associated with the inclusion of cognitive and dynamic considerations into Human Reliability methods. A methodology called Human Error Risk Management for Engineering Systems is presented that offers a ‘roadmap’ for selecting and consistently applying Human Factors approaches in different areas of application and contains also a ‘body’ of possible methods and techniques of its own. Two types of possible application are discussed to demonstrate practical applications of the methodology. Specific attention is dedicated to the issue of data collection and definition from specific field assessment.Do you want to read the rest of this article?Request full-text CitationsCitations44ReferencesReferences20Ergonomics of IT outsourcing. Development of a mathematical model to distribute functions among operators"Особенностью этих исследований было " разовое " решение задачи в условиях относительной стабильности параметров системы управления. Для гибких систем с переменной функциональной структурой задача распределения функций эффективно может быть решена только на основе оценок показателей безошибочности и своевременности алгоритмов функционирования (АФ) т. е. процессов человекомашинного взаимодействия [5, 6] . Это возможно, если в качестве базовой выбрать функционально-структурную теорию эрготехнических систем [12, 13] , которая обеспечивает на основе единого системного подхода моделирование процессов человеко-машинного взаимодействия: – форм
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from GoogleSign inHidden fieldsBooksbooks.google.com - Recent accidents in a range of industries have increased concern over the design, development, management and control of safety-critical systems. Attention has now focused upon the role of human error both in the development and in the operation of complex processes. Human Error, Safety and Systems Development...https://books.google.com/books/about/Human_Error_Safety_and_Systems_Developme.html?id=wMrTBwAAQBAJ&utm_source=gb-gplus-shareHuman Error, Safety and Systems DevelopmentMy libraryHelpAdvanced Book SearchGet print bookNo eBook availableSpringer ShopAmazon.comBarnes&Noble.comBooks-A-MillionIndieBoundFind in a libraryAll sellers»Get Textbooks on Google PlayRent and save from the world's largest eBookstore. Read, highlight, and take notes, across web, tablet, and phone.Go to Google Play Now »Human Error, Safety and Systems Development: IFIP 18th World Computer Congress TC13 / WG13.5 7th Working Conference on Human Error, Safety and Systems Development 22–27 August 2004 Toulouse, FrancePhilippe Palanque, Chris JohnsonSpringer, Apr 11, 2006 - Technology & Engineering - 322 pages 0 Reviewshttps://books.google.com/books/about/Human_Error_Safety_and_Systems_Developme.html?id=wMrTBwAAQBAJRecent accidents in a range of industries have increased concern over the design, development, management and control of safety-critical systems. Attention has now focused upon the role of human error both in the development and in the operation of complex processes. Human Error, Safety and Systems Development gathers contributions from practitioners and researchers presenting and discussing leading edge techniques that can be used to mitigate the impact of error (both system and human) on safety-critical systems. Some of these contributions can be easily integrated into existing systems engineering practices while others provide a more theoretical and fundamental perspective on the issues raised by these kinds of interactive systems. More precisely the contributions cover the following themes:–Techniques for incident and accident analysis; –Empirical studies of operator behaviour in safety-critical systems; –Observational studies of safety-critical systems; –Risk assessment techniques for interactive systems; –Safety-related interface design, development and testing; –Formal description techniques for the design and development of safety-critical interactive systems.Many diverse sectors are covered, including but not limited to aviation, maritime and the