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{{CSSS 2006--Santa Fe}} | |||
*[[David-Fabrice-Javier Group]] Study of network generation | *[[David-Fabrice-Javier Group]] Study of network generation | ||
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*[[Power-laws, Conflict and Cooperation:]] using event-data to investigate whether conflict and cooperation events follow a power-law distribution. | *[[Power-laws, Conflict and Cooperation:]] using event-data to investigate whether conflict and cooperation events follow a power-law distribution. | ||
*[[ | *[[An Agent-based Model of Crisis-Driven Migration]] : a model of ethnic migration from negative events, built with Schelling Dynamics in simultaneous spatial and social network structures. | ||
*[[ | *[[Human Navigation Heuristics on the Traveling Salesman Problem (TSP)]] An agent-based model of how/why humans solve TS-like problems better than simple algorithms. | ||
*[[Diffusion of "Culture" in a Network with Multiple Types of Ties:]] An analysis of how rules governing the formation and breaking of ties propagates in a network with two different types of ties associated with different rules. | *[[Diffusion of "Culture" in a Network with Multiple Types of Ties:]] An analysis of how rules governing the formation and breaking of ties propagates in a network with two different types of ties associated with different rules. | ||
*[[Dynamics of Online Tagging]] | *[[Dynamics of Online Tagging]]. | ||
*[[An Optimization Algorithm Based on the Small-World Phenomenon]] :Inspired by the efficient search mechanisms of small-world phenomena, we will construct an optimization algorithm based on the combination of local and long-range search. | *[[An Optimization Algorithm Based on the Small-World Phenomenon]] :Inspired by the efficient search mechanisms of small-world phenomena, we will construct an optimization algorithm based on the combination of local and long-range search. | ||
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*[[An Agent-based Model of the Spread of Social Norms]] | *[[An Agent-based Model of the Spread of Social Norms]] | ||
*[[ | *[[Neuro-Cellular Automata]]: exploring and connecting Cellular Automata, Neural Networks and Evolution. | ||
*[[Games and networks]]: An evolutionary model inspired by animal groups | *[[Games and networks]]: An evolutionary model inspired by animal groups | ||
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*[[Chaos in a Corn Field]] | *[[Chaos in a Corn Field]] | ||
*[[Anomalous Statistics and Locally Regulated Asynchronous Updating in Self-Propelled Particle Models of Animal Swarms]] | *[[Anomalous Statistics and Locally Regulated Asynchronous Updating in Self-Propelled Particle Models of Animal Swarms]] | ||
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*[[Analysis of the Swim Central Pattern Generator of the Melibe: A Symmetry Approach]] | *[[Analysis of the Swim Central Pattern Generator of the Melibe: A Symmetry Approach]] | ||
*[[On the Topological Entropy of Multivalued Maps]] | |||
*[[A re-examination of the NetLogo Termites model]] | |||
*[[Investigating an Agent-based Model of Cooperative Coevolutionary Learning]] | |||
*[[An Agent-based Model of Forest Use with Social Learning]] | |||
*[[Affect of ecosystem variables on an estuarine food web]]: How do variations in energy and nutrients affect plankton and, in turn, ripple upward through a food web? | |||
*[[Heat Shock Response]] The HSR is a universal procedure among many organism that repairs protein damage induced by heat and other stresses. | |||
*[[Investigation of Induced Inelastic Electron Tunnelling and Protein Conformation Dynamics]] | |||
*[[Diversifying to cope with Environmental Change]] | |||
Latest revision as of 16:15, 7 September 2006
| CSSS 2006 Santa Fe |
- David-Fabrice-Javier Group Study of network generation
- WikiPeer Group Study of two reputation voting models
- Biological regulatory networks group Study of biological regulatory networks with stochastic boolean models
- RNAnet a RNA based toy model for regulatory networks
- Time-Delayed Embedding project aimed at learning the method and applying it to interesting datasets.
- Social Networks and Dynamic Analysis: using event-data to model conflict and cooperation networks.
- Power-laws, Conflict and Cooperation: using event-data to investigate whether conflict and cooperation events follow a power-law distribution.
- An Agent-based Model of Crisis-Driven Migration : a model of ethnic migration from negative events, built with Schelling Dynamics in simultaneous spatial and social network structures.
- Human Navigation Heuristics on the Traveling Salesman Problem (TSP) An agent-based model of how/why humans solve TS-like problems better than simple algorithms.
- Diffusion of "Culture" in a Network with Multiple Types of Ties: An analysis of how rules governing the formation and breaking of ties propagates in a network with two different types of ties associated with different rules.
- An Optimization Algorithm Based on the Small-World Phenomenon :Inspired by the efficient search mechanisms of small-world phenomena, we will construct an optimization algorithm based on the combination of local and long-range search.
- Community Structure in Small-world and Scale-free Networks:Detecting the community structure in Watts and Strogatz’s small-world network and Barabàsi’s scale-free network.
- Neuro-Cellular Automata: exploring and connecting Cellular Automata, Neural Networks and Evolution.
- Games and networks: An evolutionary model inspired by animal groups
- Simulating Self-Organised Fractals: An attempt to build a computer simulation of Hubler's first experiment.
- Affect of ecosystem variables on an estuarine food web: How do variations in energy and nutrients affect plankton and, in turn, ripple upward through a food web?
- Heat Shock Response The HSR is a universal procedure among many organism that repairs protein damage induced by heat and other stresses.