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Learning and Relearning Equipment Complexity: Achieving Safety in Engineering Complex Systems

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  • Дата: 27-04-2023, 00:45
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Learning and Relearning Equipment Complexity: Achieving Safety in Engineering Complex SystemsНазвание: Learning and Relearning Equipment Complexity: Achieving Safety in Engineering Complex Systems
Автор: Sasho Andonov
Издательство: CRC Press
Серия: Developments in Quality and Safety
Год: 2023
Страниц: 320
Язык: английский
Формат: pdf (true)
Размер: 10.2 MB

With industrial systems becoming ever more mechanized and reliant on advanced technology, the complexity of equipment, especially in risky industries, is increasing on a daily basis. A thorough understanding of operations and providing safety for these complex systems has become a firm requirement for many. This book offers the knowledge required by safety professionals to provide and maintain the safety of engineering complex systems.

Through a scientific and engineering approach to designing, implementing, operating, and maintaining complex systems, Learning and Relearning Equipment Complexity: Achieving Safety in Engineering Complex Systems details the need for more engineering and scientific knowledge to understand and maintain their safety. It gives clear explanations of reasons for a system’s complexity, based on control systems and non-linear dynamics. In addition, the book addresses the necessary changes in the approach and the procedures for the safety assessment of engineering complex systems. The reader will develop a thorough understanding of what complex systems are, why they are complex, and how they are utilized.

The Software is part of the system, but it is also more prone for human errors and as such, more critical for functioning of the Complex System. There is another thing which makes the Software very critical for Complex System’s operations. It has been shown that most of the Software-related faults and failures in Complex Systems are caused by the flaws in the requirements specifica- tions or they were not clearly determined. The point is: If there is a wrong requirement about specification, it cannot be detected, because it will pass every model, simulation and experiment for checking the Complex System. There are many methods and methodologies which can be used to provide Risk Assessment of Software. I would not go into details and I will not propose any of them. Just I would mention most used (as per literature on Internet). The most used methods are Software FMEA, PHA, Software FTA, and they (applied together) can be found under one name as HAZAPS (HAZard Assessment in Programmable Systems) methodology. However, I do not think and do not support approach that the Risk Assessment of the Software should be done by ordinary Safety Professionals.

This book will appeal to any safety professional tasked with complex systems. This extends to professionals in risky industries such as aviation, nuclear power, chemicals, railway and transport, and pharmaceuticals.

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