Chile Complex Systems Summer SChool 2013-Lecture Readings: Difference between revisions
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{{Chile Complex Systems Summer School 2013}} | {{Chile Complex Systems Summer School 2013}} | ||
==Slides and Readings== | |||
===Juan Alejandro Valdivia=== | |||
[[Media:jav1.pdf |Slides: City Traffic as a Complex System]] | |||
===Alyssa Cirtwill=== | |||
[[Media:alyssacw.pdf |Cirtwill Lecture Slides]] | |||
===Marcel Clerc=== | |||
[[Media:mclerc.pdf |Clerc Lecture Slides]] | |||
===Jennifer Dunne=== | |||
[[Media:jdunne.pdf |Dunne Lecture Slides 1]] | |||
[[Media:jdunne2.pdf |Dunne Lecture Slides 2]] | |||
===Álvaro Fischer=== | |||
[[Media:fischerlidescssschile.pdf |Fischer Lecture Slides]] | |||
===Jessica Flack=== | |||
===Carlos Gershenson=== | |||
[[Media:CG2.pdf |Gershenson, C. and F. Heylighen (2005). How can we think the complex? In Richardson, Kurt (Ed.) Managing the Complex Volume One: Philosophy, Theory, Application. Chapter 3, pp. 47-62. Information Age Publishing.]]<br> | |||
[[Media:CG3.pdf |Gershenson, C. (2012). The Implications of Interactions for Science and Philosophy. Foundations of Science Early View. doi:10.1007/s10699-012-9305-8]]<br> | |||
[[Media:CG6.pdf |Gershenson, C. (2011). Self-organization leads to supraoptimal performance in public transportation systems, PLoS ONE 6(6):e21469. doi:10.1371/journal.pone.0021469.]]<br> | |||
[[Media:CG5.pdf |Gershenson, C. (2012). Guiding the Self-organization of Random Boolean Networks. Theory in Biosciences 131(3):181-191. doi:10.1007/s12064-011-0144-x]]<br> | |||
===John Harte=== | |||
[[Media:harteslidescss2schile1.pdf |Harte Lecture Slides]] | |||
===David Krakauer=== | |||
===Marcelo Kuperman=== | |||
[[Media:MK12.pdf |Kuperman Lecture Slides]]<br> | |||
===Pablo Marquet=== | |||
[[Media:marquet1.pdf |Marquet Lecture Slides]] | |||
===Víctor Muñoz=== | |||
[[Media:munozv.pdf |Munoz Lecture Slides]] <br> | |||
[[Media:munozv1.pdf |Finite data-size scaling of clustering in earthquake networks. Sumiyoshi Abea, Denisse Pastén, Norikazu Suzuki]]<br> | |||
[[Media:munozv2.pdf |Universalities of earthquake-network characteristics. Sumiyoshi, PASTÉN Denisse, MUÑOZ Víctor & SUZUKI Norikazu]]<br> | |||
[[Media:munozv3.pdf |Monofractal and multifractal analysis of the spatial distribution of earthquakes in the central zone of Chile Denisse Pasten, Vıctor Munoz, Armando Cisternas, Jose Rogan, and Juan Alejandro Valdivia]]<br> | |||
===Alberto Pascual-García=== | |||
[[Media:albertopapertoshare.pdf |Parameter Space Compression Underlies Emergent Theories and Predictive Models. Benjamin B. Machta, Ricky Chachra, Mark Transtrum, and James P. Sethna]]<br> | |||
[[Media:albertopapertoshare1.pdf |The architecture of mutualistic networks minimizes competition and increases biodiversity Ugo Bastolla, Miguel A. Fortuna, Alberto Pascual-Garcia, Antonio Ferrera, Bartolo Luque, and Jordi Bascompte]]<br> | |||
[[Media:albertopapertoshare2.pdf |Community Model]]<br> | |||
[[Media:albertopapertoshare3.pdf |Quantifying the Increase in Biodiversity Supported by Mutualistic Networks. Alberto Pascual-Garcia Lecture Slides]]<br> | |||
===Rolando Rebolledo=== | |||
[[Media:rolandoslides1.pdf |Rebolledo Lecture Slides]] | |||
===Carlos Rodríguez-Sickert=== | |||
[[Media:rsclide1s.pdf |Rodríguez-Sickert Lecture Slides]] | |||
===Graham Spencer=== | |||
[[Media:gsslide1s.pdf |Spencer Lecture Slides 1]] <br> | |||
[[Media:gsslide2s.pdf |Spencer Lecture Slides 2]] | |||
===Constantino Tsallis=== | |||
[[Media:cts12.pdf |COMPLEXITY, ENTROPY AND STATISTICAL MECHANICS SLIDES PART 1]]<br> | |||
[[Media:cts22.pdf |COMPLEXITY, ENTROPY AND STATISTICAL MECHANICS SLIDES PART 2]]<br> | |||
[[Media:cts32.pdf |COMPLEXITY, ENTROPY AND STATISTICAL MECHANICS SLIDES PART 3]]<br> | |||
[[Media:cts42.pdf |COMPLEXITY, ENTROPY AND STATISTICAL MECHANICS SLIDES PART 4]]<br> | |||
Latest revision as of 22:56, 2 December 2013
| Chile Complex Systems Summer School 2013 |
Slides and Readings
Juan Alejandro Valdivia
Slides: City Traffic as a Complex System
Alyssa Cirtwill
Marcel Clerc
Jennifer Dunne
Álvaro Fischer
Jessica Flack
Carlos Gershenson
Gershenson, C. and F. Heylighen (2005). How can we think the complex? In Richardson, Kurt (Ed.) Managing the Complex Volume One: Philosophy, Theory, Application. Chapter 3, pp. 47-62. Information Age Publishing.
Gershenson, C. (2012). The Implications of Interactions for Science and Philosophy. Foundations of Science Early View. doi:10.1007/s10699-012-9305-8
Gershenson, C. (2011). Self-organization leads to supraoptimal performance in public transportation systems, PLoS ONE 6(6):e21469. doi:10.1371/journal.pone.0021469.
Gershenson, C. (2012). Guiding the Self-organization of Random Boolean Networks. Theory in Biosciences 131(3):181-191. doi:10.1007/s12064-011-0144-x
John Harte
David Krakauer
Marcelo Kuperman
Pablo Marquet
Víctor Muñoz
Munoz Lecture Slides
Finite data-size scaling of clustering in earthquake networks. Sumiyoshi Abea, Denisse Pastén, Norikazu Suzuki
Universalities of earthquake-network characteristics. Sumiyoshi, PASTÉN Denisse, MUÑOZ Víctor & SUZUKI Norikazu
Monofractal and multifractal analysis of the spatial distribution of earthquakes in the central zone of Chile Denisse Pasten, Vıctor Munoz, Armando Cisternas, Jose Rogan, and Juan Alejandro Valdivia
Alberto Pascual-García
Parameter Space Compression Underlies Emergent Theories and Predictive Models. Benjamin B. Machta, Ricky Chachra, Mark Transtrum, and James P. Sethna
The architecture of mutualistic networks minimizes competition and increases biodiversity Ugo Bastolla, Miguel A. Fortuna, Alberto Pascual-Garcia, Antonio Ferrera, Bartolo Luque, and Jordi Bascompte
Community Model
Quantifying the Increase in Biodiversity Supported by Mutualistic Networks. Alberto Pascual-Garcia Lecture Slides
Rolando Rebolledo
Carlos Rodríguez-Sickert
Rodríguez-Sickert Lecture Slides
Graham Spencer
Spencer Lecture Slides 1
Spencer Lecture Slides 2
Constantino Tsallis
COMPLEXITY, ENTROPY AND STATISTICAL MECHANICS SLIDES PART 1
COMPLEXITY, ENTROPY AND STATISTICAL MECHANICS SLIDES PART 2
COMPLEXITY, ENTROPY AND STATISTICAL MECHANICS SLIDES PART 3
COMPLEXITY, ENTROPY AND STATISTICAL MECHANICS SLIDES PART 4