Difference between revisions of "HYCON-EECI, Spring 2008"

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<tr valign=top><td align=center><font color='blue' size='+1'>Spring 2008</font></td></tr>
 
<tr valign=top><td align=center><font color='blue' size='+1'>Spring 2008</font></td></tr>
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Increases in fast and inexpensive computing and communications have enabled a new generation  
 
Increases in fast and inexpensive computing and communications have enabled a new generation  
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systems, focusing on the so-called “networked” control systems in which the components that form  
 
systems, focusing on the so-called “networked” control systems in which the components that form  
 
the system are connected through a communication network.  These lectures were developed as part of  
 
the system are connected through a communication network.  These lectures were developed as part of  
a [[CDS 270-2, Spring 2006|course at Caltech]] on “Networked  Control Systems”, first offered in Spring 2006.
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a [[CDS 270-2, Spring 2006|course at Caltech]] on “Networked  Control Systems”, first offered in Spring 2006.  
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=== Course information ===
 
=== Course information ===

Revision as of 05:33, 10 March 2008

Eecilogo.png Networked Control Systems Cdslogo.png
Spring 2008

Increases in fast and inexpensive computing and communications have enabled a new generation information-rich control systems that rely on multi-threaded networked execution, distributed optimization, adaptation and learning, and contingency management in increasingly sophisticated ways. This set of lectures will provide an introduction to the theory and tools for building such systems, focusing on the so-called “networked” control systems in which the components that form the system are connected through a communication network. These lectures were developed as part of a course at Caltech on “Networked Control Systems”, first offered in Spring 2006.

Course information

Lecture Schedule

  • L1: Introduction to Networked Control Systems
  • L2: Networked embedded systems programming
  • L3: Optimization-based control
  • L4: Application 1 - Autonomous Driving
  • L5: State estmation and sensor fusion
  • L6: Packet-based estimation and control
  • L7: Distributed estimation and control
  • L8: Distributed receding horizon control
  • L9: Information flow and consensus
  • L10: Formation control in multi-agent systems
  • L11: Distributed Protocols and CCL
  • L12: Embedded Graph Grammars
  • L13: Application 2 - Multi-Vehicle Cooperative Control
  • L14: Open Problems

References