Description

Book Synopsis
In the context of Distributed and Real-time Embedded Systems (DRES), system developers are faced with reducing system development cost and time while developing correct (relating to safe and QoS properties) and increasingly complex systems. To take up this challenge, Model Driven Development (MDD) advocates the intensive use of models and model transformations on several levels of abstraction.

This book includes contributions from academic and professional experts on a range of topics related to MDD practices, methods and emerging technologies. After introducing general concepts about modeling and how to implement model transformations, two presentations provide an overview of the MARTE profile. Coverage is then given to the most common aspects of MDD for DRES: structuring architectures using components, designing hardware architecture, evaluation and validation through tests and performance analysis. Finally, guidance is given as to how and why MDD should be used by presenting a tool to support MDD and describing an industrial application of MDD concepts.



Table of Contents
Introduction.

Chapter 1. On Metamodels and Language Engineering (Pierre-Alain Muller).
1.1 Introduction.
1.2 Modeling Abstract Syntax.
1.3 Modeling Operational Semantics.
1.4 Modeling Concrete Syntax.
1.5 Related Works.
1.6 References.

Chapter 2. Using Directives to Implement Model Transformations (Devon Simmonds et al).
2.1 Introduction.
2.2 Model Transformation Using Embedded Directives.
2.3 Transformations Directives.
2.4 Transformation Schemas.
2.5 Class Model Transformation - Illustration Example.
2.6 Discussion and Conclusion.
2.7 References.

Chapter 3. Rationale of the UML Profile for Marte (Sébastien Gérard and Huascar Espinoza).
3.1 Introduction.
3.2 Outlines of Marte.
3.3 Profile Architecture.
3.4 References.

Chapter 4. From UML to Performance Analysis Models by Abstraction-raising Transformation (Dorina Petriu and Antonino Sabetta).
4.1 Introduction.
4.2 Conceptual Approach for Abstracting-raising Transformation.
4.3 Two-step Abstracting-raising Transformation.
4.4 Two-step Abstration-raising Transformation.
4.5 Application of the Proposed Transformation.
4.6 Conclusion.
4.7 References.

Chapter 5. Component-Based Software Engineering for Embedded Systems (Ivica Crnkovic).
5.1 Embedded Systems.
5.2 Specfic Requirement and Aspects of Embedded Systems.
5.3 Component-based Basic Concepts for Embedded Systems.
5.4 Specfic Demands on Component-based Software Engineering.
5.5 State of the CBSE Practice and Experience for Embedded Systems.
5.6 Work on Standardization.
5.7 The Needs and Priorities in Research.
5.8 References.

Chapter 6. Model Driven Engineering for System-on-Chip Design (Pierre Boulet et al).
6.1 Introduction.
6.2 SoC Design Challenges and Model Driven Engineering.
6.3 UML Profiles for SoC Design.
6.4 MDE Approach to SoC Design.
6.5 Gaspard2 Development Environment.
6.6 Conclusion.
6.7 References.

Chapter 7. Schedulability Analysis and MDD (Samuel Rouxel et al).
7.1 Introduction.
7.2 Related Work.
7.3 Global Approach.
7.4 UML Modeling.
7.5 Real Time Analysis Tool (RTDT).
7.6 UMTS FDD Case Study.
7.7 Conclusion.
7.8 Acknowledgements.
7.9 References.

Chapter 8. Model Driven Testing of Time Sensitive Distributed Systems (Borislav Gajanovic, Hans Grönniger and Bernhard Rumpe).
8.1 Model Driven Testing.
8.2 Asynchronous Communication in Distributed Systems.
8.3 The Alternative Bit Protocol.
8.4 Strategies for Testing Distributed, Asynchronously Communicating Systems.
8.5 Implementing Tests in Haskell.
8.6 Discussion of Results.
8.7 References.

Chapter 9. Model Management for Formal Validation (Joël Champeau et al).
9.1 Introduction.
9.2 System Modeling Framework.
9.3 Building Models for Formal Verification.
9.4 Conclusion and Future Work.
9.5 References.

Chapter 10. The Design of Space Systems (David Chemouil).
10.1 Introduction.
10.2 Space Systems.
10.3 Design.
10.4 Modelling.
10.5 Conclusion.
10.6 References.

Chapter 11. TOPCASED: An Open Source Development Environment for Embbeded Systems (Patrick Farail et al).
11.1 Introduction.
11.2 Requirements and TOPCASED Architecture.
11.3 Model Driven Engineering and Meta-modeling.
11.4 Generating Model Editors.
11.5 Acknowledgment.
11.6 References.
11.7 Glossary.

Chapter 12. Facing Industrial Challenges: A Return on an Experiment on Modeldriven Engineering (Jean-Luc Voirin).
12.1 Introduction.
12.2 A Quick Overview of Our Understanding of MDE.
12.3 Expected Benefits of Model-driven Engineering.
12.4 Applying MDE Concepts in an Industrial Context.
12.5 Return of Experiment and Findings on MDE Use.
12.6 Conclusion: So What About MDE?

Index of Authors.

From MDD Concepts to Experiments and

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    A Hardback by Jean-Philippe Babau, Jöel Champeau, Sébastien Gérard

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      Publisher: ISTE Ltd and John Wiley & Sons Inc
      Publication Date: 22/10/2008
      ISBN13: 9781905209590, 978-1905209590
      ISBN10: 1905209592
      Also in:
      Computing Software Engineering

      Description

      Book Synopsis
      In the context of Distributed and Real-time Embedded Systems (DRES), system developers are faced with reducing system development cost and time while developing correct (relating to safe and QoS properties) and increasingly complex systems. To take up this challenge, Model Driven Development (MDD) advocates the intensive use of models and model transformations on several levels of abstraction.

      This book includes contributions from academic and professional experts on a range of topics related to MDD practices, methods and emerging technologies. After introducing general concepts about modeling and how to implement model transformations, two presentations provide an overview of the MARTE profile. Coverage is then given to the most common aspects of MDD for DRES: structuring architectures using components, designing hardware architecture, evaluation and validation through tests and performance analysis. Finally, guidance is given as to how and why MDD should be used by presenting a tool to support MDD and describing an industrial application of MDD concepts.



      Table of Contents
      Introduction.

      Chapter 1. On Metamodels and Language Engineering (Pierre-Alain Muller).
      1.1 Introduction.
      1.2 Modeling Abstract Syntax.
      1.3 Modeling Operational Semantics.
      1.4 Modeling Concrete Syntax.
      1.5 Related Works.
      1.6 References.

      Chapter 2. Using Directives to Implement Model Transformations (Devon Simmonds et al).
      2.1 Introduction.
      2.2 Model Transformation Using Embedded Directives.
      2.3 Transformations Directives.
      2.4 Transformation Schemas.
      2.5 Class Model Transformation - Illustration Example.
      2.6 Discussion and Conclusion.
      2.7 References.

      Chapter 3. Rationale of the UML Profile for Marte (Sébastien Gérard and Huascar Espinoza).
      3.1 Introduction.
      3.2 Outlines of Marte.
      3.3 Profile Architecture.
      3.4 References.

      Chapter 4. From UML to Performance Analysis Models by Abstraction-raising Transformation (Dorina Petriu and Antonino Sabetta).
      4.1 Introduction.
      4.2 Conceptual Approach for Abstracting-raising Transformation.
      4.3 Two-step Abstracting-raising Transformation.
      4.4 Two-step Abstration-raising Transformation.
      4.5 Application of the Proposed Transformation.
      4.6 Conclusion.
      4.7 References.

      Chapter 5. Component-Based Software Engineering for Embedded Systems (Ivica Crnkovic).
      5.1 Embedded Systems.
      5.2 Specfic Requirement and Aspects of Embedded Systems.
      5.3 Component-based Basic Concepts for Embedded Systems.
      5.4 Specfic Demands on Component-based Software Engineering.
      5.5 State of the CBSE Practice and Experience for Embedded Systems.
      5.6 Work on Standardization.
      5.7 The Needs and Priorities in Research.
      5.8 References.

      Chapter 6. Model Driven Engineering for System-on-Chip Design (Pierre Boulet et al).
      6.1 Introduction.
      6.2 SoC Design Challenges and Model Driven Engineering.
      6.3 UML Profiles for SoC Design.
      6.4 MDE Approach to SoC Design.
      6.5 Gaspard2 Development Environment.
      6.6 Conclusion.
      6.7 References.

      Chapter 7. Schedulability Analysis and MDD (Samuel Rouxel et al).
      7.1 Introduction.
      7.2 Related Work.
      7.3 Global Approach.
      7.4 UML Modeling.
      7.5 Real Time Analysis Tool (RTDT).
      7.6 UMTS FDD Case Study.
      7.7 Conclusion.
      7.8 Acknowledgements.
      7.9 References.

      Chapter 8. Model Driven Testing of Time Sensitive Distributed Systems (Borislav Gajanovic, Hans Grönniger and Bernhard Rumpe).
      8.1 Model Driven Testing.
      8.2 Asynchronous Communication in Distributed Systems.
      8.3 The Alternative Bit Protocol.
      8.4 Strategies for Testing Distributed, Asynchronously Communicating Systems.
      8.5 Implementing Tests in Haskell.
      8.6 Discussion of Results.
      8.7 References.

      Chapter 9. Model Management for Formal Validation (Joël Champeau et al).
      9.1 Introduction.
      9.2 System Modeling Framework.
      9.3 Building Models for Formal Verification.
      9.4 Conclusion and Future Work.
      9.5 References.

      Chapter 10. The Design of Space Systems (David Chemouil).
      10.1 Introduction.
      10.2 Space Systems.
      10.3 Design.
      10.4 Modelling.
      10.5 Conclusion.
      10.6 References.

      Chapter 11. TOPCASED: An Open Source Development Environment for Embbeded Systems (Patrick Farail et al).
      11.1 Introduction.
      11.2 Requirements and TOPCASED Architecture.
      11.3 Model Driven Engineering and Meta-modeling.
      11.4 Generating Model Editors.
      11.5 Acknowledgment.
      11.6 References.
      11.7 Glossary.

      Chapter 12. Facing Industrial Challenges: A Return on an Experiment on Modeldriven Engineering (Jean-Luc Voirin).
      12.1 Introduction.
      12.2 A Quick Overview of Our Understanding of MDE.
      12.3 Expected Benefits of Model-driven Engineering.
      12.4 Applying MDE Concepts in an Industrial Context.
      12.5 Return of Experiment and Findings on MDE Use.
      12.6 Conclusion: So What About MDE?

      Index of Authors.

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