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The LISAH team has developped a distributed hydrological model for agrosystems (MHYDAS) to simulate water, erosion and pollutants transfer in cultivated catchment in relation to agricultural practicies. Based on this model, an open platform for modelling fluxes interactions in landscapes was recently developped (OPENFLUID). |
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The AMAP team is involved in the development of 3D simulation tools for analysing landscapes including (i) the development of a virtual plant “nursery” based on botanical parameters and a database for ecosystems and (ii) improving concepts and computer methods for developing new ways of visualizing "real time" development of plant communities in relation to their environment. |
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The GREEN team has built several platforms (CORMAS, MIMOSA) for common pool resources management, combining biophysical and social dynamics. Its main contribution is on the methodology for the co-construction of a shared understanding of the dynamics at the landscape level including biophysical, social and economic aspects. |
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The Virtual Plants program, within the DAP team, has built the OpenAlea platform for plant modelling at different scales. |
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The qualitative and quantitative water resources management program, within the LAMETA team, develops an economic approach in water management, paying a special attention to participatory approaches, either in order to provide tools to support decision or to propose an integrative approach through landscape concept modelling. |
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The SYSTEM team develops Systemic Agronomy in plurispecific cropping systems, both on the biophysical systems at field level and on their combination with the decision system at farm level. It develops methods and tools for cropping systems design or assessment based on cropping systems modelling |
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The KAYOU project within the LIRMM’s computer science department develops agent-based models and designs frameworks that have been used in different domains ranging from collaborative systems to agent-based simulations (Madkit simulation platform) and computer-aided socio-environmental management. |
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The AGIRs team uses the Virtual Laboratory Environment (VLE) plateform for multimodelling and simulation and has a significant experience in coupling heterogeneous models and collaborative sofware development. |
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