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Concurrency in Dependable Computing

  • Book
  • © 2002

Overview

Editors:
  1. Paul Ezhilchelvan

    1. University of Newcastle-upon-Tyne, UK

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    You can also search for this editor in PubMed   Google Scholar

  2. Alexander Romanovsky

    1. University of Newcastle-upon-Tyne, UK

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    You can also search for this editor in PubMed   Google Scholar

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Table of contents (15 chapters)

  1. Front Matter

    Pages i-xvii
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  2. Role of Modelling and Formalisms for Dependable System Design

    1. Front Matter

      Pages 1-1
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    2. Compositional Development in the Event of Interface Difference

      • Jonathan Burton, Maciej Koutny, Giuseppe Pappalardo, Marta Pietkiewicz-Koutny
      Pages 3-22

    3. Model-Based Design of Dependability

      • Anish Arora, Rajesh Jagannathan, Yi-Min Wang
      Pages 23-40

    4. TLA Specification of a Mechanism for Concurrent Exception Handling

      • Avelino Francisco Zorzo, Brian Randell, Alexander Romanovsky
      Pages 41-59

    5. Component Based Dependable System Modelling for Easier Verification

      • Didier Buchs, David Hurzeler, Sandro Costa
      Pages 61-83

  3. Application Specific Modelling for Dependable Design and Analysis

    1. Front Matter

      Pages 85-85
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    2. Digging into Concurrency

      • Angie Chandler, Serena Patching, Lynne Blair
      Pages 87-104

    3. Deadlock Free Control in Automated Guided Vehicle Systems

      • Maria Pia Fanti
      Pages 105-126

    4. Quality Analysis of Dependable Information Systems

      • Apostolos Zarras, Valerie Issarny
      Pages 127-145

  4. Event Ordering and Its Application

    1. Front Matter

      Pages 147-147
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    2. Fault-Tolerant Sequencer

      • Roberto Baldoni, Carlo Marchetti, Sara Tucci Piergiovanni
      Pages 149-167

    3. QoS Analysis of Group Communication Protocols in Wireless Environment

      • Andrea Bondavalli, Andrea Coccoli, Felicita Di Giandomenico
      Pages 169-188

    4. Semantically Reliable Broadcast

      • José Pereira, Luis Rodrigues, Rui Oliveira
      Pages 189-207

    5. Exception Handling in Timed Asynchronous Systems

      • Robert Miller, Anand Tripathi
      Pages 209-227

  5. Transactions and Consistent Checkpointing

    1. Front Matter

      Pages 229-229
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    2. A recovery model for cooperative computations

      • Edgar Nett, Michael Mock
      Pages 231-251

    3. Group Transactions

      • Marta Patiño-Martínez, Ricardo Jiménez-Peris, Sergio Arévalo
      Pages 253-271

    4. Checkpointing in Distributed Computing Systems

      • Lalit Kumar, Manoj Mishra, Ramesh Chander Joshi
      Pages 273-289

  6. Concurrency in Real-Time Applications

    1. Front Matter

      Pages 291-291
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Keywords

About this book

Concurrency in Dependable Computing focuses on concurrency related issues in the area of dependable computing. Failures of system components, be hardware units or software modules, can be viewed as undesirable events occurring concurrently with a set of normal system events. Achieving dependability therefore is closely related to, and also benefits from, concurrency theory and formalisms. This beneficial relationship appears to manifest into three strands of work.
Application level structuring of concurrent activities. Concepts such as atomic actions, conversations, exception handling, view synchrony, etc., are useful in structuring concurrent activities so as to facilitate attempts at coping with the effects of component failures.
Replication induced concurrency management. Replication is a widely used technique for achieving reliability. Replica management essentially involves ensuring that replicas perceive concurrent events identically.
Application of concurrency formalisms for dependability assurance. Fault-tolerant algorithms are harder to verify than their fault-free counterparts due to the fact that the impact of component faults at each state need to be considered in addition to valid state transitions. CSP, Petri nets, CCS are useful tools to specify and verify fault-tolerant designs and protocols.
Concurrency in Dependable Computing explores many significant issues in all three strands. To this end, it is composed as a collection of papers written by authors well-known in their respective areas of research. To ensure quality, the papers are reviewed by a panel of at least three experts in the relevant area.

Editors and Affiliations

  • University of Newcastle-upon-Tyne, UK

    Paul Ezhilchelvan, Alexander Romanovsky

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