Roman Obermaisser's Books

Event-Triggered and Time-Triggered Control Paradigms

By: Roman Obermaisser

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Event-Triggered and Time-Triggered Control Paradigms

By: Roman Obermaisser

Event-Triggered and Time-Triggered Control Paradigms presents a valuable survey about existing architectures for safety-critical applications and discusses the issues that must be considered when moving from a federated to an integrated architecture. The book focuses on one key topic - the amalgamation of the event-triggered and the time-triggered control paradigm into a coherent integrated architecture. The architecture provides for the integration of independent distributed application subsystems by introducing multi-criticality nodes and virtual networks of known temporal properties. The feasibility and the tangible advantages of this new architecture are demonstrated with practical examples taken from the automotive industry. Event-Triggered and Time-Triggered Control Paradigms offers significant insights into the architecture and design of integrated embedded systems, both at the conceptual and at the practical level.

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Page Count

164

Publisher

Springer Science & Business Media

Published Date

ISBN 10

0387230440

ISBN 13

9780387230443

Event-Triggered and Time-Triggered Control Paradigms

By: Roman Obermaisser

Write a review Read reviews Take a Quiz Solve Book Puzzle

Event-Triggered and Time-Triggered Control Paradigms

By: Roman Obermaisser

Average ratings

N/A

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Solve jigsaw puzzle

Age

Page Count

164

Publisher

Springer Science & Business Media

Published Date

ISBN 10

0387230440

ISBN 13

9780387230443

Distributed Real-Time Architecture for Mixed-Criticality Systems

By: Hamidreza Ahmadian,Roman Obermaisser,Jon Perez

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Distributed Real-Time Architecture for Mixed-Criticality Systems

By: Hamidreza Ahmadian,Roman Obermaisser,Jon Perez

This book describes a cross-domain architecture and design tools for networked complex systems where application subsystems of different criticality coexist and interact on networked multi-core chips. The architecture leverages multi-core platforms for a hierarchical system perspective of mixed-criticality applications. This system perspective is realized by virtualization to establish security, safety and real-time performance. The impact further includes a reduction of time-to-market, decreased development, deployment and maintenance cost, and the exploitation of the economies of scale through cross-domain components and tools. Describes an end-to-end architecture for hypervisor-level, chip-level, and cluster level. Offers a solution for different types of resources including processors, on-chip communication, off-chip communication, and I/O. Provides a cross-domain approach with examples for wind-power, health-care, and avionics. Introduces hierarchical adaptation strategies for mixed-criticality systems Provides modular verification and certification methods for the seamless integration of mixed-criticality systems. Covers platform technologies, along with a methodology for the development process. Presents an experimental evaluation of technological results in cooperation with industrial partners. The information in this book will be extremely useful to industry leaders who design and manufacture products with distributed embedded systems in mixed-criticality use-cases. It will also benefit suppliers of embedded components or development tools used in this area. As an educational tool, this material can be used to teach students and working professionals in areas including embedded systems, computer networks, system architecture, dependability, real-time systems, and avionics, wind-power and health-care systems.

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Page Count

508

Publisher

CRC Press

Published Date

ISBN 10

1351117823

ISBN 13

9781351117821

Book's by Roman Obermaisser

Event-Triggered and Time-Triggered Control Paradigms

Event-Triggered and Time-Triggered Control Paradigms

Event-Triggered and Time-Triggered Control Paradigms

Event-Triggered and Time-Triggered Control Paradigms

Distributed Real-Time Architecture for Mixed-Criticality Systems

Distributed Real-Time Architecture for Mixed-Criticality Systems

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