Handbook of Real-Time and Embedded Systems

Handbook of Real-Time and Embedded Systems – Real-Time Data Services for Automotive Applications

Timp de citit: 2 minute

Autori:

  • Insup Lee – University of Pennsylvania Philadelphia, U.S.A.
  • Joseph Y-T. – Leung New Jersey Institute of Technology Newark, U.S.A.
  • Sang H. Son – University of Virginia Charlottesville, U.S.A.

Editura: Chapman & Hall/CRC – Taylor & Francis Group
An aparitie: 2008

Despre ce este vorba?

Conform Wikipedia, un sistem de operare in timp real este un sistem de operare proiectat pentru aplicatii in timp real. Aceste sisteme sunt folosite in general pentru computere de tip embedded (inglobate in aparate mai mari, precum telefoane mobile, roboti industriali sau echipamente de cercetare stiintifica).

Sistemele de operare in timp real sunt folosite in principal pentru capacitatea lor de raspuns rapid, si nu atat pentru volumul total de munca (calcule) pe care il pot efectua. Un sistem de operare in timp real nu e nevoie sa dispuna de o viteza (putere) mare de calcul – viteza lui de calcul este influentata nu numai de viteza de calcul a procesorului pe care ruleaza, dar si de algoritmul specializat de scheduling precum si de frecventa ridicata a intreruperii de ceas.

Structura cartii

I. Real-Time Scheduling and Resource Management

  • Schedulability Analysis of Multiprocessor Sporadic Task Systems
  • Rate-Based Resource Allocation Methods
  • Compositional Real-Time Schedulability Analysis
  • Power-Aware Resource Management Techniques for Low-Power
  • Imprecise Computation Model: TotalWeighted Error and Maximum
  • Imprecise Computation Model: Bicriteria and Other Related Problems
  • Stochastic Analysis of Priority-Driven Periodic Real-Time Systems

II. Programming Languages, Paradigms, and Analysis for Real-Time and Embedded Systems

  • Temporal Control in Real-Time Systems: Languages and Systems
  • The Evolution of Real-Time Programming
  • Real-Time Java
  • Programming Execution-Time Servers and Supporting EDF Scheduling in Ada 2005
  • Synchronous Programming

III. Operating Systems and Middleware for Real-Time and Embedded Systems

  • QoS-Enabled Component Middleware for Distributed Real-Time and Embedded Systems
  • Safe and Structured Use of Interrupts in Real-Time and Embedded Software
  • QoS Support and an Analytic Study for USB 1.x/2.0 Devices
  • Reference Middleware Architecture for Real-Time and Embedded Systems: A Case for Networked Service Robots

IV. Real-Time Communications/Sensor Networks

  • Online QoS Adaptation with the Flexible Time-Triggered (FTT) Communication Paradigm
  • Wireless Sensor Networks
  • Messaging in Sensor Networks: AddressingWireless Communications and Application Diversity
  • Real-Time Communication for Embedded Wireless Networks
  • Programming and Virtualization of Distributed Multitasking Sensor Networks

V. Real-Time Database/Data Services

  • Data-Intensive Services for Real-Time Systems
  • Real-Time Data Distribution
  • Temporal Consistency Maintenance for Real-Time Update Transactions
  • Salvaging Resources by Discarding Irreconcilably Conflicting Transactions in Firm Real-Time Database Systems
  • Application-Tailored Databases for Real-Time Systems
  • DeeDS NG: Architecture, Design, and Sample Application Scenario

VI. Formalisms, Methods, and Tools

  • State Space Abstractions for Time Petri Nets
  • Process-Algebraic Analysis of Timing and Schedulability Properties
  • Modular Hierarchies of Models for Embedded Systems
  • Metamodeling Languages and Metaprogrammable Tools
  • Hardware/Software Codesign
  • Execution Time Analysis for Embedded Real-Time Systems

VII. Experiences with Real-Time and Embedded Systems

  • Dynamic QoS Management in Distributed Real-Time Embedded Systems
  • Embedding Mobility in Multimedia Systems and Applications
  • Embedded Systems and Software Technology in the Automotive Domain
  • Real-Time Data Services for Automotive Applications

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