Suchergebnisse - Modelling paradigm: Geospatial Semantic Array Programming (GeoSemAP)
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Autoren: et al.
Schlagwörter: free software, Mastrave modelling library, Industrial Ecology, 02 engineering and technology, Global Warming, 01 natural sciences, jel:L86, C31 - Cross-Sectional Models, open science, 0202 electrical engineering, electronic engineering, information engineering, uncertainty, Quantile Regressions, semantic array programming, Mathematical and Simulation Modeling, Q54 - Climate, transdisciplinary research, Q57 - Ecological Economics: Ecosystem Services, jel:Q51, free scientific software, computational science, data-transformation modelling, reproducible research, environmental modelling, complexity, integrated environmental modelling, semantics, computational modelling systems, geospatial modelling, geospatial semantics, array-based mathematical formulation, wide-scale transdisciplinary modelling for environment, integrated natural resources modelling and management, jel:Q54, Biodiversity Conservation, software uncertainty, jel:Q57, C45 - Neural Networks and Related Topics, robust modelling, science-policy interface, jel:C45, jel:C02, C6 - Mathematical Methods, Statistical Decision Theory, jel:C44, Spatial Models, Bioeconomics, Computer Software, Open Science, Europe, European Forest Data Centre, EFDAC, forest information system, geospatial, geospatial tools, geospatial semantic array programming, L86 - Information and Internet Services, Programming Models, Treatment Effect Models, jel:C6, 0105 earth and related environmental sciences, jel:C31, Natural Disasters and Their Management, Social Interaction Models, Q51 - Valuation of Environmental Effects, C02 - Mathematical Methods, C44 - Operations Research, 13. Climate action
Dateibeschreibung: application/pdf
Zugangs-URL: http://ui.adsabs.harvard.edu/abs/2013EGUGA..1513245D/abstract
https://mpra.ub.uni-muenchen.de/45958/
https://re.public.polimi.it/handle/11311/746405
http://econpapers.repec.org/RePEc:pra:mprapa:44194
https://doi.org/10.6084/m9.figshare.155703
https://hdl.handle.net/11311/746405
https://mpra.ub.uni-muenchen.de/44194/1/MPRA_paper_44194.pdf
https://mpra.ub.uni-muenchen.de/45958/1/MPRA_paper_45958.pdf -
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Schlagwörter: Model: Relative Distance Similarity (RDS-MHS), FISE, Modelling paradigm: Geospatial Semantic Array Programming (GeoSemAP), Taxonomy division type: Broadleaved, Taxonomy family: Betulaceae, Modelled quantity: Maximum Habitat Suitability (MHS), Taxonomy species: Carpinus betulus, Taxonomy genus: Carpinus
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Schlagwörter: Modelling paradigm: Geospatial Semantic Array Programming (GeoSemAP), FISE, Taxonomy division type: Conifers, Modelled quantity: Relative Probability of Presence (RPP), Model: Constrained Spatial Multi-scale Frequency Analysis (C-SMFA), Taxonomy family: Pinaceae, Taxonomy species: Pinus pinea, Taxonomy genus: Pinus
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Schlagwörter: Model: Relative Distance Similarity (RDS-MHS), FISE, Modelling paradigm: Geospatial Semantic Array Programming (GeoSemAP), Taxonomy division type: Broadleaved, Taxonomy family: Fagaceae, Modelled quantity: Maximum Habitat Suitability (MHS), Taxonomy species: Quercus pubescens, Taxonomy genus: Quercus
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Schlagwörter: Model: Relative Distance Similarity (RDS-MHS), FISE, Modelling paradigm: Geospatial Semantic Array Programming (GeoSemAP), Taxonomy division type: Broadleaved, Taxonomy family: Oleaceae, Modelled quantity: Maximum Habitat Suitability (MHS), Taxonomy species: Fraxinus ornus, Taxonomy genus: Fraxinus
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Schlagwörter: Taxonomy division type: Broadleaved, FISE, Modelled quantity: Relative Probability of Presence (RPP), Modelling paradigm: Geospatial Semantic Array Programming (GeoSemAP), Taxonomy family: Betulaceae, Model: Constrained Spatial Multi-scale Frequency Analysis (C-SMFA), Taxonomy species: Carpinus betulus, Taxonomy genus: Carpinus
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Schlagwörter: Model: Relative Distance Similarity (RDS-MHS), FISE, Taxonomy family: Sapindaceae, Taxonomy division type: Broadleaved, Modelling paradigm: Geospatial Semantic Array Programming (GeoSemAP), Taxonomy genus: Acer, Taxonomy species: Acer platanoides, Modelled quantity: Maximum Habitat Suitability (MHS)
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Schlagwörter: Taxonomy division type: Broadleaved, FISE, Modelled quantity: Relative Probability of Presence (RPP), Modelling paradigm: Geospatial Semantic Array Programming (GeoSemAP), Taxonomy family: Rosaceae, Model: Constrained Spatial Multi-scale Frequency Analysis (C-SMFA), Taxonomy species: Prunus avium, Taxonomy genus: Prunus
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Schlagwörter: Taxonomy division type: Broadleaved, FISE, Modelled quantity: Relative Probability of Presence (RPP), Modelling paradigm: Geospatial Semantic Array Programming (GeoSemAP), Taxonomy family: Fagaceae, Model: Constrained Spatial Multi-scale Frequency Analysis (C-SMFA), Taxonomy species: Castanea sativa, Taxonomy genus: Castanea
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Schlagwörter: Modelling paradigm: Geospatial Semantic Array Programming (GeoSemAP), FISE, Taxonomy division type: Conifers, Modelled quantity: Relative Probability of Presence (RPP), Model: Constrained Spatial Multi-scale Frequency Analysis (C-SMFA), Taxonomy family: Pinaceae, Taxonomy species: Pinus sylvestris, Taxonomy genus: Pinus
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Schlagwörter: Model: Relative Distance Similarity (RDS-MHS), FISE, Modelling paradigm: Geospatial Semantic Array Programming (GeoSemAP), Taxonomy division type: Broadleaved, Taxonomy family: Rosaceae, Modelled quantity: Maximum Habitat Suitability (MHS), Taxonomy species: Sorbus aria, Taxonomy genus: Sorbus
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Schlagwörter: Model: Relative Distance Similarity (RDS-MHS), FISE, Modelling paradigm: Geospatial Semantic Array Programming (GeoSemAP), Taxonomy division type: Broadleaved, Taxonomy family: Fabaceae, Modelled quantity: Maximum Habitat Suitability (MHS), Taxonomy species: Robinia pseudoacacia, Taxonomy genus: Robinia
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Schlagwörter: Taxonomy division type: Broadleaved, FISE, Modelled quantity: Relative Probability of Presence (RPP), Modelling paradigm: Geospatial Semantic Array Programming (GeoSemAP), Taxonomy family: Betulaceae, Model: Constrained Spatial Multi-scale Frequency Analysis (C-SMFA), Taxonomy species: Alnus glutinosa, Taxonomy genus: Alnus
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Schlagwörter: Taxonomy division type: Broadleaved, FISE, Modelled quantity: Relative Probability of Presence (RPP), Modelling paradigm: Geospatial Semantic Array Programming (GeoSemAP), Taxonomy family: Fagaceae, Model: Constrained Spatial Multi-scale Frequency Analysis (C-SMFA), Taxonomy species: Quercus robur, Taxonomy genus: Quercus
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Schlagwörter: Model: Relative Distance Similarity (RDS-MHS), FISE, Modelling paradigm: Geospatial Semantic Array Programming (GeoSemAP), Taxonomy division type: Broadleaved, Taxonomy family: Salicaceae, Modelled quantity: Maximum Habitat Suitability (MHS), Taxonomy species: Salix caprea, Taxonomy genus: Salix
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Schlagwörter: Taxonomy division type: Broadleaved, FISE, Modelled quantity: Relative Probability of Presence (RPP), Modelling paradigm: Geospatial Semantic Array Programming (GeoSemAP), Taxonomy family: Oleaceae, Model: Constrained Spatial Multi-scale Frequency Analysis (C-SMFA), Taxonomy species: Fraxinus ornus, Taxonomy genus: Fraxinus
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Schlagwörter: Modelling paradigm: Geospatial Semantic Array Programming (GeoSemAP), FISE, Taxonomy division type: Conifers, Modelled quantity: Relative Probability of Presence (RPP), Model: Constrained Spatial Multi-scale Frequency Analysis (C-SMFA), Taxonomy family: Pinaceae, Taxonomy species: Pinus pinaster, Taxonomy genus: Pinus
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Schlagwörter: Model: Relative Distance Similarity (RDS-MHS), FISE, Modelling paradigm: Geospatial Semantic Array Programming (GeoSemAP), Taxonomy division type: Broadleaved, Taxonomy family: Fagaceae, Modelled quantity: Maximum Habitat Suitability (MHS), Taxonomy species: Castanea sativa, Taxonomy genus: Castanea
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Schlagwörter: Taxonomy division type: Broadleaved, FISE, Modelled quantity: Relative Probability of Presence (RPP), Modelling paradigm: Geospatial Semantic Array Programming (GeoSemAP), Taxonomy family: Fagaceae, Model: Constrained Spatial Multi-scale Frequency Analysis (C-SMFA), Taxonomy species: Quercus petraea, Taxonomy genus: Quercus
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Schlagwörter: Taxonomy division type: Broadleaved, FISE, Modelled quantity: Relative Probability of Presence (RPP), Modelling paradigm: Geospatial Semantic Array Programming (GeoSemAP), Taxonomy family: Betulaceae, Model: Constrained Spatial Multi-scale Frequency Analysis (C-SMFA), Taxonomy species: Corylus avellana, Taxonomy genus: Corylus
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