Difference between revisions of "CDS 101/110  System Modeling"
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== Overview ==  == Overview ==  
'''Monday:''' Introduction to Modeling ({{cds101 handoutsL21_modeling.pdfSlides}}, {{cds101 mp3cds10120071008.mp3MP3}})  '''Monday:''' Introduction to Modeling ({{cds101 handoutsL21_modeling.pdfSlides}}, {{cds101 mp3cds10120071008.mp3MP3}} )  
This lecture provides an overview of modeling for control systems. We discuss what a model is and what types of questions it can be used to answer. The concepts of state, dynamics, inputs and outputs are described, including running examples to demonstrate the concepts. Several different modeling techniques are summarized, with emphasis on differential equations. Two examples are included to demonstrate the main concepts.  This lecture provides an overview of modeling for control systems. We discuss what a model is and what types of questions it can be used to answer. The concepts of state, dynamics, inputs and outputs are described, including running examples to demonstrate the concepts. Several different modeling techniques are summarized, with emphasis on differential equations. Two examples are included to demonstrate the main concepts.  
* [[media:cds101demo.mp4cds101demo.mp4]]  springmass system frequency response demonstration video from lecture  
'''Wednesday:''' Modeling using Ordinary Differential Equation ({{cds101 handouts placeholderL22_odes_h.pdfSlides}}, {{cds101 mp3 placeholdercds10120071010.mp3MP3}})  '''Wednesday:''' Modeling using Ordinary Differential Equation ({{cds101 handouts placeholderL22_odes_h.pdfSlides}}, {{cds101 mp3 placeholdercds10120071010.mp3MP3}}) 
Revision as of 01:22, 9 October 2007
See current course homepage to find most recent page available. 
CDS 101/110a  Schedule  Recitations  FAQ  AM08 (errata) 
Overview
Monday: Introduction to Modeling (Slides, MP3 )
This lecture provides an overview of modeling for control systems. We discuss what a model is and what types of questions it can be used to answer. The concepts of state, dynamics, inputs and outputs are described, including running examples to demonstrate the concepts. Several different modeling techniques are summarized, with emphasis on differential equations. Two examples are included to demonstrate the main concepts.
 cds101demo.mp4  springmass system frequency response demonstration video from lecture
Wednesday: Modeling using Ordinary Differential Equation (Slides, MP3)
This lecture provides a more detailed introduction to the use of ordinary differential equations (ODEs) for modeling dynamical systems. A brief review of the solutions of second order linear ODEs is provided to make connection with prior coursework. The general form of nonlinear and linear ODEs is provided, along with an overview of some of the techniques for solving linear ODEs in special forms (scalar and diagonal systems). Analysis tools, including stability and frequency response, are illustrated. Finally, the use of block diagrams in control systems is introduced, including the standard symbology used in the text and an extended example (insect flight).
Friday: SIMULINK Tutorial  George Hines
This tutorial will provide an overview of the SIMULINK modeling tool.
Handouts
Monday

Wednesday (CDS 110)

Friday

Reading
 K. J. Åström and R. M. Murray, Feedback Systems: An Introduction for Scientists and Engineers, Preprint, 2007. Chapter 2  System Modeling.
Homework
This homework set demonstrates the construction and use of models for control systems. The first problem asks the student to identify the states, inputs, outputs, and dynamics for a sample systems. The second problem consists of a detailed construction of a vehicle model that can be used for cruise control. The last problem (CDS 110 only) explore discrete time modeling techniques.
FAQ
Monday <ncl>CDS 101/110 FAQ  Lecture 21, Fall 2007</ncl> Wednesday <ncl>CDS 101/110 FAQ  Lecture 22, Fall 2007</ncl> Friday <ncl>CDS 101/110 FAQ  Lecture 23, Fall 2007</ncl> Homework <ncl>CDS 101/110 FAQ  Homework 2, Fall 2007</ncl>