Module:Emergence: Difference between revisions
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*[http://philsci-archive.pitt.edu/93/ Effective Field Theories, Reductionism and Scientific Explanation] (S. Hartmann; a philosopher of science looks in detail at the methods of Effective ''Field'' Theories in Quantum Fields, a case study for many of the concepts that will appear during the module.) | *[http://philsci-archive.pitt.edu/93/ Effective Field Theories, Reductionism and Scientific Explanation] (S. Hartmann; a philosopher of science looks in detail at the methods of Effective ''Field'' Theories in Quantum Fields, a case study for many of the concepts that will appear during the module.) | ||
*[http://plato.stanford.edu/entries/supervenience/ Stanford Encyclopedia entry on Supervenience] (a useful concept to keep in mind when thinking about higher-level, or emergent, properties in a system.) | *[http://plato.stanford.edu/entries/supervenience/ Stanford Encyclopedia entry on Supervenience] (a useful concept to keep in mind when thinking about higher-level, or emergent, properties in a system.) | ||
*[http://santafe.edu/~simon/levels_of_selection_wilson.pdf Levels of Selection: An Alternative to Individualism in the Biological and Social Sciences] (David Sloan Wilson; a nice example of the importance of levels thinking, and how aggregate properties and laws arise.) | |||
===Iain Couzin=== | ===Iain Couzin=== | ||
Revision as of 23:06, 21 June 2011
| Complex Systems Summer School 2011 Modules |
Organized by Simon DeDeo and James O'Dwyer
Readings
Simon DeDeo
Some influential views on emergence:
- "More is Different" (P.W. Anderson)
- The Calculi of Emergence & Computation at the Onset of Chaos (J. Crutchfield, et al.)
- Weak Emergence (M. Bedau)
Background concepts, tools and techniques:
- Information Theory and Statistical Mechanics (E.T. Jaynes; technical paper. The foundation of Maximum Entropy methods, that show how to extend thermodynamic analogies to non-physical systems and inference problems.)
- Scaling, Universality, and Renormalization: Three pillars of modern critical phenomena (E. Stanley; physics-centric, but not too painful.)
- Effective Field Theories, Reductionism and Scientific Explanation (S. Hartmann; a philosopher of science looks in detail at the methods of Effective Field Theories in Quantum Fields, a case study for many of the concepts that will appear during the module.)
- Stanford Encyclopedia entry on Supervenience (a useful concept to keep in mind when thinking about higher-level, or emergent, properties in a system.)
- Levels of Selection: An Alternative to Individualism in the Biological and Social Sciences (David Sloan Wilson; a nice example of the importance of levels thinking, and how aggregate properties and laws arise.)
Iain Couzin
(Content from the 2009/2010 Wikis)