Computer modeling and simulation of dynamic systems using Wolfram SystemModeler. (2020)
- Record Type:
- Book
- Title:
- Computer modeling and simulation of dynamic systems using Wolfram SystemModeler. (2020)
- Main Title:
- Computer modeling and simulation of dynamic systems using Wolfram SystemModeler
- Further Information:
- Note: Kirill Rozhdestvensky [and more].
- Other Names:
- Rozhdestvensky, Kirill
Ryzhov, Vladimir
Fedorova, Tatiana
Safronov, Kirill
Tryaskin, Nikita
Sulaiman, Shaharin Anwar
Ovinis, Mark
Hassan, Suhaimi - Contents:
- Intro -- Reviewers -- Introduction -- References -- Contents -- 1 Modeling Systems -- 1.1 Basic Modeling Concepts -- 1.2 Classification of Mathematical Models -- 1.3 Basic Properties of Mathematical Models -- 1.4 Computer Simulation and Computational Experiment -- 1.5 Classification of Computer Models -- 1.6 Open and Isolated Models -- 1.7 Single component and Multicomponent Models -- 1.8 Continuous, Discrete, and Hybrid Models -- 1.9 Linear and Nonlinear Systems -- 1.10 Component-Oriented Approach in Modeling -- References -- 2 Description of the Wolfram SystemModeler -- 2.1 General Concepts 2.2 Model Center -- 2.3 Simulation Center -- 2.3.1 Experiment Browser -- 2.3.2 Solver Selection -- 2.3.3 Plotting -- 2.3.4 Model Animation -- 2.3.5 FFT Analysis -- 2.4 Creating a Dynamic Model in Wolfram SystemModeler -- 2.4.1 Creating a Component in Text Mode -- 2.4.2 Perform a Numerical Experiment -- 2.4.3 Creating a Library of Components for Complex Systems Modeling -- 2.5 Basics of Component Modeling in WSM -- 2.5.1 Creating a Spring Pendulum Model -- 2.5.2 Analysis of the Properties of the Spring Pendulum Component -- 2.5.3 Example of Using the Spring Pendulum Component: Multi-link 2.6 Creating a Hybrid Model in the WSM Package on the Modelica Language -- 2.6.1 Modelica Language Features to Describe Continuous and Discrete Events -- 2.6.2 An Example of Using Modelica Language Tools: Bouncing Ball -- 2.7 General Recommendations for Creating a Computer Model -- References -- 3Intro -- Reviewers -- Introduction -- References -- Contents -- 1 Modeling Systems -- 1.1 Basic Modeling Concepts -- 1.2 Classification of Mathematical Models -- 1.3 Basic Properties of Mathematical Models -- 1.4 Computer Simulation and Computational Experiment -- 1.5 Classification of Computer Models -- 1.6 Open and Isolated Models -- 1.7 Single component and Multicomponent Models -- 1.8 Continuous, Discrete, and Hybrid Models -- 1.9 Linear and Nonlinear Systems -- 1.10 Component-Oriented Approach in Modeling -- References -- 2 Description of the Wolfram SystemModeler -- 2.1 General Concepts 2.2 Model Center -- 2.3 Simulation Center -- 2.3.1 Experiment Browser -- 2.3.2 Solver Selection -- 2.3.3 Plotting -- 2.3.4 Model Animation -- 2.3.5 FFT Analysis -- 2.4 Creating a Dynamic Model in Wolfram SystemModeler -- 2.4.1 Creating a Component in Text Mode -- 2.4.2 Perform a Numerical Experiment -- 2.4.3 Creating a Library of Components for Complex Systems Modeling -- 2.5 Basics of Component Modeling in WSM -- 2.5.1 Creating a Spring Pendulum Model -- 2.5.2 Analysis of the Properties of the Spring Pendulum Component -- 2.5.3 Example of Using the Spring Pendulum Component: Multi-link 2.6 Creating a Hybrid Model in the WSM Package on the Modelica Language -- 2.6.1 Modelica Language Features to Describe Continuous and Discrete Events -- 2.6.2 An Example of Using Modelica Language Tools: Bouncing Ball -- 2.7 General Recommendations for Creating a Computer Model -- References -- 3 Computer Simulation of Dynamic Systems -- 3.1 Dynamic System Modeling -- 3.2 Fundamental Principles for Mathematical Models Development -- 3.2.1 Newton's Laws and Conservation Laws -- 3.2.2 Variational Principles -- 3.3 Hierarchical Principles of Model Building 3.4 Universality of a Computer Model and Equivalent Physical Systems -- References -- 4 Modeling of Mechanical Oscillatory Systems with One Degree of Freedom -- 4.1 Mathematical Pendulum -- 4.2 Galileo Pendulum -- 4.3 Mathematical Pendulum with Spring -- References -- 5 Modeling of Mechanical Oscillatory Systems with Several Degrees of Freedom -- 5.1 The Movement of Two Bodies with Friction -- 5.2 Mechanical System with Damper and Spring -- 5.3 The Movement of Three Bodies Connected by a Damper and Springs -- 5.4 Connected Pendulums -- 5.5 Double Pendulum -- 5.6 Dual Torsion Oscillator 5.7 Gear Rotary Mechanical System -- 5.8 Mechanical System with Two Springs and a Block -- 5.9 Sophisticated Mechanical System with Springs and Block -- References -- 6 Hierarchical Component Models -- 6.1 Draining of a Tank -- 6.2 Heating a Liquid Mixture -- 6.3 Inverted Pendulum Problem -- 6.4 Final Remarks -- References … (more)
- Publisher Details:
- Singapore : Springer
- Publication Date:
- 2020
- Extent:
- 1 online resource (274 pages)
- Subjects:
- 531/.0113
Dynamics -- Computer simulation
Dynamics -- Computer simulation
Electronic books - Languages:
- English
- ISBNs:
- 9789811528033
9811528039 - Related ISBNs:
- 9789811528026
- Notes:
- Note: Print version record.
- Access Rights:
- Legal Deposit; Only available on premises controlled by the deposit library and to one user at any one time; The Legal Deposit Libraries (Non-Print Works) Regulations (UK).
- Access Usage:
- Restricted: Printing from this resource is governed by The Legal Deposit Libraries (Non-Print Works) Regulations (UK) and UK copyright law currently in force.
- View Content:
- Available online (eLD content is only available in our Reading Rooms) ↗
- Physical Locations:
- British Library HMNTS - ELD.DS.510295
- Ingest File:
- 03_090.xml