new version of the model catalog

Author: dgarijo

Data/MINT/1.6.0/mint@isi.edu/CausalDiagram.csv

@@ -0,0 +1,13 @@
+https://w3id.org/okn/o/sdm#CausalDiagram,http://www.w3.org/2000/01/rdf-schema#label,https://w3id.org/okn/o/sdm#hasDiagramPart
+DSSAT_cfg_simple_CAG,,
+cycles_cfg_complex_CAG,CAG for Cycles representing a more complex version of the variables and processes of the model,cycles_grain_yield;cycles_soil_evapr;cycles_ws;cycles_pp;cycles_som;cycles_slope;cycles_hn;cycles_dz;cycles_rv;cycles_silt;cycles_bd;cycles_layer;cycles_clay;cycles_tn;cycles_smc;cycles_hx;cycles_tx;cycles_sr;cycles_cn;cycles_n_stress;cycles_cropGrowth;cycles_mineralization;cycles_transpiration;cycles_swc;cycles_percolation;cycles_infiltration;cycles_soil_evap;cycles_net_mineraliz
+cycles_cfg_simple_CAG,CAG for Cycles with the most important variables in the model,cycles_grain_yield;cycles_ws;cycles_pp;cycles_hn;cycles_tn;cycles_hx;cycles_tx;cycles_sr;cycles_cropGrowth;cycles_transpiration;cycles_swc
+cycles_cfg_simple_CAG_process,CAG for Cycles simple configuration with processes,cycles_biomassgrowth_process;cycles_transpiration_process;cycles_Nmineralizationandimmobalization_process;cycles_humification_process;cycles_Ntransport_process;cycles_respiration_process;cycles_Nuptake_process;cycles_solarradiation_process;cycles_precipitation_process;cycles_management_process
+dssat_cfg_fk_CAG,CAG for DSSAT with fake configuration to emulate Cycles,
+dssat_cfg_simple_CAG,CAG for DSSAT simple configuration with explicit outputs,
+economic_aggregate_crop_supply_CAG_process,CAG for Economic model for aggregate crop supply response model processes for the country of South Sudan configuration,crop_supply_process;fertilizer_prices_process;crop_prices_process;land_use_process;fertilizer_use_process;crop_yield_process;crop_yield_elasticity_process
+economic_aggregate_crop_supply_CAG_variables,CAG for Economic model for aggregate crop supply response model variables for the country of South Sudan configuration,econ_c1;econ_c2;econ_ybarN;econ_ybar;econ_xbar2;econ_xbar1;econ_p;econ_eta;econ_land_area;econ_obsyield;econ_production
+pihm_cfg_simple2_CAG,CAG for PIHM simple configuration with additional input variables,pihm_infiltration_process;pihm_evaporation_process;pihm_runoff_process;pihm_precipitation_process;pihm_solarradiation_process;pihm_transpiration_process
+pihm_cfg_simple_CAG,CAG for PIHM simple configuration,pihm_infiltration_process;pihm_evaporation_process;pihm_runoff_process;pihm_precipitation_process;pihm_solarradiation_process;pihm_transpiration_process
+topoflow_cfg_fk_CAG,CAG for TopoFlow with fake configuration to emulate PIHM,
+topoflow_cfg_simple_CAG,CAG forTopoFlow with basic configuration,

Data/MINT/1.6.0/mint@isi.edu/ConfigurationSetup.csv

@@ -0,0 +1,3 @@
+https://w3id.org/okn/o/sd#DataTransformation,http://www.w3.org/2000/01/rdf-schema#label,https://w3id.org/okn/o/sd#description,https://w3id.org/okn/o/sd#hasComponentLocation,https://w3id.org/okn/o/sd#hasOutput,https://w3id.org/okn/o/sd#hasParameter,https://w3id.org/okn/o/sd#hasSoftwareImage,https://w3id.org/okn/o/sd#hasUsageNotes
+045c9eb2-a20b-4095-af95-30bb00d944fe,topoflow_dt,"This data transformation reformats GLDAS data into the format accepted by TopoFlow (rti and rts). The outputs1 file aggregates rt1 and rts files together, and should be the one used by TopoFlow.",https://raw.githubusercontent.com/sirspock/topoflow_dt/master/mint_component.zip,a0ee2973-cf47-421d-a446-fa62b31e7e62;e88817a4-a2d6-4034-8a90-aabd61fe170f;7c7daafa-f041-488a-8ee3-bec105bb93cc,787d103b-5dbd-4f85-b019-4e09df7f75e6;2ae04ea6-a984-4cb0-90e0-050252f5db75;b0027a27-4741-42d9-8196-377363a45de3;92261c6d-2b31-4701-b5df-40fd124db2f4;ff2beca5-dce8-4f5a-b0b9-98f7b70dd54a;20e7c092-56d3-4903-8e94-1d2ac230e345;ebc43813-62da-4aa5-972a-91159f2650c8;8a55d7b8-58fa-4160-a4de-cff2d787b8de,mosorio/topoflow_dt:20.7.16,"The GLDAS data has data points every 3 hours, and when selecting it the parameter dt in TopoFlow should be set to 10800"
+f10c8645-ccee-4d3a-8ed8-0c558b7dc726,gldas_to_daily_average,,https://raw.githubusercontent.com/sirspock/gldas_to_daily_average/master/mint_component.zip,71b63cc5-4563-4f67-a5e3-095425811d77,b8b88204-9f45-462d-80cd-56085f231e5b;bc902abc-0c6c-4061-83ac-f6b913d74fb7;23623dda-c849-4508-97df-4b6ad8953e5e;00743715-b18f-47fb-a1c7-38330ad3873b;4413af91-12f6-4b8e-bceb-13fa250477e3;d6ab5179-f2ba-4859-921b-5980a6ff3b85;18f4218f-2852-4be2-bf28-ffb18d1ac552;18888c13-85c0-4358-affd-2362b3f92f4e,mosorio/gldas_to_daily_average:20.7.12,

Data/MINT/1.6.0/mint@isi.edu/DataTransformation.csv

@@ -0,0 +1,19 @@
+https://w3id.org/okn/o/sd#FundingInformation,https://w3id.org/okn/o/sd#fundingSource,https://w3id.org/okn/o/sd#fundingGrant
+CYCLES_funding,usda;nsf,USDA AFRI OREI #2014-51300-22231 USDA AFRI Climate #2014-68002-21768 NESARE #LNE18-367-32231 NSF CNH #1517823 EPA #
+ClimComp_funding,darpa,
+DSSAT_4.7_funding,usgs,
+DSSAT_funding,usaid,
+EACS_2.0_funding,darpa,
+EACS_6.0_funding,darpa,
+EACS_6.1_funding,darpa,
+ECONOMIC_AGGREGATE_CROP_SUPPLY_funding,darpa,
+HAND_funding,,
+KIMETRICA_LAND_USE_funding,nsf,
+MODFLOW_funding,usgs,
+PIHM_funding,nsf,
+SWAT_funding,usda;tamu_agrilife,
+TOPOFLOW_funding,nsf,
+WGEN_funding,erc;snwf,
+kimetrica_0.0_funding,darpa,
+modflow_2005_funding,darpa,
+wgen_1.0.1_funding,darpa,

Data/MINT/1.6.0/mint@isi.edu/DatasetSpecification.csv

@@ -0,0 +1,19 @@
+https://w3id.org/okn/o/sdm#GeoShape,http://www.w3.org/2000/01/rdf-schema#label,https://w3id.org/okn/o/sdm#box
+868d9b8d-fcf8-4deb-9c74-7db248a070e4,Bounding box for Sacramento River,"-123.10715261856016,38.00868446092268 -119.97289697716671,42.003998113802844"
+Awash_Shape,Bounding box for the Awash region,"37.97867393188249,6.803678749990985 39.7438246819145,9.314583332438477"
+Baro_Shape,Bounding box for Baro basin,"33.2078,7.4312 36.3155,9.4162"
+Bashilo_Shape,Bounding box for Bashilo basin,"38.20374999999967,10.867083333333333 39.68291666666634,11.952916666666667"
+Beko-Tippi_Shape,Bounding box for Beko-Tippi basin,"35.32041666666567,7.027916666666 35.95791666666566,7.473749999999332"
+Ethiopia_Shape,Bounding box for Ethiopia,"32.94418,3.4120600000000003 47.79942,14.96943"
+Gambella_Shape,Bounding box for Gambella region,"32.991536,6.27026 35.402297999999995,8.718837"
+Ganale_Shape,Bounding box for the Ganale basin,"39.38034620913843,5.629512229025655 40.993819420185524,6.951321109995221"
+Guder_Shape,Bounding box for Guder basin,"37.27124999999967,8.691249999999666 38.16541666666633,9.872083333332998"
+Jamma_Shape,Bounding box for Jamma basin,"38.44708333333367,9.188749999999667 39.82125000000033,10.955416666666332"
+Kyrgyzstan_Shape,Bounding box for Kyrgyzstan,"69.26973937,39.16284393 80.29318024,43.24823547"
+Muger_Shape,Bounding box for Muger basin,"37.902916666667004,9.073750000000333 39.032916666667,9.97625000000033"
+Oromia_Shape,Bounding box for Oromia region in Wthiopia,"34.1295,3.4997 42.9898,10.3969"
+Pongo_Basin_SS_Shape,Bounding box for Pongo basin,"24.14233611868619,6.682771856532459 27.741570450529053,9.345303077456506"
+Shebelle_Shape,Bounding box for the Shebelle basin,"38.68201146140237,6.36367971332346 43.34548744123218,9.527153158178406"
+SouthSudan_Shape,Bounding box for South Sudan,"24.121374145000107,3.538957621000113 35.814150025000096,12.226154684000159"
+Tekeze_Shape,Bounding box for Tekeze basin,"37.5413,11.6546 39.7112,13.6246"
+Texas_Shape,Bounding box for Texas region,"-106.65038428499993,25.829765046000137 -93.51181051299993,36.51056885500015"

Data/MINT/1.6.0/mint@isi.edu/FundingInformation.csv

@@ -0,0 +1,14 @@
+https://w3id.org/okn/o/sdm#Grid,http://www.w3.org/1999/02/22-rdf-syntax-ns#type,http://www.w3.org/2000/01/rdf-schema#label,https://w3id.org/okn/o/sd#description,https://w3id.org/okn/o/sdm#hasDimension,https://w3id.org/okn/o/sdm#hasSpatialResolution,https://w3id.org/okn/o/sdm#hasShape
+8ae58b4c-aba2-4452-a091-8d6d0b19fd07,https://w3id.org/okn/o/sdm#SpatiallyDistributedGrid,MODFLOW with MT3D - idealized model,Grid for idealized model,3D,150x75x15pixels,Block structure
+cycles_grid,https://w3id.org/okn/o/sdm#PointBasedGrid,Grid from the Cycles agriculture model,Grid from the Cycles agriculture model,0D,Point,Point
+econ_grid,https://w3id.org/okn/o/sdm#PointBasedGrid,Grid from the economic crop supply model,Grid from the economic crop supply model,0D,Point,Point
+fsi_grid,https://w3id.org/okn/o/sdm#SpatiallyDistributedGrid,Grid from the flood severity index model,2D Grid - same as input data,2D,0.1deg x 0.1 deg,
+hand_grid,https://w3id.org/okn/o/sdm#SpatiallyDistributedGrid,Grid from the HAND model,Grid from the HAND model,2D,variable range,
+hand_grid_texas,https://w3id.org/okn/o/sdm#SpatiallyDistributedGrid,Grid from the HAND model,Grid from the HAND model,2D,10x10m,
+modflow_grid_general,https://w3id.org/okn/o/sdm#SpatiallyDistributedGrid,Grid from the Modflow2005 model,Grid from the Modflow2005 model,3D,variable range,Block structure
+pihm_grid_Ethiopia,https://w3id.org/okn/o/sdm#SpatiallyDistributedGrid,Grid from the PIHM hydrology model for the Baro region in Ethiopia,Grid from the PIHM hydrology model for the region of south Sudan,2D,50m-200m,Triangular
+pihm_grid_SS,https://w3id.org/okn/o/sdm#SpatiallyDistributedGrid,Grid from the PIHM hydrology model for the Pongo/South Sudan region,Grid from the PIHM hydrology model for the region of south Sudan,2D,50m-200m,Triangular
+pihm_grid_general,https://w3id.org/okn/o/sdm#SpatiallyDistributedGrid,Grid from the PIHM hydrology model,Grid from the PIHM hydrology model,2D,variable range,Triangular
+swat_grid,,Grid from the SWAT model,Grid from the SWAT model,,,
+topoflow_grid_Baro,https://w3id.org/okn/o/sdm#SpatiallyDistributedGrid,Grid from the TopoFlow hydrology model for the area of South Sudan,Grid from the TopoFlow hydrology model,2D,100x100m,
+topoflow_grid_general,https://w3id.org/okn/o/sdm#SpatiallyDistributedGrid,Grid from the TopoFlow hydrology model,Grid from the TopoFlow hydrology model,2D,variable range,

Data/MINT/1.6.0/mint@isi.edu/GeoShape.csv

@@ -0,0 +1,27 @@
+https://w3id.org/okn/o/sd#Image,http://www.w3.org/2000/01/rdf-schema#label,https://w3id.org/okn/o/sd#description,https://w3id.org/okn/o/sd#value,https://w3id.org/okn/o/sd#hadPrimarySource
+climcomp_logo,Climcomp logo,climcomp logo,https://b.kisscc0.com/20181116/ihq/kisscc0-cloud-weather-climate-computer-fluffy-clouds-5beeafb50684e3.6698636015423692050267.png,https://www.kisscc0.com/clipart/cloud-weather-climate-computer-fluffy-clouds-ehncs4/
+cycles_forrester,Forrester diagram for Cycles,Forrester diagram explaining Cycles main processes and their interactions,https://github.com/mintproject/ModelCatalog/raw/master/Data/Images/cycles_forrester.png,
+cycles_logo,Cycles logo,Logo for the Cycles agroecosystem simulation model,https://raw.githubusercontent.com/mintproject/ModelCatalog/master/Data/Images/cycles_logo.gif,https://plantscience.psu.edu/research/labs/kemanian/models-and-tools/cycles
+cycles_screenshot1,Cycles crop description interface,Cycles has a generic plant growth and development model that simulates grasses and other herbaceous crops; legumes or non-legumes; perennial and annual crops; and woody crops. It requires minimum inputs from the user.,https://plantscience.psu.edu/research/labs/kemanian/images/cycles-crop-description-interface/image_preview,https://plantscience.psu.edu/research/labs/kemanian/models-and-tools/cycles
+cycles_screenshot2,Cycles tillage setup interface,Cycles allows the user to select operations from dozens of tillage tools. These tools disturb the soil by mixing soil layers and all the components in them; breaking up residues and accelerating soil organic matter turnover. Cycles simulates till and no-till conditions; manure additions; and all the properties that affect soil surface processes.,https://plantscience.psu.edu/research/labs/kemanian/images/cycles-tillage-setup-interface/image_preview,https://plantscience.psu.edu/research/labs/kemanian/models-and-tools/cycles
+dsi_logo,Drought severity index logo,,https://upload.wikimedia.org/wikipedia/commons/thumb/e/e1/Drought.jpg/800px-Drought.jpg,https://en.wikipedia.org/wiki/Drought
+dssat_explanation_diagram,DSSAT architecture diagram,An image displaying the different modules that are part of DSSAT,https://dssat.net/wp-content/uploads/2018/02/CSM-Components_color.jpg,https://dssat.net/
+dssat_logo,DSSAT logo,dssat logo,https://dssat.net/wp-content/uploads/2014/05/DSSAT-color-update-LOGO+-DSSAT.png,https://dssat.net/
+eacs_explanation,Explanation of the EACS model,Diagram explaining the main interactions of processes and variables in the economic aggregate crop supply model,,
+eacs_forrester,Forrester diagram for EACS,Forrester diagram explaining the Economic Aggregate Crop Supply model main processes and their interactions,,
+eacs_logo,EACS logo,Economic model logo,https://b.kisscc0.com/20180705/zvq/kisscc0-computer-icons-economy-economic-development-symbol-eco-green-growth-icon-5b3e5f701b1338.3434381215308143201109.png,https://www.kisscc0.com/clipart/computer-icons-economy-economic-development-symbol-4yrzrs/
+fsi_logo,Flood Severity Index logo,A logo for the Flood Severity Index model,https://upload.wikimedia.org/wikipedia/commons/thumb/3/32/Gumbel-Density.svg/1024px-Gumbel-Density.svg.png,https://en.wikipedia.org/wiki/Gumbel_distribution
+hand_explanation,HAND algorithm explanation,HAND classes procedure,https://github.com/mintproject/ModelCatalog/raw/master/Data/Images/hand_classes_procedure.png,https://www.researchgate.net/publication/232042361_Height_Above_the_Nearest_Drainage_-_a_hydrologically_relevant_new_terrain_model
+hand_explanation2,HAND algorithm explanation,HAND model procedure,https://github.com/mintproject/ModelCatalog/raw/master/Data/Images/hand_model_procedure.png,https://www.researchgate.net/publication/232042361_Height_Above_the_Nearest_Drainage_-_a_hydrologically_relevant_new_terrain_model
+hand_logo,HAND logo,HAND algorithm implmentation logo,https://github.com/mintproject/ModelCatalog/raw/master/Data/Images/hand_logo.jpg,https://www.hydroshare.org/resource/69f7d237675c4c73938481904358c789/
+kimetrica_logo,Kimetrica logo,kimetrica logo,https://github.com/mintproject/ModelCatalog/raw/master/Data/Images/k.png,https://kimetrica.com/
+modflow_2005_image,Modflow 2005 diagram,A discretized hypothetical aquifer system. (Modified from McDonald and Harbaugh. 1988.),https://prd-wret.s3-us-west-2.amazonaws.com/assets/palladium/production/s3fs-public/styles/side_image/public/thumbnails/image/modflow5-layers.jpg,https://www.usgs.gov/software/modflow-2005-usgs-three-dimensional-finite-difference-ground-water-model
+modflow_logo,Modlfow logo,Modlfow logo,https://prd-wret.s3-us-west-2.amazonaws.com/assets/palladium/production/s3fs-public/styles/side_image/public/thumbnails/image/modflow-output-visualization.jpg,https://www.usgs.gov/mission-areas/water-resources/science/modflow-and-related-programs?qt-science_center_objects=0#qt-science_center_objects
+pihm_explanation_diagram,PIHM summary,A diagram explaining the processes on PIHM and its grid,http://www.pihm.psu.edu/pcs.png,http://www.pihm.psu.edu/pihm_home.html
+pihm_forrester,Forrester diagram of PIHM,A forrester diagram explaining PIHM's main processes and their interactions,http://www.pihm.psu.edu/images/pihm_kernel.jpg,http://www.pihm.psu.edu/pihm_home.html
+pihm_logo,Logo used for PIHM,Logo of the Penn State Integrated Hydrology Model (PIHM),http://www.pihm.psu.edu/applications/images/tonzi.png,http://www.pihm.psu.edu/pihm_home.html
+remote_sensing_output,Remote sensing analysis output,A visualization of the estimation for river bed growth using remote sensing data analysis,https://github.com/mintproject/EthiopiaDemo/raw/master/RemoteSensing/Box-1667-sec-2.gif,https://github.com/mintproject/EthiopiaDemo/tree/master/RemoteSensing
+remote_sensing_river_bed_variation,Remote sensing analysis river depth variation,A visualization of the estimation for river bed growth using remote sensing data analysis. The visualization shows river depth variation,http://umnlcc.cs.umn.edu/carto-test/,https://github.com/mintproject/EthiopiaDemo/tree/master/RemoteSensing
+swat_logo,SWAT logo,A logo of the SWAT model,http://downloads.esri.com/blogs/hydro/ArcSWAT/Fig4.jpg,https://www.esri.com/arcgis-blog/products/product/water/swat-soil-water-assessment-tool/
+topoflow_logo,Topoflow logo,topoflow_logo,https://github.com/mintproject/ModelCatalog/raw/master/Data/Images/topoflow_logo.png,https://csdms.colorado.edu/wiki/Model:TopoFlow
+wgen_logo,wgen_logo,wgen logo,https://github.com/mintproject/ModelCatalog/raw/master/Data/Images/weather.png,https://www.kisscc0.com/clipart/overcast-cloud-computer-icons-weather-forecasting-lo6fso/

Data/MINT/1.6.0/mint@isi.edu/Grid.csv

@@ -0,0 +1,4 @@
+https://w3id.org/okn/o/sdm#Intervention,http://www.w3.org/2000/01/rdf-schema#label,https://w3id.org/okn/o/sd#description
+fertilizerSubsidy,Fertilizer Subsidy,Interventions concerning fertilizer subsidies can be expressed in this model as a percentage of fertilizer prices.
+plantingWindows,Planting Windows,Interventions that force specific target planting windows can be expressed in this model as a start or end planting date
+weedControl,Weed Control,Interventions concerning weed control and weed management practices can be reflected in this model by indicating the fraction of weeds that will remain after the weed treatments applied by farmers