Difference between revisions of "SC:SC2012"

From Chrome
Jump to: navigation, search
Line 63: Line 63:
 
**Tools to develop Fuzzy systems are included in Matlab and many other modeling and applicative tools.
 
**Tools to develop Fuzzy systems are included in Matlab and many other modeling and applicative tools.
  
===Neural Networks===
+
====Neural Networks====
 
*[http://www.makhfi.com/resources.htm Collecton of resources about NN]
 
*[http://www.makhfi.com/resources.htm Collecton of resources about NN]
 
*TUTORIALS
 
*TUTORIALS
Line 72: Line 72:
 
**Tools to develop NN are included in many packages like Matlab and [http://www.makhfi.com/tools.htm%20target= WEKA]. A list of SW is available from [http://www.makhfi.com/tools.htm http://www.makhfi.com/tools.htm]
 
**Tools to develop NN are included in many packages like Matlab and [http://www.makhfi.com/tools.htm%20target= WEKA]. A list of SW is available from [http://www.makhfi.com/tools.htm http://www.makhfi.com/tools.htm]
  
===Genetic Algorithms===
+
====Genetic Algorithms====
 
*[http://www.geneticprogramming.com/ga/index.htm Portal for GA]
 
*[http://www.geneticprogramming.com/ga/index.htm Portal for GA]
 
*[http://www.illigal.uiuc.edu/web/ The Illinois Genetic Algorithms Laboratory]
 
*[http://www.illigal.uiuc.edu/web/ The Illinois Genetic Algorithms Laboratory]
Line 80: Line 80:
 
**M. Mitchell. An Introduction to Genetic Algorithms. MIT Press.
 
**M. Mitchell. An Introduction to Genetic Algorithms. MIT Press.
  
===Bayesian Networks===
+
====Bayesian Networks====
  
 
  TBC
 
  TBC
  
===Bayesian Networks===
+
====Reinforcement Learning====
 
+
TBC
+
 
+
===Reinforcement Learning===
+
 
*[http://www-anw.cs.umass.edu/rlr/ Portal for RL]
 
*[http://www-anw.cs.umass.edu/rlr/ Portal for RL]
 
*[http://rlai.cs.ualberta.ca/RLAI/rlai.html Sutton's Lab at University of Alberta.]
 
*[http://rlai.cs.ualberta.ca/RLAI/rlai.html Sutton's Lab at University of Alberta.]

Revision as of 10:44, 12 September 2012

This is a description page for the PhD course on SC2012.


Course Aim & Organization

Soft Computing includes technologies (Fuzzy Systems, Neural Networks, Stochastic Algorithms , Bayesian Networks, ...) to model complex systems and offer a powerful tool both for research and companies in different, rapidly growing application areas, such as, for instance: data analysis, automatic control, modeling of artificial and natural phoenomena, modeling of behaviors (e.g., of users), decision support. The course will introduce rigorously the fundamentals of the different modeling approaches, will put in evidence the application possibilities, by comparing different models, examples and application cases, will describe how to design systems based on these technologies. No specific background is required. In past editions the course has been followed by people with many different backgrounds among which: all engineering specialties, biology, vulcanology, architecture.

Teachers

The course will be held by:

Course Schedule

In the following you find the detailed schedule for the course and the rooms booked for it. In brackets you find also the lecturer for each specific topic.

  • 12/09/2012 - 09:00 to 13:00: Fuzzy Logic (4h by Andrea Bonarini) in "Sala Seminari" (DEI)
  • 14/09/2012 - 09:00 to 13:00: Fuzzy Logic (4h by Andrea Bonarini) in "Sala Seminari" (DEI)
  • 17/09/2012 - 09:00 to 13:00: Feed Forwards Neural Networks (4h by Matteo Matteucci) in "Sala Conferenze" (DEI)
  • 19/09/2012 - 09:00 to 13:00: Feed Forwards Neural Networks (4h by Matteo Matteucci) in "Sala Conferenze" (DEI)
  • 21/09/2012 - 09:00 to 13:00: Genetic Algorithms (4h by Andrea Bonarini) in "Sala Seminari" (DEI)
  • 24/09/2012 - 09:00 to 13:00: Bayesian Networks (4h by Matteo Matteucci) in "Sala Conferenze" (DEI)
  • 26/09/2012 - 09:00 to 13:00: Estimation of Distribution Algorithms (4h by Matteo Matteucci) in "Aula Alfa" (DEI via Golgi)
  • 27/09/2012 - 09:00 to 13:00: Reinforcement Learning (4h by Andrea Bonarini) in "Sala Seminari" (DEI)

Course Material & References

The following is some suggested material to follow the course lectures organized by topic.

Course Slides


Additional Material

The following is some suggested material to follow the course lectures organized by topic.

Fuzzy Systems

Neural Networks

Genetic Algorithms

Bayesian Networks

TBC

Reinforcement Learning

Course Evaluation

TBC