E-Book, Englisch, 404 Seiten
Delsing IoT Automation
1. Auflage 2017
ISBN: 978-1-4987-5676-1
Verlag: CRC Press
Format: PDF
Kopierschutz: Adobe DRM (»Systemvoraussetzungen)
Arrowhead Framework
E-Book, Englisch, 404 Seiten
ISBN: 978-1-4987-5676-1
Verlag: CRC Press
Format: PDF
Kopierschutz: Adobe DRM (»Systemvoraussetzungen)
This book presents an in-depth description of the Arrowhead Framework and how it fosters interoperability between IoT devices at service level, specifically addressing application. The Arrowhead Framework utilizes SOA technology and the concepts of local clouds to provide required automation capabilities such as: real time control, security, scalability, and engineering simplicity. Arrowhead Framework supports the realization of collaborative automation; it is the only IoT Framework that addresses global interoperability across multiplet SOA technologies. With these features, the Arrowhead Framework enables the design, engineering, and operation of large automation systems for a wide range of applications utilizing IoT and CPS technologies. The book provides application examples from a wide number of industrial fields e.g. airline maintenance, mining maintenance, smart production, electro-mobility, automative test, smart cities—all in response to EU societal challenges.
Autoren/Hrsg.
Weitere Infos & Material
Foreword
Preface
List of Figures
List of Tables
Contributors
1 Towards industrial and societal automation and digitisation
Jerker Delsing
1.1 The need for new technology
1.2 From DCS and SCADA to Internet of Things and System of Systems
1.3 Automation system architectures
1.4 Current trends in automations systems
1.5 Future automation system requirements
1.6 Next generation automation and digitisation technology – IoT and SoS
1.7 The local automation cloud approach
2 Local automation clouds
Jerker Delsing and Pal Varga
2.1 The local cloud concept
2.2 Local cloud properties
2.3 Local cloud establishment
2.4 Automation support
2.5 Automation application engineering in local clouds
2.6 Latency in local clouds
2.7 Security in local clouds
2.8 System of systems scalability
3 The Arrowhead Framework architecture
Jerker Delsing, Pal Varga, Luis Ferreira, Michele Albano, Pablo Puñal
Pereira, Jens Eliasson, Oscar Carlsson, and Hasan Derhamy
3.1 Architecture fundamentals
3.2 Important definitions
3.3 Documentation Structure
3.4 The Arrowhead Framework architecture
4 Arrowhead Framework core systems and services
Jerker Delsing, Jens Eliasson, Michele Albano, Pal Varga, Luis Ferreira,
Hasan Derhamy, Csaba Hegedus, Pablo Puñal Pereira, and Oscar Carlsson
4.1 Introduction
4.2 Mandatory core systems and services
4.3 Automation support core systems
5 Application system and services: design and implementation - a cook book
Jerker Delsing, Michele Albano, Luis Ferreira, Fredrik Blomstedt, Per
Olovsson, Pal Varga, Federico Montori, and Fabio Viola
5.1 Introduction
5.2 Application service design
5.3 Demo system
5.4 Implementation - simple examples
5.5 Deployment of a local cloud
5.6 Arrowhead Framework tools
6 Engineering of IoT automation systems
Oscar Carlsson, Daniel Vera, Eduardo Arceredillo, Markus G. Tauber, Bilal
Ahmad, Christoph Schmittner, Sandor Plosz, Thomas Ruprechter, Andreas
Aldrian, and Jerker Delsing
6.1 Introduction
6.2 Engineering of an Arrowhead compatible multi-domain facility
6.3 A Component-based Engineering methodology
6.4 Safety and Security Engineering of IoT automation systems
6.5 Engineering scenarios
7 Application system design - energy optimisation
Michele Albano, Rodrigo Castiñeira, Chloé Desdouits, Luis L Ferreira,
Thibaut Le Guilly, Inge Isasa, Jani Jokinen, Kaspars Kondratjevs, Nadezhda
Kunicina, Lorenzo Manero, Aitor Milo, Javier Monge, Claude Le Pape, Per D
Pedersen, Torben Bach Pedersen, Petur Olsen, Laurynas Šikšnys, Arne Skou,
Radislav Smid, Rafael Socorro, Petr Stluka, and Anatolijs Zabasta
7.1 Introduction
7.2 Market as an energy optimising method
7.3 Optimisations based on a virtual market of energy
7.4 Energy optimisation on lifts
7.5 Context aware streets
7.6 Optimization of municipal service systems
7.7 Conclusion
8 Application system design - maintenance
Erkki Jantunen, Mika Karaila, David Hästbacka, Antti Koistinen, Laurentiu
Barna, Esko Juuso, Pablo Puñal Pereira, Stéphane Besseau, and Julien
Hoepffner
8.1 Widening the scope: Managing maintenance data in large multifunctional
plant environments
8.2 An Aircraft Maintenance System
8.3 Glossary
9 Application system design: complex systems management
and automation 289
Michele Ornato, Tullio Salmon Cinotti, Alberto Borghetti, Paolo Azzoni,
Alfredo D’Elia, Fabio Viola, Federico Montori, and Riccardo Venanzi
9.1 Introduction
9.2 Vision from an automation perspective
9.3 The Electro Mobility Systems of Systems
9.4 The electric vehicle and the recharge infrastructure
9.5 The Arrowhead SOA Electro Mobility solution
9.6 Systems and Services
9.7 Arrowhead Electro Mobility services and related automation aspects
9.8 Co-Simulation Platform
9.9 Conclusions
9.10 Glossary
10 Application System Design - High Security
Aldrian Andreas, Peter Priller, Christoph Schmittner, Sandor Plosz,
Markus Tauber, Christina Wagner, Daniel Hein, Thomas Ebner, Martin Maritsch,
Thomas Ruprechter, and Christian Lesjak
10.1 Introduction
10.2 Smart Maintenance Use Case
10.3 Authentication and Certification Service
10.4 ISO/IEC 20922 Support for the Smart Service Architecture
10.5 Safety and Security Analysis for Identifying System Vulnerabilities
10.6 Summary
11 Application system design - smart production
Daniel Vera, Robert Harrison, Bilal Hamed, Claude le Pape, Chloe Desdouits,
and Hasan Derhamy
11.1 Automotive manufacturing
11.2 Manufacturing of electrical cabinets
11.3 Asset localisation in mines
11.4 Glossary
