Marc Parenthoën scite author profile

[1] The feedback between plate tectonics and mantle convection controls the Earth's thermal evolution via the seafloor age distribution. We therefore designed the MACMA model to simulate time-dependent plate tectonics in a 2D cylindrical geometry with evolutive plate boundaries, based on multiagent systems that express thermal and mechanical interactions. We compute plate velocities using a local force balance and use explicit parameterizations to treat tectonic processes such as trench migration, subduction initiation, continental breakup and plate suturing. These implementations allow the model to update its geometry and thermal state at all times. Our approach has two goals: (1) to test how empirically-and analyticallydetermined rules for surface processes affect mantle and plate dynamics, and (2) to investigate how plate tectonics impact the thermal regime. Our predictions for driving forces, plate velocities and heat flux are in agreement with independent observations. Two time scales arise for the evolution of the heat flux: a linear long-term decrease and high-amplitude short-term fluctuations due to surface tectonics. We also obtain a plausible thermal history, with mantle temperature decreasing by less than 200 K over the last 3 Gyr. In addition, we show that on the long term, mantle viscosity is less thermally influential than tectonic processes such as continental breakup or subduction initiation, because Earth's cooling rate depends mainly on its ability to replace old insulating seafloor by young thin oceanic lithosphere. We infer that simple Copyright 2012 by the American Geophysical Union 1 of 24 convective considerations alone cannot account for the nature of mantle heat loss and that tectonic processes dictate the thermal evolution of the Earth.

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Put fuzzy cognitive maps to work in virtual worlds

Parenthoën

Reignier

Tisseau

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Phone : f33 (0)298 05 66 31 Fax : +33 (0)298 05 66 29 Web : http://www.euib.fr/chercher/LI2 Phone : f 3 3 (0)4 76 61 54 11 Fax : +33 (0)4 76 61 52 10 Web : http://www-gravir.imag.frAbstmct Maps (FCMs) as a tool to model the emotional behavior of This article lies within the interactive virtual stories virtual actors with character ("charactors") improvising in telling scope and proposes t h e use of fumy cognitive frw interaction within the framework of a "nouvelle vague" maps as a tool to model emotional behavior of virtual scenario, as could Godard do. FCMs result from work of actors improvising in free interaction within the frame-some psychologists. In 1948, Tolman introduces the key conwork of a "nouvelle vague" scenario, as could Godard do. cept of the "cognitive maps" t o describe complex topological We show how fumy cognitive maps can be delocalized memorizing behaviours in the rats [Tolrnan 481. In the Sevon each agent level to model autonomous agents within enties, Axelrod describes the %ognitive maps" in the shape a virtual world. W e describe t h e implementation car-of directed, inter-connected, bilevel-valued graphs, and uses ried out, starting from work in cognitive psychology and them in decision theory applied t o the politico-economic field illustrate it by an improvisation between a shepherd, a [Axelrod 761. In 1986, Kosko extends the graphs of Axelrod dog and virtual sheep. to the fuzzy mode which become thus FCMs [Kosko 861. In 1988, Styblinski and Meyer use FCMs t o analyze electric circuits (Styblinski 881. In 1994, Dickerson and Kosko propose

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Multiscale multiagent architecture validation by virtual instruments in molecular dynamics experiments

Combes

Buin

Parenthoën

et al. 2010

Procedia Computer Science

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Modeling and simulation of sea surface radar observations

Ghaleb¹,

Even²,

Garello³

et al. 2010

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