This book presents reference architecture as a key blueprint to develop and evolve critical software-intensive systems, emphasizing both the state of the art in research and successful industrial cases.
After outlining the theoretical foundations of reference architecture and presenting an overview of a number of reference architectures proposed over the recent years, this book dives into a set of critical application domains, including defense, health, automotive, avionics, and Industry 4.0, highlighting the respective most relevant reference architectures that have impacted these domains, the experience and lessons learned, insights gained, benefits and drawbacks, and factors that make these architectures sustainable. The book finishes with the most relevant directions for future advances in reference architectures.The content of this book is useful for researchers and advanced professionals in industry in the areas of computing and engineering, as well as in critical application domains that increasingly require interconnected, large, and complex software-intensive systems.
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1. Introduction.- 2. An Overview of Reference Architectures.- 3. Reference Architectures for Telecommunication Systems.- 4. Reference Architectures for Health.- 5. Reference Architectures for Automotive Software.- 6. Reference Architecture for Commercial Avionics Software.- 7. Reference Architectures for Industry 4.0.- 8. Domain-Independent Reference Architectures and Standards.- 9. Future Advances in Reference Architectures.- 10. Final Remarks.
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This book presents reference architecture as a key blueprint to develop and evolve critical software-intensive systems, emphasizing both the state of the art in research and successful industrial cases.After outlining the theoretical foundations of reference architecture and presenting an overview of a number of reference architectures proposed over the recent years, this book dives into a set of critical application domains, including defense, health, automotive, avionics, and Industry 4.0, highlighting the respective most relevant reference architectures that have impacted these domains, the experience and lessons learned, insights gained, benefits and drawbacks, and factors that make these architectures sustainable. The book finishes with the most relevant directions for future advances in reference architectures.The content of this book is useful for researchers and advanced professionals in industry in theareas of computing and engineering, as well as in critical application domains that increasingly require interconnected, large, and complex software-intensive systems.
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“This book helps software architects and practitioners to understand how reference architectures are used today and how they perceive the needs for future architectures in the marketplace.” (from the Foreword by Rick Kazman, U Hawaii, USA and Rafael Capilla, Rey Juan Carlos University, Spain)
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Presents reference architecture as a key blueprint to develop and evolve critical software-intensive systems Details reference architectures from various domains, incl. defense, health, automotive, avionics, and Industry 4.0 Provides an overview of the most relevant directions for future research on reference architectures
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Produktdetaljer
ISBN
9783031169595
Publisert
2024-04-01
Utgiver
Vendor
Springer International Publishing AG
Høyde
235 mm
Bredde
155 mm
Aldersnivå
Research, P, 06
Språk
Product language
Engelsk
Format
Product format
Heftet
Om bidragsyterne
Elisa Yumi Nakagawa is Associate Professor in the Department of Computer Systems at the University of São Paulo - USP, Brazil. She was a visiting professor at Fraunhofer IESE, Germany, in 2019–2020 and at the University of South Brittany, France, in 2014-2015. She has coordinated international as well as national research projects in software architecture, reference architectures, and systems-of-systems.
Pablo Oliveira Antonino is Head of the Virtual Engineering at Fraunhofer IESE, Kaiserslautern, Germany. He has led industry projects on the construction, evaluation, and simulation of architectures of dependable embedded systems for diverse critical domains, such as automotive, avionics, agriculture and construction machines, medical devices, and smart industries.