Model-driven architecture (Mda): High-impact Strategies - What You Need to Know: Definitions, Adoptions, Impact, Benefits, Maturity, Vendors (Paperback)

Kevin Roebuck

  • 出版商: Tebbo
  • 出版日期: 2011-05-31
  • 售價: $2,165
  • 貴賓價: 9.5$2,057
  • 語言: 英文
  • 頁數: 548
  • 裝訂: Paperback
  • ISBN: 1743044739
  • ISBN-13: 9781743044735
  • 無法訂購


Model-driven architecture (MDA) is a software design approach for the development of software systems. It provides a set of guidelines for the structuring of specifications, which are expressed as models. Model-driven architecture is a kind of domain engineering, and supports model-driven engineering of software systems. It was launched by the Object Management Group (OMG) in 2001.

This book is your ultimate resource for Model-driven architecture (MDA). Here you will find the most up-to-date information, analysis, background and everything you need to know.

In easy to read chapters, with extensive references and links to get you to know all there is to know about Model-driven architecture (MDA) right away, covering: Model-driven architecture, List of types of systems engineering, Systems engineering, APSYS, ATLAS Transformation Language, Axiomatic design, Axiomatic product development lifecycle, Bayesian experimental design, Behavior Trees, Biological systems engineering, Artifact-centric business process model, Business process modeling, Capability (systems engineering), Change management (engineering), Change request, Control engineering, Control system, Control System Integrators Association, Critical to quality, CTQ tree, Design of experiments, Design review (US Government), Design structure matrix, Dialog system, Domain engineering, Dual Vee Model, Dualistic Petri nets, Dynamic programming, Earth systems engineering and management, Electrical system design, Engineering design process, Enterprise modelling, Enterprise systems engineering, Event tree, Executable Architecture, Factorial experiment, Failure mode, effects, and criticality analysis, Failure Reporting, Analysis and Corrective Action Systems, Fault detection and isolation, Fault tree analysis, Fault-tolerant system, Feature-oriented domain analysis, Fit/Gap Analysis, Fractional factorial design, Function model, Functional specification, Human factors integration, Hybricon Corporation, IDEF, IDEF0, IDEF4, IDEF6, IEC 62264, IEC 62379, Information flow diagram, Information Systems Security Engineering, Innovations in Systems and Software Engineering, Instrument mechanic, Integrated Enterprise Modeling, Integrated logistics support, Integration Competency Center, Interface Control Document, International Council on Systems Engineering, ISMART, ISO 15288, Journal of Environmental Engineering, Journal of Systems and Software, Lean Integration, Leonardi Framework, Life-critical system, Linear stage, List of systems engineers, Meta-process modeling, Middleware, Minimum viable product, MIT Engineering Systems Division, Model transformation, Model transformation language, Model-driven engineering, Model-driven integration, Modeling perspective, Modular design, Modular Function Deployment, MOF Model to Text Transformation Language, Motion system, New product development, Non-functional requirements framework, Operational View, Optimal design, Planning, Platform-independent model, Platform-specific model, Point of Delivery, Predispositioning Theory, PREview, Problem domain, Problem Frames Approach, Process architecture, Process modeling, Process-data diagram, Procurement, Program Evaluation and Review Technique, Project Anatomy, Ptolemy Project (computing), Purchasing, QVT, Reference model, Reliability engineering, Reliability, Availability and Serviceability, Requirements analysis, Requirements management, Response surface methodology, Sampled data systems, Scenario planning, Seven Management and Planning Tools, Single point of failure, Smart System, Software system, Spacecraft design, Spare part, Starmad, Statement of work...and much more.

This book explains in-depth the real drivers and workings of Model-driven architecture (MDA). It reduces the risk of your technology, time and resources investment decisions by enabling you to compare your understanding of Model-driven architecture (MDA) with the objectivity of experienced professionals.