Runtime Reconfiguration In Networked Embedded Systems: Design And Testing Practices (internet Of Things)
by George Exarchakos /
2016 / English / PDF
8.2 MB Download
This book focuses on the design and testing of large-scale,
distributed signal processing systems, with a special emphasis on
systems architecture, tooling and best practices. Architecture
modeling, model checking, model-based evaluation and model-based
design optimization occupy central roles. Target systems with
resource constraints on processing, communication or energy
supply require non-trivial methodologies to model their
non-functional requirements, such as timeliness, robustness,
lifetime and “evolution” capacity. Besides the theoretical
foundations of the methodology, an engineering process and
toolchain are described. Real-world cases illustrate the theory
and practice tested by the authors in the course of the European
project ARTEMIS DEMANES. The book can be used as a “cookbook” for
designers and practitioners working with complex embedded systems
like sensor networks for the structural integrity monitoring of
steel bridges, and distributed micro-climate control systems for
greenhouses and smart homes.
This book focuses on the design and testing of large-scale,
distributed signal processing systems, with a special emphasis on
systems architecture, tooling and best practices. Architecture
modeling, model checking, model-based evaluation and model-based
design optimization occupy central roles. Target systems with
resource constraints on processing, communication or energy
supply require non-trivial methodologies to model their
non-functional requirements, such as timeliness, robustness,
lifetime and “evolution” capacity. Besides the theoretical
foundations of the methodology, an engineering process and
toolchain are described. Real-world cases illustrate the theory
and practice tested by the authors in the course of the European
project ARTEMIS DEMANES. The book can be used as a “cookbook” for
designers and practitioners working with complex embedded systems
like sensor networks for the structural integrity monitoring of
steel bridges, and distributed micro-climate control systems for
greenhouses and smart homes.