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Difference between revisions of "CSSS 2010 Santa Fe-Final Papers"

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'''By''' [[Lynette Shaw]], [[Sarah Wise]], [[Micael Ehn]], [[Ingrid van Putten]]
'''By''' [[Lynette Shaw]], [[Sarah Wise]], [[Micael Ehn]], [[Ingrid van Putten]]
* [[Media: Shared_Mental_Representation.pdf|Working Paper]]
* [[Media: Shared_Mental_Representation.pdf|Working Paper]]


===Diversification in Simulated Food Webs: The Role of Closed Motifs===
===Diversification in Simulated Food Webs: The Role of Closed Motifs===
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'''By''' [[Jonathan Cannon]], [[Gavin Fay]], [[Andrew Hein]], [[Vanessa Weinberger]]
'''By''' [[Jonathan Cannon]], [[Gavin Fay]], [[Andrew Hein]], [[Vanessa Weinberger]]
* [[Media: [[Media:File.ogg]]|Working Paper]]
* [[Media: [[Media:Foodnet.pdf]]|Working Paper]]

Revision as of 21:06, 6 September 2010

CSSS Santa Fe 2010


Human Mobility in an Online World

Massive multiplayer online games provide a fascinating new way of observing hundreds of thousands of simultaneously interacting individuals engaged in virtual socio-economic activities. We have compiled a data set consisting of practically all actions of all players over a period of three years from an online game played by over 350,000 people. The universe of this online world is a network on which players move to interact with other players. This interaction may consist of trade, armed conflict, friendship and enmity. We focus on the mobility of human players on the network over a time-period of 500 days. We take a number of mobility measurements (daily and biweekly position changes, entropy, number of unique nodes visited) of players and compare them with measures of simulated random walkers on the same topology. Player mobility is highly different from the mobility of unbiased random walkers. The analysis of biased random walkers reveals the two essential ingredients which explain measured human mobility patterns most accurately: heterogeneity and a tendency to return to recently visited locations. We compare our entropy distributions with human mobility in real life world -- measured via mobile phone data -- and find a striking match.

By Michael Szell, Giovanni Petri, Kang Zhao, Drew Levin


Who Blogs What: Understanding Behavior, Impact and Types of Bloggers

We investigated bloggers’ publishing patterns by focusing on the topics that their posts cover. Applying clustering algorithms on the dataset from a blog website of 370,000 posts from 2,275 blogs, we identified two types of bloggers: specialists and generalists. Then we compared their respective contributions to the blogosphere in terms of productivity and buzz-factor. Our analysis suggests that specialists generally have a higher impact than generalists. It also reveals that among specialists, there are very few who create a large “buzz” or produce a voluminous output.

By Kang Zhao and Massimiliano Spaziani


Local and nonlocal information in a traffic network: how important is the horizon?

Recent advances in distributed sensor network technology have changed the landscape of traffic optimization in which small, mobile devices are able to sense local information and communicate in real time with one another. Naive optimization algorithms that operate solely on the local or global level are inherently flawed, as global optimization requires every local sensor to communicate with a centralized base-station, creating prohibitive bandwidth, robustness, and security concerns, while local optimization methods are limited by a near information horizon as they are unable to propagate or react to information beyond their immediate vicinity. This paper investigates an intermediate approach where individual sensors are able to propagate congestion information over a variable distance that is determined in real-time. This strategy consistently out-performs a naive strategy where every car simply takes the shortest path to its destination, but does worse than a simpler optimization algorithm that only incorporates local information. This is most likely because the intermediate solution directs cars along the same alternate path when attempting to free a congested area, thus creating new congestion along the detour. The results suggest that local information might set an upper bound on performance in models of cascading information. Further work is required to confirm this observation and develop an algorithm able to join both local and global information to effectively diffuse traffic around congestion.

By Giovanni Petri, Samuel Scarpino, Drew Levin, Tracey McDole, Kang Zhao and Leif Karlstrom


The Coevolution of Residential and Friendship Networks: An Extension of the Schelling Model

During the past few decades social network analysis has produced a great deal of insight into the workings of social systems. While social scientists have put a lot of work into the investigation of residential, friendship, trust, exchange or discussion networks, scientific inquiry has typically limited itself to investigating the characteristics of networks of only one kind. This approach has produced plentiful insight on the structure and function of different kinds of social networks, but the interaction between the different kinds of social networks has received insufficient investigation so far. Our work, in which we examine the interaction of residential and social networks represents an attempt at advancing this field of inquiry. More specifically, we extend a classic model of residential segregation (Schelling, 1968) by incorporating a social network that constructs -- and is influenced by -- residential preferences. We use Agent-Based Modelling to examine how social network topology affects residential segregation in the Schelling model. Given its current popularity in social simulation, extending the Schelling model is an important task in its own right, but we seek to achieve something more fundamental than a mere rehashing of an old model. We deploy Schelling's model as the basis for a way to understand multiplex networks, and seek to give a formal, methodologically practicable expression to Granovetter's concept of embeddedness. Attached here is just the first half of our working paper, and we'll upload the complete version soon.

By Bruno Abrahao, Pilar Opazo, Zhiyuan Song and Bogdan State


Terrestrial volcanism in the framework of complex network theory

Volcanoes are outputs to a hidden transport network of magma in the Earth's crust. This network spans grainscale melting of rocks in the upper mantle and eruptive events that may have caused the largest mass extinctions of life on Earth. We use the NAVDAT geologic dataset from volcanoes around the Western US to constrain the topology and dynamics of this network. These data include approximate ages and location of eruptions (best constrained in the last 5.2 Million years - the Pliocene Epoch), along with compositional data that may be used to infer timescales and processes within the network. This project includes statistical analysis of data, network inference, and forward dynamic modeling.

By Leif Karlstrom, with contributions from Samuel Scarpino, Zhiyuan Song, Giovanni Petri, Griffith Rees and Tracey McDole


Dynamics of Shared Mental Representation: What can a simple network of agents tell us?

This paper develops a parsimonious model of how individuals automatically and unconsciously use social information feedbacks from other individuals in order to determine the mental representation they will impose upon a social situation. An agent-based modelling approach is used to demonstrate how these learning processes, when carried out in an inter-subjective context, are sufficient to generate a number of dynamics that characterize real social systems. Results indicate that both network structure and updating strategies significantly determine the pattern of mental representation adoption across the set of agents. Significant findings include the non-trivialness of reaching full consensus in a group, the emergence of distinct sub-groups and cultural “brokers” between them, and the variable ability of a single agent acting independently of social feedbacks to drive the entire system toward consensus.

By Lynette Shaw, Sarah Wise, Micael Ehn, Ingrid van Putten


Diversification in Simulated Food Webs: The Role of Closed Motifs

We allow a simulated food web to self-construct by repeated introduction of predators. Networks start with a source of biomass, and predators choose their prey according to a niche model. Species thrive or go extinct according to a standard predator-prey biomass model. We examine the correlation between structural motifs and the evolution of network architecture. We find two motifs that correlate strongly with network expansion, and we speculate casually but optimistically on implications and further research possibilities.

By Jonathan Cannon, Gavin Fay, Andrew Hein, Vanessa Weinberger