Real-Time Object Uniform Design Methodology with UML

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ISBN: 9048174945
ISBN 13: 9789048174942
Autor: Bui Minh Duc
Verlag: Springer Verlag GmbH
Umfang: xxxiv, 480 S.
Erscheinungsdatum: 06.11.2010
Auflage: 1/2007
Produktform: Kartoniert
Einband: KT

The competitiveness of organizations facing globalization, information and communication technologies relies on strategic issues such as reuse of knowledge from past experiences to make higher quality decisions, deployment of innovative, fast methodological approaches for solving problems and building systems. Real-life systems are often multidisciplinary; their development commands a uniform way of object modeling in order to close the loop of various interactions crossing multiple domains. An innovative methodology, built on UML version 2 and MDA (Model Driven Architecture), is proposed to explain how to design large-scale systems and make software reuse a reality, how logical models can be built progressively and transformed into business assets, how real time and database systems can be integrated smoothly along a single development stream. First, the metalanguage of UML is introduced as a lesson of rigorous and meta system development. That helps developers to acquire a deep understanding of meta elements of UML, rules that govern connections. Second, thirteen UML diagrams are studied in details with short examples. Third, fundamental modeling concepts are mapped into UML objects and represented with diagrams that are the visual parts of any CASE tool. Two advanced research topics beyond UML are exposed to complement the arsenal of development tools. A state-event network (SEN), a new diagram based on Petri net, supports dynamical studies and refines UML behavioral diagrams before implementation. The „image attribute method“ is a combinatorial technique deployed to study dynamic behavior of safety-critical systems; it takes internal state variables of an object, makes images of surrounding objects interacting with this central object to explain its complex behavior and thus, automate the design of algorithms. One part of Real-Time Object Uniform Design Methodology with UML is targeted to be used as a basic textbook in Computer Science for teaching object modeling, fundamental concepts learning and system designing with thirteen UML diagrams. Another part is devoted to advanced research topics, samples and case studies. They are must readings for any system developer or any graduate student in any discipline that needs materials and thoughts for future developments, the power of object modeling packed along a serious development methodology.

Artikelnummer: 1428139 Kategorie:

Beschreibung

InhaltsangabeList of Figures. List of Tables. Preface. 1. Introduction to the world of systems, problems and solutions. 1.1. The world of systems, problems and solutions. 1.2. Real time and embedded systems: Disaster control and Quality of Service. 1.3. Human organizations and structures: How software can simulate and study them. 1.4. This book is also a system. 2. Coping with complexity. 2.1. Visual formulisms for handling complexity. 2.2. Object/function decompoision. 2.3. Functional decomposition to handle complexity. 2.4. How object technology handles complexity. 2.5. Object paradigm applied to control applications. 2.6. Object paradigm applied to database applications. 2.7. Objects and databases. 2.8. Object paradigm and Component reuse. 2.9. Mastering development complexity. 3. UML Infrastructure: Core concepts. 3.1. Core concepts compliant to MOF. 3.2. Infrastructure. 4. UML Superstrucutre: Language definition and diagrams. 4.1. Making our own development methodology with UML. 4.2. Structure and behavior. 4.3. Hierarchy of UML metaclasses. 4.4. Superstructure and compliance levels. 4.5. Reuse of the Infrastructure. 4.6. Structure: class diagram. 4.7. Structure: Object diagram. 4.8. Structure: Package diagram. 4.9. Structure: Composite Structure diagram. 4.10. Structure: Component diagram. 4.11. Structure: Deployment diagram. 4.12. Hierarchy of metaclasses defined in the Behavior part. 4.13. Behavior: State Machine diagram. 4.14. Behavior: Activity diagram. 4.15. Behavior: Interaction Suite. 4.16. Behavior: Use case diagram. 4.17. Auxiliary constructs: Profiles. 5. Fundamental concepts of the real world and their mapping into UML. 5.1. Abstraction, concept, domain, ontology, model. 5.2. Structural, functional and dynamic views of systems. 5.3. Concepts of the functional view. 5.4. Fundamental concepts of the dynamic view. 5.5. Fundamental concepts of the structural view. 6. The Uniform concept. 6.1. Elements of the uniform concept. 6.2. Requirement analysis model. 6.3. Requirements analysis with technical diagrams. 6.4. System Requirements Specifications. 6.5. Designing real time Applications with MDA. 6.6. Designing reusable database models. 6.7. Unifying real time and database applications. 7. Real time behavioral study beyond UML. 7.1. SEN or State-Event Net diagram. 7.2. UML diagrams mapped into SEN. 7.3. Timing constraints with SEN. 7.4. Case study with SEN. 7.5. Safety-critical systems. 8. Real time case study. 8.1. Design of an inclined elevator or track lift tram. 8.2. Emergency service in a hospital & Design of a database coupled with a real time system. References. Index.

Inhaltsverzeichnis

List of Figures. List of Tables. Preface. 1. Introduction to the world of systems, problems and solutions. 1.1. The world of systems, problems and solutions. 1.2. Real time and embedded systems: Disaster control and Quality of Service. 1.3. Human organizations and structures: How software can simulate and study them. 1.4. This book is also a system. 2. Coping with complexity. 2.1. Visual formulisms for handling complexity. 2.2. Object/function decompoision. 2.3. Functional decomposition to handle complexity. 2.4. Howobject technology handles complexity. 2.5. Object paradigm applied to control applications. 2.6. Object paradigm applied to database applications. 2.7. Objects and databases. 2.8. Object paradigm and Component reuse. 2.9. Mastering development complexity. 3. UML Infrastructure: Core concepts. 3.1. Core concepts compliant to MOF. 3.2. Infrastructure. 4. UML Superstrucutre: Language definition and diagrams. 4.1. Making our own development methodology with UML. 4.2. Structure and behavior. 4.3. Hierarchy of UML metaclasses. 4.4. Superstructure and compliance levels. 4.5. Reuse of the Infrastructure. 4.6. Structure: class diagram. 4.7. Structure: Object diagram. 4.8. Structure: Package diagram. 4.9. Structure: Composite Structure diagram. 4.10. Structure: Component diagram. 4.11. Structure: Deployment diagram. 4.12. Hierarchy of metaclasses defined in the Behavior part. 4.13. Behavior: State Machine diagram. 4.14. Behavior: Activity diagram. 4.15. Behavior: Interaction Suite. 4.16. Behavior: Use case diagram. 4.17. Auxiliary constructs: Profiles. 5. Fundamental concepts of the real world and their mapping into UML. 5.1. Abstraction, concept, domain, ontology, model. 5.2. Structural, functional and dynamic views of systems. 5.3. Concepts of the functional view. 5.4. Fundamental concepts of the dynamic view. 5.5. Fundamental concepts of the structural view. 6. The Uniform concept. 6.1. Elements of the uniform concept. 6.2. Requirement analysis model. 6.3. Requirements analysis with technical diagrams. 6.4. System Requirements Specifications. 6.5. Designing real time Applications with MDA. 6.6. Designing reusable database models. 6.7. Unifying real time and database applications. 7. Real time behavioral study beyond UML. 7.1. SEN or State-Event Net diagram. 7.2. UML diagrams mapped into SEN. 7.3. Timing constraints with SEN. 7.4. Case study with SEN. 7.5. Safety-critical systems. 8. Real time case study. 8.1. Design of an inclined elevator or track lift tram. 8.2. Emergency service in a hospital & Design of a database coupled with a real time system. References. Index.

Autorenporträt

InhaltsangabeList of Figures. List of Tables. Preface. 1. Introduction to the world of systems, problems and solutions. 1.1. The world of systems, problems and solutions. 1.2. Real time and embedded systems: Disaster control and Quality of Service. 1.3. Human organizations and structures: How software can simulate and study them. 1.4. This book is also a system. 2. Coping with complexity. 2.1. Visual formulisms for handling complexity. 2.2. Object/function decompoision. 2.3. Functional decomposition to handle complexity. 2.4. How object technology handles complexity. 2.5. Object paradigm applied to control applications. 2.6. Object paradigm applied to database applications. 2.7. Objects and databases. 2.8. Object paradigm and Component reuse. 2.9. Mastering development complexity. 3. UML Infrastructure: Core concepts. 3.1. Core concepts compliant to MOF. 3.2. Infrastructure. 4. UML Superstrucutre: Language definition and diagrams. 4.1. Making our own development methodology with UML. 4.2. Structure and behavior. 4.3. Hierarchy of UML metaclasses. 4.4. Superstructure and compliance levels. 4.5. Reuse of the Infrastructure. 4.6. Structure: class diagram. 4.7. Structure: Object diagram. 4.8. Structure: Package diagram. 4.9. Structure: Composite Structure diagram. 4.10. Structure: Component diagram. 4.11. Structure: Deployment diagram. 4.12. Hierarchy of metaclasses defined in the Behavior part. 4.13. Behavior: State Machine diagram. 4.14. Behavior: Activity diagram. 4.15. Behavior: Interaction Suite. 4.16. Behavior: Use case diagram. 4.17. Auxiliary constructs: Profiles. 5. Fundamental concepts of the real world and their mapping into UML. 5.1. Abstraction, concept, domain, ontology, model. 5.2. Structural, functional and dynamic views of systems. 5.3. Concepts of the functional view. 5.4. Fundamental concepts of the dynamic view. 5.5. Fundamental concepts of the structural view. 6. The Uniform concept. 6.1. Elements of the uniform concept. 6.2. Requirement analysis model. 6.3. Requirements analysis with technical diagrams. 6.4. System Requirements Specifications. 6.5. Designing real time Applications with MDA. 6.6. Designing reusable database models. 6.7. Unifying real time and database applications. 7. Real time behavioral study beyond UML. 7.1. SEN or State-Event Net diagram. 7.2. UML diagrams mapped into SEN. 7.3. Timing constraints with SEN. 7.4. Case study with SEN. 7.5. Safety-critical systems. 8. Real time case study. 8.1. Design of an inclined elevator or track lift tram. 8.2. Emergency service in a hospital & Design of a database coupled with a real time system. References. Index.

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