Géosciences et environnement

Hervé GOIX, Marcelle GOIX, Patricia SCHNEEBERGER, Université de Bordeaux 2

Patricia CREPIN-OBERT, Centre de recherches en éducation, IUFM de Nantes

Christophe GAUCHON, Stéphane JAILLET, Yves PERETTE, Estelle PLOYON, Université de Savoie

Fabien HOBLEA, Nathalie CAYLA, Anne GUYOMARD, Université de Savoie

General Assembly European Research Group S4

Prof. Denise PUMAIN, Prof. Stephane JOOST, Dr Christian KAISER, Prof. Jean-Paul FERRIER, Prof. Jean-Bernard RACINE, Prof. Micheline COSINSCHI

Prof. David LANE, University of Modena & Reggio Emilia, Italy. For a long time, the idea of novelty was generally regarded with great suspicion; in the last few centuries, it is increasingly viewed in a favourable light, so much so that it seems appropriate to characterize the developed and developing world in the last few decades as "The Innovation Society". In this talk, I describe some aspects of social, technological, economic and cultural innovation processes, particularly those that link transformations in artefacts, attributions and social organization in a positive feedback dynamic, and the ideology that justifies and shapes the way in which this dynamic is currently playing out. I then raise some issues concerning the sustainability of this dynamic.

Prof. Lena SANDERS, CNRS, Paris, France. Cities evolve at different rhythms, some growing, other stagnating or even declining. The hypothesis is that these differences are the result of different abilities to valorise a position in a system of cities. The interactions between cities play then a driving role in their evolution. First I will briefly present a family of models based on that principle, the SimPop models. Then I will use particular one, the EuroSim model which concerns the evolution of the European cities during the period 1950-2050, in order to show and to discuss how the cities’ networks are built up. According to its economical specialisation, a city can be involved in one or several networks which are evolving through time according to a combination of exploration and exploitation principles. At last a comparison of the consequences of different scenarios (according to the existence or not of border constraints on the exchanges between cities of different countries) by 2050 is presented.

Prof. Peter ALLEN, Cranfield University, United Kingdom. Many spatial models are really ‘fitted descriptions’ of spatial changes that have occurred. In order to have a deeper and possibly more long term understanding of what is going on, or may happen, it is necessary to represent the behaviours, interactions and circumstances of the different agents within the system and to explore not only how their locations and size may change, but also how their activities, technologies, needs and requirements may change over time. This presentation looks at how complex systems models attempt to do this, and how this led to ‘multi-agent’ models several decades ago. The different types of agent are distributed spatially across the transport and communication networks of a region, both responding to, and shaping these over time. The models then show different possible patterns of spatial organization that can emerge, and allow us to see how stable different possible trajectories might be. Such models can form the basis of a ‘learning’ community, city or region where modellers, institutions, organizations and firms try to experiment and learn together about the possibilities that are open to them. This underlines the problems of finding successful levels of evaluation for decisions and policies and making operational models that reflect the spatial realities of subsidiarity for different phenomena and issues.

Prof. Stefano BATTISTON, System Design, ETH Zurich, Switzerland. We propose a novel trust metric for social networks which is suitable for application to recommender systems. It is personalised and dynamic, and allows to compute the indirect trust between two agents which are not neighbours based on the direct trust between agents that are neighbours. In analogy to some personalised versions of PageRank, this metric makes use of the concept of feedback centrality and overcomes some of the limitations of other trust metrics. In particular, it does not neglect cycles and other patterns characterising social networks, as some other algorithms do. In order to apply the metric to recommender systems, we propose a way to make trust dynamic over time. We show by means of analytical approximations and computer simulations that the metric has the desired properties. Finally, we carry out an empirical validation on a dataset crawled from an Internet community and compare the performance of a recommender system using our metric to one using collaborative filtering.

Prof. Gerard WEISBUCH, Ecole Normale Supérieure Paris, France. We discuss the possible World patterns of economic activity after the transition to a sustainable and stationary economy. Our main concern is the economy of energy, most probably the limiting factor of economic development. Should we expect a strongly contrasted world with of economic activity after one or several economically active regions as nowadays? Or a more equitable repartition of wealth and economic activity? We here demonstrate how computations can reduce the set of possible scenarios and conclude that energy transportation cost is the most influential factor.

Prof. Itzhak BENENSON, Geography, University of Tel-Aviv, Israel. Geosimulation treats the city as a creature, the complexity of which is above the complexity of physical and chemical systems, but below the complexity of a human self. It thus assumes that there is no need to directly account for real complexity of urban inanimate and animate objects when formalizing urban phenomena. Instead, we could succeed with the agents, which exhibit simple human-like activities that drive the city and its dynamics. The decade of accumulating of the high-resolution GIS, Remote Sensing, population and movement data resulted in cardinal change in the data availability. New sets of data feed Geosimulation models with the adequate behavioral rules and likelihood estimates of parameters, thus bringing us closer to the ultimate goal of Geosimulation - spatially explicit dynamic modeling of urban phenomena. However, these rules necessarily reflect the bounded rationality, i.e., essential uncertainty, of the human behavior. Based on several examples related to the fields of urban and regional planning, land-use dynamics, residential dynamics and urban traffic, I analyze the reasons why some of the Geosimulation models succeed, while some of them do not. I further suggest employing Geosimulation as a tool for understanding inherent uncertainty of urban dynamics and, in this way, for adequate estimating of our ability to predict complex urban phenomena.

Prof. Marco TOMASSINI, ISI, University of Lausanne, Switzerland. Game theory offers a simplified but powerful metaphor of social behavior and decision processes under conflicting situations. We shall introduce some of these paradigms in the language of game theory and show that often they lead to social dilemmas and do not fully correspond to the observed human behavior. We shall see that the introduction of the more biological inspired evolutionary game theory brings some relief into the situation. Finally, we shall highlight the role of networked social structures on those population games.

Prof. Roger GUIMERA & Prof. Marta SALES, Biochimics, Universitat Rovira i Virgili, Tarragona, Spain. Cells, the brain, ecosystems and economies are complex systems. In complex systems, individual components interact with each other, usually in nonlinear ways, giving rise to complex networks of interactions that are neither totally regular nor totally random. Partly because of the interactions themselves and partly because of the interaction topology, complex systems cannot be properly understood by just analyzing their constituent parts. For example, one cannot properly understand consciousness by studying isolated neurons, or economic crises by studying isolated individuals. The reason why complex networks of interactions are non-trivial is that any bias, however small, in the way components establish connections gives rise to structural correlations. This makes understanding complex systems challenging but, at the same time, it means that each network contains, hidden within its structure, important clues about how the system operates and evolves. Recent technological developments have made it possible to gather unprecedented amounts of data on a variety of complex systems from social to biological. However, our knowledge on these systems has not increased proportionally due to the lack of tools to extract information from large pools of data and to assess data reliability. In this talk we will discuss recent developments on complex networks theory that tackle the aforementioned challenges and what are the implications for systems biology and social problems.

Prof. Noshir CONTRACTOR, Northwestern University, SONIC, USA. Recent advances in Web Science provide comprehensive digital traces of social actions, interactions, and transactions. These data provide an unprecedented exploratorium to model the socio-technical motivations for creating, maintaining, dissolving, and reconstituting multidimensional social networks. Multidimensional networks include multiple types of nodes (people, documents, datasets, tags, etc.) and multiple types of relationships (co-authorship, citation, web links, etc). Using examples from research in a wide range of activities such as disaster response, public health and massively multiplayer online games (WoW - the World of Warcraft), Contractor will argue that Web Science serves as the foundation for the development of social network theories and methods to help advance our ability to understand and enable multidimensional networks.