Principles of object oriented modeling and simulation with Modelica 3.3 : a cyber-physical approach

✍ Scribed by Fritzson, Peter A

Publisher: Wiley-IEEE Press
Year: 2015
Tongue: English
Leaves: 1252
Edition: 2
Category: Library

No coin nor oath required. For personal study only.

✦ Synopsis

Fritzson covers the Modelica language in impressive depth from the basic concepts such as cyber-physical, equation-base, object-oriented, system, model, and simulation, while also incorporating over a hundred exercises and their solutions for a tutorial, easy-to-read experience.

• The only book with complete Modelica 3.3 coverage
• Over one hundred exercises and solutions
• Examines basic concepts such as cyber-physical, equation-based, object-oriented, system, model, and simulation

✦ Table of Contents

Content: Cover
Title Page
Copyright Page
Table of Contents
Preface
About the Author
About this Book
Reading Guide
Acknowledgements
Contributions to Examples
Contributors to the Modelica Standard Library, Version 3.2.1
Contributors to the Modelica Standard Library, Versions 1.0 to 2.1
Contributors to the Modelica Language, Version 3.3 and Version 3.3 revision 1
Contributors to the Modelica Language, Version 3.2
Contributors to the Modelica Language, Version 3.0
Contributors to the Modelica Language, Version 2.0
Contributors to the Modelica Language, up to Version 1.3. Modelica Association Member Companies and Organizations 2013Funding Contributions
Part I Introduction
Chapter 1 Introduction to Modeling and Simulation
1.1 Systems and Experiments
1.2 The Model Concept
1.3 Simulation
1.4 Building Models
1.5 Analyzing Models
1.6 Kinds of Mathematical Models
1.7 Using Modeling and Simulation in Product Design
1.8 Examples of System Models
1.9 Summary
1.10 Literature
Chapter 2 A Quick Tour of Modelica
2.1 Getting Started with Modelica
2.2 Object-Oriented Mathematical Modeling
2.3 Classes and Instances
2.4 Inheritance
2.5 Generic Classes. 2.6 Equations2.7 Acausal Physical Modeling
2.8 The Modelica Software Component Model
2.9 Partial Classes
2.10 Component Library Design and Use
2.11 Example: Electrical Component Library
2.12 The Simple Circuit Model
2.13 Arrays
2.14 Algorithmic Constructs
2.15 Discrete Event and Hybrid Modeling
2.16 Packages
2.17 Annotations
2.18 Naming Conventions
2.19 Modelica Standard Library
2.20 Implementation and Execution of Modelica
2.21 Tool Interoperability through Functional Mockup Interface
2.22 History
2.23 Summary
2.24 Literature
2.25 Exercises
Part II The Modelica Language. Chapter 3 Classes, Types, Declarations, and Lookup3.1 Contract between Class Designer and User
3.2 A Class and Instance Example
3.3 Variables
3.4 Behavior as Equations
3.5 Access Control
3.6 Simulating the Moon Landing Example
3.7 Short Classes and Nested Classes
3.8 Specialized Classes
3.9 Predefined Types/Classes
3.10 Structure of Variable Declarations
3.11 Declaration Prefixes
3.12 Variable Specifiers
3.13 Initial Values of Variables
3.14 Conditional Instance Declarations
3.15 Declaration Order and Use before Declaration
3.16 Introduction to Scoping and Name Lookup. 3.17 Nested Lookup Procedure in Detail3.18 The Concepts of Type and Subtype
3.19 Use of Subtyping and Type Compatibility
3.20 Summary of Type Concepts
3.21 Summary
3.22 Literature
3.23 Exercises
Chapter 4 Inheritance, Modifications, and Generics
4.1 Inheritance
4.2 Inheritance through Modification
4.3 Redeclaration
4.4 Parameterized Generic Classes
4.5 Designing a Class to Be Extended
4.6 Adapting and Extending Libraries by class extends
4.7 Summary
4.8 Literature
4.9 Exercises
Chapter 5 Components, Connectors, and Connections
5.1 Software Component Models.

✦ Subjects

Simulation; Cyber-Physical Systems; Modelica

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