CSSS 2009 Santa Fe-Project Presentations
From Santa Fe Institute Events Wiki
| CSSS Santa Fe 2009 |
The Impact of Gender Imbalance on Marriage Markets
The basic concept is to try to model the effects of "marriage markets" with more men in them than women or vice-versa. Examples of social groups which experience a gender imbalances in marriage markets include: most religious groups, college campuses, some large cities (such as New York and Washington, DC), the African-American community, and some nations (notably China). Brian Hollar
Team: Dave Brooks, Wendy Ham, Nathan Hodas, Brian Hollar, Liliana Salvador, and Guimei Zhu
- Presentation
- NetLogo Model (Coming soon)
Agent-based modeling of fluidic self-assembly
I am building a home-made agent-based physical simulator of fluidic self-assembly for micro/nanoelectronical devices. Both 2D and 3D settings are presented. The proposed framework may constitute the first step in the introduction of this new approach to this emerging and challenging electronic manufacturing technique. - Massimo Mastrangeli
- Presentation
- NetLogo Code for 2D and 3D environment
The roundtable: segregation in conversation dynamics
The goal of this project is to build a simple (but not too simple) model of realistic social conversation dynamics. Abstracting from semantics and contents, our baseline model includes balance of protagonism vs. aggregation for each fellow, individuality, connection topology and memory effects. Ultimately we would model the dynamics of cocktail party conversations. - Massimo Mastrangeli, Martin Schmidt, Lucas Lacasa
- Presentation
- NetLogo code
A matching model of problems and solutions
We are building a NetLogo model to represent the mechanisms in which problems and solutions search for and find each other. David Brooks, Wendy Ham, Nathan Hodas, Brian Hollar, and Liliana Salvador
- Presentation
- NetLogo code
Determining spatial contact networks for pathogen transmission
We have weekly measles outbreak reports from 60 urban cities in England and Wales dating from 1944 to 1967. It appears that several cities may act as pathogen sources from which the disease spreads to surrounding cities. We plan to reconstruct this spatial contact network for the measles data and, in doing so, introduce a method for inferring such networks for other disease outbreaks. - Sasha Mikheyev, Kate Behrman, Erin Taylor
- Presentation
- Google motion chart of measles data (sheet "MeaslesOutbreaks") [1]
Foraging on the Move
Summary:In this project we develop a model for organisms that forage in groups while migrating (e.g. caribou, wildebeest), to understand how individuals should balance foraging and flocking behaviors. (Final Presentation)
Members (Group Page): Allison Shaw, Andrew Berdahl, Kate Behrman, Liliana Salvador, Steven Lade
The Effect of Gossip on Social Networks
Summary: In this project we look at the effects of the spread of gossip (defined as information passed between two individuals A and B about an individual C who is not present) on social network structure. (Final Presentation)
Members (Group Page): Allison Shaw, Chang Yu, David Brooks, Milena Tsvetkova, Roozbeh Daneshvar
Terrorist Networks: Radicalization Mechanisms and Spread Control
Members Alhaji Cherif, Hiro Yoshioka, Prasanta Bose, and Wei Ni
1,2,3, language! Building the phylogenetic tree of language with numbers
Members Andrew Berdahl, Lucas Lacasa
Percolation in Google
Members Andrew Berdahl, Lucas Lacasa, Jacopo Tagliabue