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This book describes the emerging field of self-organizing, multicore, distributed and real-time embedded systems. Self ‐organization of both hardware and software can be a key technique to handle the growing complexity of modern computing systems. Distributed systems running hundreds of tasks on dozens of processors, each equipped with multiple cores, requires self‐organization principles to ensure efficient and reliable operation. This book addresses various, so-called Self‐X features such as self-configuration, self‐optimization, self‐adaptation, self‐healing and self‐protection.
This book describes the emerging field of self-organizing, multicore, distributed and real-time embedded systems. Self
‐organization of both hardware and software can be a key technique to handle the growing complexity of modern computing systems. Distributed systems running hundreds of tasks on dozens of processors, each equipped with multiple cores, requires self‐organization principles to ensure efficient and reliable operation. This book addresses various, so-called Self‐X features such as self-configuration, self‐optimization, self‐adaptation, self‐healing and self‐protection.
Uwe Brinkschulte ist seit 1. April 1995 Professor für Mikrorechnertechnologien in der Automatisierung am Institut für Prozessrechentechnik, Automation und Robotik der Universität Karlsruhe. Uwe Brinkschulte ist Autor und Co-Autor zahlreicher Veröffentlichungen im Bereich hardwarenaher Echtzeitsysteme. Er liest in regelmäßigem Turnus die Grundlagenvorlesung Technische Informatik sowie Vertiefungsvorlesungen über Mikrorechner und Mikrocontroller an der Universität Karlsruhe.
Inhaltsangabe
A Control Theory Approach to Improve Microprocessors for Real-Time Applications by Self-Adapting Thread Performance.- Providing safety-critical and real-time services for mobile devices in uncertain environment.- Self-Organizing Real-Time Services in Mobile Ad Hoc Networks.- Swarm Robotic Time Synchronization for Object Tracking.- Improving Performance of Controller Area Network (CAN) by Adaptive Message Scheduling.- Self-configurable Automotive Embedded Systems.- Composing Adaptive Distributed Embedded and Real-Time Java Systems Based on RTSJ.- The ASSL Formalism for Real-Time Autonomic Systems.- Organic Real-Time Middleware.
A Control Theory Approach to Improve Microprocessors for Real-Time Applications by Self-Adapting Thread Performance.- Providing safety-critical and real-time services for mobile devices in uncertain environment.- Self-Organizing Real-Time Services in Mobile Ad Hoc Networks.- Swarm Robotic Time Synchronization for Object Tracking.- Improving Performance of Controller Area Network (CAN) by Adaptive Message Scheduling.- Self-configurable Automotive Embedded Systems.- Composing Adaptive Distributed Embedded and Real-Time Java Systems Based on RTSJ.- The ASSL Formalism for Real-Time Autonomic Systems.- Organic Real-Time Middleware.
A Control Theory Approach to Improve Microprocessors for Real-Time Applications by Self-Adapting Thread Performance.- Providing safety-critical and real-time services for mobile devices in uncertain environment.- Self-Organizing Real-Time Services in Mobile Ad Hoc Networks.- Swarm Robotic Time Synchronization for Object Tracking.- Improving Performance of Controller Area Network (CAN) by Adaptive Message Scheduling.- Self-configurable Automotive Embedded Systems.- Composing Adaptive Distributed Embedded and Real-Time Java Systems Based on RTSJ.- The ASSL Formalism for Real-Time Autonomic Systems.- Organic Real-Time Middleware.
A Control Theory Approach to Improve Microprocessors for Real-Time Applications by Self-Adapting Thread Performance.- Providing safety-critical and real-time services for mobile devices in uncertain environment.- Self-Organizing Real-Time Services in Mobile Ad Hoc Networks.- Swarm Robotic Time Synchronization for Object Tracking.- Improving Performance of Controller Area Network (CAN) by Adaptive Message Scheduling.- Self-configurable Automotive Embedded Systems.- Composing Adaptive Distributed Embedded and Real-Time Java Systems Based on RTSJ.- The ASSL Formalism for Real-Time Autonomic Systems.- Organic Real-Time Middleware.
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