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===Lecture Notes===
===Lecture Notes===
* [[Media:Feldman_1.pdf|Introduction]]
* [[Media:Feldman_2.pdf|Dynamical Systems and Chaos]]
* [[Media:Feldman_3.pdf|Introduction to Chaos: Part II]]
* [[Media:Feldman_4.pdf|Information Theory]]
* [[Media:Feldman_5.pdf|Information Theory: Part II, Applications to Stochastic Processes]]
* [[Media:Feldman_12.pdf|Extensions to Shannon Entropy]]
* [[Media:Feldman_6.pdf|A (Mostly) Informal Introduction to Computation Theory]]
* [[Media:Feldman_7.pdf|An Informal Introduction to Computability and Computational Complexity]]
* [[Media:Feldman_8.pdf|An Introduction to Computational Mechanics]]
* [[Media:Feldman_9.pdf|Some Thoughts on Complexity Measures]]
* [[Media:Feldman_11.pdf|Thoughts on the Subjectivity of Complexity]]
* [[Media:Feldman_10.pdf|Conclusion]]


===Additional Reading===
===Additional Reading===
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* K. L. Klinkner, C. R. Shalizi and M. F. Camperi, "Measuring Shared Information and Coordinated Activity in Neuronal Networks", <cite>Advances in Neural Information Processing Systems 18</cite> (NIPS 2005), pp. 667--674.  Using CSSR to measure information sharing in networks (not just neural ones).  [http://arxiv.org/abs/q-bio.NC/0506009 q-bio.NC/0506009]
* K. L. Klinkner, C. R. Shalizi and M. F. Camperi, "Measuring Shared Information and Coordinated Activity in Neuronal Networks", <cite>Advances in Neural Information Processing Systems 18</cite> (NIPS 2005), pp. 667--674.  Using CSSR to measure information sharing in networks (not just neural ones).  [http://arxiv.org/abs/q-bio.NC/0506009 q-bio.NC/0506009]


==John Pepper==
==John Pepper==
===Lecture Notes===
'''Agent-Based modeling'''
* [[Media:Pepper_7-9.pdf|A brief introduction to Agent-Based Modeling, Part 1]]
* [[Media:Pepper_2.pdf|Agent-Based Modeling, Part 2]]


===Lecture Notes===
'''Evolution'''
I don't promise not to tinker with it more before my talk, but you can download a PDF version of my powerpoint notes, current as of 6/21, at this link: [[Link title]]
* [[Media:Pepper_NS.pdf|Darwinian Evolution]]
* [[Media:Pepper_Natural_Selection_2.pdf|Natural Selection]]


===Additional Reading===
===Additional Reading===
'''Evolution: Applications to cancer biology'''
*A recent review of somatic evolution in cancer: [[Media:Merlo_Pepper_et_al_2006_NRC.pdf|Merlo Pepper et al 2006]]
*My most recent work on the topic: [[Media:07-07-015.pdf|Pepper et al. 2007]]


==Jon Wilkins==
==Jon Wilkins==


===Lecture Notes===
===Lecture Notes===
Introduction to SFI: Monday, July 9
* [[Media:Wilkins_CSSS_2007_Intro.pdf|Introduction to SFI]]
Lecture 1: Monday, July 9
* [[Media:Wilkins_7-9.pdf|Introduction to Coalescent Theory]]
Lecture 2: Wednesday, July 11
* [[Media:Wilkins_7-11.pdf|Adaptationism and the Adaptive Landscape]]
Lecture 3: Friday, July 13
* [[Media:Wilkins_CSSS_2007_3.pdf|Statistical Inference in Complex Systems: Approximate Bayesian Computation]]
===Additional Reading===
===Additional Reading===


'''Coalescent Theory:'''
Here are two different introductions to coalescent theory.  One is a review article written by Magnus Nordborg:
* [[Media:Coalescent_Intro_-_Nordborg.pdf|Nordborg Review]]
The other is a chapter from John Wakeley's book called ''Coalescent Theory''
* [[Media:Coalescent_Intro_-_Wakeley.pdf|Wakeley Review]]
If you are interesed in learning a lot more about the subject, I recommend the rest of the book as well
'''Genomic Imprinting:'''
Here are a couple of review articles that talk about the evolution of genomic imprinting
* [[Media:Wilkins_&_Haig_2003_NRG.pdf|Wilkins & Haig Imprinting Review]]  Nature Reviews Genetics, 2003
* [[Media:Wilkins_2005_TIG.pdf|Wilkins Imprinting Review]]  Trends in Genetics, 2005
Here are some modeling papers on imprinting.  The first two are the models that I used as an example in Wednesday's lecture
* [[Media:Wilkins_&_Haig_2002_PRSB.pdf|Game-Theoretic model of imprinting evolution]]  Wilkins & Haig, Proc. R. Soc. B, 2002
* [[Media:Spencer_1998_Genetics.pdf|Population-Genetic model of imprinting evolution]]  Spencer, Clark & Feldman, Genetics, 1998
These are some papers that look at what happens when there are more than two "players" or "genetic factions" that are co-evolving
* [[Media:Burt_&_Trivers_1998_PRSB.pdf|Genetic conflicts in genomic imprinting]]  Burt & Trivers, Proc. R. Soc. B, 1998
* [[Media:Wilkins_2006a_JTB.pdf|Somatic reactivation of imprinted gene expression]]  Wilkins, J. Theor. Biol., 2006
* [[Media:Wilkins_2006b_JTB.pdf|Competitive signal discrimination in imprinting]]  Wilkins, J. Theor. Biol., 2006
Also, here is a paper that talks about how the level of analysis in evolutionary problems affects how you perceive the role of natural selection in evolution
It is now out it the Blackwell Companion to the Philosophy of Biology.  It is the article entry on "Adaptationism"  I don't have the final PDF with me, though, so I have attached the final draft that we sent to the publishers.  I suspect that it is similar, though.
* [[Media:Adaptationism.pdf|Adaptationism]]  Godfrey Smith and Wilkins, Blackwell Companion to the Philosophy of Biology, 1997
'''Approximate Bayesian Computation'''
Here are a few papers that describe the basic ideas of Approximate Bayesian Computation.  In these papers, the applications are specifically population genetic.  One warning: the techniques used in these papers to deal with the issues of correlations among statistics, etc. are completely ad hoc.  The procedure that I outlined on Friday is somewhat less ad hoc.  Soon, I hope to post something that provides a written description of what I talked about.  Conceivably, even some code to implement these steps.


==Henry Wright==
==Henry Wright==


===Lecture Notes===
===Lecture Notes===
* [[Media:CSSS_Oaxaca_06.pdf|Modeling Food Gatherers]]
===Additional Reading===
===Additional Reading===


====Foragers and the Emergence of Agriculture====
====Foragers and the Emergence of Agriculture====
*[[Media:Modeling_Foragrs.doc|Brief Syllabus of Sources on the “Forager” Project]]
*[[Media:Foragers_Biblio.doc|Brief Syllabus of Sources on the “Forager” Project]]
*[http://hornacek.coa.edu/dave/Wright/csss_foragers1_rev_06.ppt PowerPoint presentation of Part 1]  (Updated 21 July 2006)
*[http://hornacek.coa.edu/dave/Wright/csss_foragers1_rev_06.ppt PowerPoint presentation of Part 1]  (Updated 21 July 2006)
*[[Media:Foragrs_talk.doc|Talk Outline]] (Updated 21 July 2006)
*[[Media:Foragrs_talk.doc|Talk Outline]] (Updated 09 July 2007)
*[[Media:Wobst_BoundaryConditions_.pdf|Boundary Conditions for Paleolithic Social Systems: A Simultaion Approach]].  Martin Wobst.
*[[Media:Wobst_BoundaryConditions_.pdf|Boundary Conditions for Paleolithic Social Systems: A Simultaion Approach]].  Martin Wobst.
*[[Media:ArchSysThry68.pdf|Archaological Systems Theory and Early Mesoamerica]], Kent V. Flannery.  In <i>Anthropological Archaeology in the Americas</i>.  The Anthropological Society of Washington.  1968.  
*[[Media:ArchSysThry68.pdf|Archaological Systems Theory and Early Mesoamerica]], Kent V. Flannery.  In <i>Anthropological Archaeology in the Americas</i>.  The Anthropological Society of Washington.  1968.  
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*[[Media:Gumerman_etal_.pdf|Long House Valley Simulation]]
*[[Media:Gumerman_etal_.pdf|Long House Valley Simulation]]
*[[Media:Kohler_etal_Agent_Based_Mdling_SFI96.doc|Agent-Based Modeling of Prehistoric Settlement Systems in the Northern American Southwest]] Kohler, T. A., C. R. Van West, E. P. Carr and C. G. Langton
*[[Media:Kohler_etal_Agent_Based_Mdling_SFI96.doc|Agent-Based Modeling of Prehistoric Settlement Systems in the Northern American Southwest]] Kohler, T. A., C. R. Van West, E. P. Carr and C. G. Langton
*[[Media:Reynolds_Algorithms_2002.ppt|Cultural Algorithms: A Tutorial]] Robert G. Reynolds
*[[Media:Reynolds_Algorithms_2002.ppt|Cultural Algorithms: A Tutorial]] Robert G. Reynolds (PowerPoint)
*[[Media:Reynolds_Algorithms_2002.pdf|Cultural Algorithms: A Tutorial]] Robert G. Reynolds (PDF)
*[[Media:Kobti_Reynolds_Kohler_Resilience_IEEE03.pdf|A Multi-Agent Simulation Using Cultural Algorithms: The Effect of Culture on the Resilience of Social Systems]] Kobti, Z., R. G. Reynolds, and T. A. Kohler
*[[Media:Kobti_Reynolds_Kohler_Resilience_IEEE03.pdf|A Multi-Agent Simulation Using Cultural Algorithms: The Effect of Culture on the Resilience of Social Systems]] Kobti, Z., R. G. Reynolds, and T. A. Kohler
*[[Media:Reynolds_Kohler_Kobti_Resilience_CMOT04.pdf|The Effects of Generalized Reciprocal Exchange on the Resilience of Social Networks: An Example from the Prehispanic Mesa Verde Region]] Reynolds, R. G., T. A. Kohler and Z. Kobti
*[[Media:Reynolds_Kohler_Kobti_Resilience_CMOT04.pdf|The Effects of Generalized Reciprocal Exchange on the Resilience of Social Networks: An Example from the Prehispanic Mesa Verde Region]] Reynolds, R. G., T. A. Kohler and Z. Kobti
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*[[Media:VILLAGE_and_BALI_URLs.doc|Web Access to Kohler's VILLAGE and Lansing''s BALI]]
*[[Media:VILLAGE_and_BALI_URLs.doc|Web Access to Kohler's VILLAGE and Lansing''s BALI]]


====Raising Civilizations====
====Raising Civilizations====
*[[Media:Modeling_States.doc|Brief Syllabus of Sources on the “States” Project]]  
*[[Media:Modeling_States.doc|Brief Syllabus of Sources on the “States” Project]]  

Latest revision as of 01:27, 17 July 2007

CSSS 2007 Beijing

Dave Feldman

Lecture Notes

Additional Reading

General Complex Systems

  • James Crutchfield, What Lies between Order and Chaos?, in Art and Complexity, J. Casti, editor, Oxford University Press (2002). An interesting, non-technical essay discussing how new patterns are discovered, and how complexity arises from the interplay between order and chaos. This is an excellent introduction to the notions of complexity and emergence, and history of one strand of the study of complex systems.
  • J.B. Rosser, On the Complexities of Complex Economic Dynamics. Journal of Economic Perspectives. 13:169-192. 1999. I've only read about half of this. It strikes me as a thorough, even-handed review of the applications of "complexity theory" to economics. Presents good spectrum of views, from those who think complexity is mostly hype, to those who believe it has contributed significant new understandings. Contains around 125 references. pdf format, for AEA members.
  • Cosma Shalizi, Methods and Techniques of Complex Systems Science: An Overview. Chapter 1 (pp. 33--114) in Thomas S. Deisboeck and J. Yasha Kresh (eds.), Complex Systems Science in Biomedicine (New York: Springer, 2006.) This is an excellent, thorough review of the "field" -- to the extent that there is such a thing -- of complex systems. Covers many tools: statistical learning and model selection; time series analysis; cellular automata; agent-based models; the evaluation of complex-systems models; information theory; and ways of measuring complexity. Contains over 250 references. Also available here.

Entropy Rate, Excess Entropy

Power Laws

Computational Mechanics

  • C. R. Shalizi and K. L. Klinkner, "Blind Construction of Optimal Nonlinear Recursive Predictors for Discrete Sequences", Uncertainty in Artificial Intelligence: Proceedings of the Twentieth Conference (UAI 2004), pp. 504--511. Best description of the CSSR algorithm. cs.LG/0406011
  • K. L. Klinkner, C. R. Shalizi and M. F. Camperi, "Measuring Shared Information and Coordinated Activity in Neuronal Networks", Advances in Neural Information Processing Systems 18 (NIPS 2005), pp. 667--674. Using CSSR to measure information sharing in networks (not just neural ones). q-bio.NC/0506009

John Pepper

Lecture Notes

Agent-Based modeling

Evolution

Additional Reading

Evolution: Applications to cancer biology

Jon Wilkins

Lecture Notes

Introduction to SFI: Monday, July 9

Lecture 1: Monday, July 9

Lecture 2: Wednesday, July 11

Lecture 3: Friday, July 13

Additional Reading

Coalescent Theory:

Here are two different introductions to coalescent theory. One is a review article written by Magnus Nordborg:

The other is a chapter from John Wakeley's book called Coalescent Theory

If you are interesed in learning a lot more about the subject, I recommend the rest of the book as well


Genomic Imprinting:

Here are a couple of review articles that talk about the evolution of genomic imprinting

Here are some modeling papers on imprinting. The first two are the models that I used as an example in Wednesday's lecture

These are some papers that look at what happens when there are more than two "players" or "genetic factions" that are co-evolving

Also, here is a paper that talks about how the level of analysis in evolutionary problems affects how you perceive the role of natural selection in evolution It is now out it the Blackwell Companion to the Philosophy of Biology. It is the article entry on "Adaptationism" I don't have the final PDF with me, though, so I have attached the final draft that we sent to the publishers. I suspect that it is similar, though.

  • Adaptationism Godfrey Smith and Wilkins, Blackwell Companion to the Philosophy of Biology, 1997


Approximate Bayesian Computation

Here are a few papers that describe the basic ideas of Approximate Bayesian Computation. In these papers, the applications are specifically population genetic. One warning: the techniques used in these papers to deal with the issues of correlations among statistics, etc. are completely ad hoc. The procedure that I outlined on Friday is somewhat less ad hoc. Soon, I hope to post something that provides a written description of what I talked about. Conceivably, even some code to implement these steps.

Henry Wright

Lecture Notes

Additional Reading

Foragers and the Emergence of Agriculture

Villages and the Emergernce of Tribal Alliance Systems

Raising Civilizations

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