Description: Embedded Systems by Fabrice Kordon, Jérôme Hugues, Agusti Canals, Alain Dohet Since the construction of the first embedded system in the 1960s, embedded systems have continued to spread. They provide a continually increasing number of services and are part of our daily life. The development of these systems is a difficult problem which does not yet have a global solution. FORMAT Hardcover LANGUAGE English CONDITION Brand New Publisher Description Since the construction of the first embedded system in the 1960s, embedded systems have continued to spread. They provide a continually increasing number of services and are part of our daily life. The development of these systems is a difficult problem which does not yet have a global solution. Another difficulty is that systems are plunged into the real world, which is not discrete (as is generally understood in computing), but has a richness of behaviors which sometimes hinders the formulation of simplifying assumptions due to their generally autonomous nature and they must face possibly unforeseen situations (incidents, for example), or even situations that lie outside the initial design assumptions. Embedded Systems presents the state of the art of the development of embedded systems and, in particular, concentrates on the modeling and analysis of these systems by looking at "model-driven engineering", (MDE2): SysML, UML/MARTE and AADL. A case study (based on a pacemaker) is presented which enables the reader to observe how the different aspects of a system are addressed using the different approaches. All three systems are important in that they provide the reader with a global view of their possibilities and demonstrate the contributions of each approach in the different stages of the software lifecycle. Chapters dedicated to analyzing the specification and code generation are also presented. Contents Foreword, Brian R. Larson.Foreword, Dominique Potier.Introduction, Fabrice Kordon, Jérôme Hugues, Agusti Canals and Alain Dohet.Part 1. General Concepts1. Elements for the Design of Embedded Computer Systems, Fabrice Kordon, Jérôme Hugues, Agusti Canals and Alain Dohet.2. Case Study: Pacemaker, Fabrice Kordon, Jérôme Hugues, Agusti Canals and Alain Dohet.Part 2. SysML3. Presentation of SysML Concepts, Jean-Michel Bruel and Pascal Roques.4. Modeling of the Case Study Using SysML, Loïc Fejoz, Philippe Leblanc and Agusti Canals.5. Requirements Analysis, Ludovic Apvrille and Pierre De Saqui-Sannes.Part 3. MARTE6. An Introduction to MARTE Concepts, Sébastien Gérard and François Terrier.7. Case Study Modeling Using MARTE, Jérôme Delatour and Joël Champeau.8. Model-Based Analysis, Frederic Boniol, Philippe Dhaussy, Luka Le Roux and Jean-Charles Roger.9. Model-Based Deployment and Code Generation, Chokri Mraidha, Ansgar Radermacher and Sébastien Gérard.Part 4. AADL10. Presentation of the AADL Concepts, Jérôme Hugues and Xavier Renault.11. Case Study Modeling Using AADL, Etienne Borde.12. Model-Based Analysis, Thomas Robert and Jérôme Hugues.13. Model-Based Code Generation, Laurent Pautet and Béchir Zalila. Author Biography Fabrice Kordon is Professor at University Pierre and Marie Curie in Paris, France, where he is in charge of the team "Modélisation et vérification" of the LIP6. His research field is at the crossroads of distributed systems, software engineering and formal methods. Jérôme Hugues is lecturer-researcher at the Institut Supérieur de lAéronautique et de lEspace (ISAE) in Toulouse, France and has been a member of the language standardization committee (AADL) since 2006. His research fields cover the engineering of embedded systems and the generation of automatic code of these systems from modeling languages, integrating verification and analysis tools on the model and code level. Agusti Canals is a software engineer and has worked at CS "Communication et Systèmes" in Paris, France since 1981. He is deputy director of the "Direction de la Qualité et des Audits Techniques" (DQAT) of CS and an expert in software engineering (certified "UML Professional" and "SysML Builder" by OMG). Alain Dohet is a general armament engineer at the "Direction Générale pour lArmement" (organization of the French Defense Minister ensuring the conduct of system programs), where he is in charge of guiding activities, skills, methods and tools in the fields of systems of systems (SoS), systems engineering, analysis for certification purposes, operational safety of embedded computing systems and critical software. Table of Contents Foreword xiii Brian R. LARSON Foreword xv Dominique POTIER Introduction xix Fabrice KORDON, Jérôme HUGUES, Agusti CANALS and Alain DOHET PART 1. General Concepts 1 Chapter 1. Elements for the Design of Embedded Computer Systems 3 Fabrice KORDON, Jérôme HUGUES, Agusti CANALS and Alain DOHET 1.1. Introduction 3 1.2. System modeling 5 1.3. A brief presentation of UML 6 1.3.1. The UML static diagrams 7 1.3.2. The UML dynamic diagrams 9 1.4. Model-driven development approaches 10 1.4.1. The concepts 10 1.4.2. The technologies 11 1.4.3. The context of the wider field 12 1.5. System analysis 14 1.5.1. Formal verification via proving 15 1.5.2. Formal verification by model-checking 15 1.5.3. The languages to express specifications 16 1.5.4. The actual limits of formal approaches 19 1.6. Methodological aspects of the development of embedded computer systems 20 1.6.1. The main technical processes 22 1.6.2. The importance of the models 23 1.7. Conclusion 24 1.8. Bibliography 25 Chapter 2. Case Study: Pacemaker 29 Fabrice KORDON, Jérôme HUGUES, Agusti CANALS and Alain DOHET 2.1. Introduction 29 2.2. The heart and the pacemaker 30 2.2.1. The heart 30 2.2.2. Presentation of a pacemaker 32 2.3. Case study specification 33 2.3.1. System definition 34 2.3.2. System lifecycle 35 2.3.3. System requirements 36 2.3.4. Pacemaker behavior 39 2.4. Conclusion 42 2.5. Bibliography 43 PART 2. SysML 45 Chapter 3. Presentation of SysML Concepts 47 Jean-Michel BRUEL and Pascal ROQUES 3.1. Introduction 47 3.2. The origins of SysML 48 3.3. General overview: the nine types of diagrams 49 3.4. Modeling the requirements 50 3.4.1. Use case diagram 50 3.4.2. Requirement diagram 51 3.5. Structural modeling 53 3.5.1. Block definition diagram 54 3.5.2. Internal block diagram 56 3.5.3. Package diagram 58 3.6. Dynamic modeling 59 3.6.1. Sequence diagram 59 3.6.2. State machine diagram 61 3.6.3. Activity diagram 63 3.7. Transverse modeling 65 3.7.1. Parametric diagram 65 3.7.2. Allocation and traceability 67 3.8. Environment and tools 68 3.9. Conclusion 68 3.10. Bibliography 68 Chapter 4. Modeling of the Case Study Using SysML 71 Loïc FEJOZ, Philippe LEBLANC and Agusti CANALS 4.1. Introduction 71 4.2. System specification 73 4.2.1. Context 73 4.2.2. Requirements model and operational scenarios 75 4.2.3. Requirements model 78 4.3. System design 80 4.3.1. Functional model 81 4.3.2. Domain-specific data 83 4.3.3. Logical architectural model 86 4.3.4. Physical architectural model 90 4.4. Traceability and allocations 90 4.4.1. "Technical needs: divers" traceability diagram 90 4.4.2. Traceability diagram "technical needs: behavior of the pacemaker" 91 4.4.3. Allocation diagram 92 4.5. Test model 93 4.5.1. Traceability diagram "system test: requirements verification" 93 4.5.2. Sequence diagram for the test game TC-PM-07 94 4.5.3. Diagrams presenting a general view of the requirements 94 4.6. Conclusion 95 4.7. Bibliography 97 Chapter 5. Requirements Analysis 99 Ludovic APVRILLE and Pierre DE SAQUI-SANNES 5.1. Introduction 99 5.2. The AVATAR language and the TTool tool 100 5.2.1. Method 101 5.2.2. AVATAR language and SysML standard 101 5.2.3. The TEPE language for expressing properties 102 5.2.4. TTool 103 5.3. An AVATAR expression of the SysML model of the enhanced pacemaker 103 5.3.1. Functioning of the pacemaker and modeling hypotheses 103 5.3.2. Requirements diagram 104 5.4. Architecture 105 5.5. Behavior 106 5.6. Formal verification of the VVI mode 107 5.6.1. General properties 108 5.6.2. Expressing properties using TEPE 108 5.6.3. The use of temporal logic 109 5.6.4. Observer-guided verification 111 5.6.5. Coming back to the model 112 5.7. Related work 113 5.7.1. Languages 113 5.7.2. Tools 114 5.8. Conclusion 115 5.9. Appendix: TTool 116 5.10. Bibliography 116 PART 3. MARTE 119 Chapter 6. An Introduction to MARTE Concepts 121 Sébastien GÉRARD and François TERRIER 6.1. Introduction 121 6.2. General remarks 121 6.2.1. Possible uses of MARTE 122 6.2.2. How should we read the norm? 123 6.2.3. The MARTE architecture 124 6.2.4. MARTE and SysML 127 6.2.5. An open source support 128 6.3. Several MARTE details 128 6.3.1. Modeling non-functional properties 128 6.3.2. A components model for the real-time embedded system 133 6.4. Conclusion 137 6.5. Bibliography 137 Chapter 7. Case Study Modeling Using MARTE 139 Jérôme DELATOUR and Joël CHAMPEAU 7.1. Introduction 139 7.1.1. Hypotheses used in modeling 139 7.1.2. The modeling methodology used 140 7.1.3. Chapter layout 141 7.2. Software analysis 141 7.2.1. Use case and interface characterization 141 7.2.2. The sphere of application 144 7.3. Preliminary software design – the architectural component 145 7.3.1. The candidate architecture 146 7.3.2. Identifying the components 146 7.3.3. Presentation of the candidate architecture 148 7.3.4. A presentation of the detailed interfaces 150 7.4. Software preliminary design – behavioral component 151 7.4.1. The controller 151 7.4.2. The cardiologist 153 7.4.3. The operating modes of the cardiologist 153 7.5. Conclusion 155 7.6. Bibliography 156 Chapter 8. Model-Based Analysis 157 Frederic BONIOL, Philippe DHAUSSY, Luka LE ROUX and Jean-Charles ROGER 8.1. Introduction 157 8.2. Model and requirements to be verified 161 8.2.1. The UML-MARTE model that needs to be translated in Fiacre 161 8.2.2. Fiacre language 162 8.2.3. The translation principles of the UML model in Fiacre 163 8.2.4. Requirements 165 8.3. Model-checking of the requirements 166 8.3.1. Use case 166 8.3.2. Properties 167 8.3.3. Property check 170 8.3.4. First assessment 172 8.4. Context exploitation 172 8.4.1. Identifying the context scenarios 173 8.4.2. Automatic partitioning of the context graphs 174 8.4.3. CDL language 175 8.4.4. CDL model exploitation in a model-checker 177 8.4.5. Description of a CDL context 178 8.4.6. Results 179 8.5. Assessment 180 8.6. Conclusion 181 8.7. Bibliography 182 Chapter 9. Model-Based Deployment and Code Generation 185 Chokri MRAIDHA, Ansgar RADERMACHER and Sébastien GÉRARD 9.1. Introduction 185 9.2. Input models 187 9.2.1. Description of the executable component-based model 187 9.2.2. Description of the platform model 188 9.2.3. Description of the deployment model 189 9.3. Generation of the implementation model 190 9.3.1. Main concepts 191 9.3.2. Connector pattern 191 9.3.3. Container pattern 193 9.3.4. Implementation of the components 195 9.3.5. Resulting implementation components 197 9.4. Code generation 197 9.4.1. Deployment of the components 198 9.4.2. Transformation into an object-oriented model 199 9.4.3. Generating code 200 9.5. Support tools 201 9.6. Conclusion 202 9.7. Bibliography 202 PART 4. AADL 205 Chapter 10. Presentation of the AADL Concepts 207 Jérôme HUGUES and Xavier RENAULT 10.1. Introduction 207 10.2. General ADL concepts 207 10.3. AADLv2, an ADL for design and analysis 208 10.3.1. A history of the AADL 208 10.3.2. A brief introduction to AADL 209 10.3.3. Tools 211 10.4. Taxonomy of the AADL entities 211 10.4.1. Language elements: the components 212 10.4.2. Connections between the components 214 10.4.3. Language elements: attributes 215 10.4.4. Language elements: extensions and refinements 219 10.5. AADL annexes 220 10.5.1. Data modeling annex 220 10.6. Analysis of AADL models 221 10.6.1. Structural properties 222 10.6.2. Qualitative properties 222 10.6.3. Quantitative properties 223 10.7. Conclusion 224 10.8. Bibliography 225 Chapter 11. Case Study Modeling Using AADL 227 Etienne BORDE 11.1. Introduction 227 11.2. Review of the structure of a pacemaker 229 11.3. AADL modeling of the structure of the pacemaker 230 11.3.1. Decomposition of the system into several subsystems 230 11.3.2. Execution and communication infrastructure 233 11.4. Overview of the functioning of the pacemaker 235 11.4.1. The operational modes of the pacemaker 235 11.4.2. The operational sub-modes of the pacemaker 235 11.4.3. Some functionalities of the pacemaker 237 11.5. AADL modeling of the software architecture of the pulse generator 240 11.5.1. AADL modeling of the operational modes of the pulse generator 240 11.5.2. AADL modeling of the features of the pulse generator in the permanent mode 242 11.6. Modeling of the deployment of the pacemaker 247 11.7. Conclusion 249 11.8. Bibliography 250 Chapter 12. Model-Based Analysis 251 Thomas ROBERT and Jérôme HUGUES 12.1. Introduction 251 12.2. Behavioral validation, per mode and global 252 12.2.1. Validation context and fine tuning of the requirements 253 12.2.2. Translation of the behavioral automata into UPPAAL 253 12.2.3. Refining requirements 22-23/P 258 12.2.4. Study of the permanent/VVT mode 260 12.2.5. Study of the changing of the permanent/VVT→Magnet/VOO mode 261 12.3. Conclusion 262 12.4. Bibliography 263 Chapter 13. Model-Based Code Generation 265 Laurent PAUTET and Béchir ZALILA 13.1. Introduction 265 13.2. Software component generation 268 13.2.1. Data conversion 269 13.2.2. Conversion of subprograms 272 13.2.3. Conversion of execution threads 275 13.2.4. Conversion of the instances of shared data 283 13.3. Middleware components generation 283 13.4. Configuration and deployment of middleware components 284 13.4.1. Deployment 284 13.5. Integration of the compilation chain 285 13.6. Conclusion 287 13.7. Bibliography 287 List of Authors 289 Index 291 Details ISBN1848215002 Series Iste Language English ISBN-10 1848215002 ISBN-13 9781848215009 Media Book Format Hardcover Year 2013 Imprint ISTE Ltd and John Wiley & Sons Inc Place of Publication London Country of Publication United Kingdom DEWEY 006.22 Edited by Jérôme Hugues Short Title EMBEDDED SYSTEMS Illustrations Yes Edition 1st UK Release Date 2013-04-16 AU Release Date 2013-04-16 NZ Release Date 2013-04-16 Author Alain Dohet Pages 320 Publisher ISTE Ltd and John Wiley & Sons Inc Publication Date 2013-04-16 Subtitle Analysis and Modeling with SysML, UML and AADL Audience Professional & Vocational We've got this At The Nile, if you're looking for it, we've got it. With fast shipping, low prices, friendly service and well over a million items - you're bound to find what you want, at a price you'll love! TheNile_Item_ID:137296874;
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ISBN-13: 9781848215009
Book Title: Embedded Systems
Number of Pages: 314 Pages
Language: English
Publication Name: Embedded Systems: Analysis and Modeling with Sysml, Uml and Aadl
Publisher: Iste Ltd and John Wiley & Sons Inc
Publication Year: 2013
Subject: Engineering & Technology, Computer Science
Item Height: 199 mm
Item Weight: 608 g
Type: Textbook
Author: Alain Dohet, Fabrice Kordon, Jerome Hugues, Agusti Canals
Item Width: 162 mm
Format: Hardcover