{
 "culture": "en-US",
 "name": "",
 "guid": "",
 "catalogPath": "",
 "snippet": "The purpose of this project is to identify coastal areas in Washington that may, in the future, be suitable for offshore renewable energy development.  Full documentation of this project can be found in Geospatial Analysis of Technical Suitability for Renewable Ocean Energy Development on Washington\u2019s Outer Coast. (Van Cleve et al. 2013).",
 "description": "<DIV STYLE=\"text-align:Left;\"><DIV><DIV><P><SPAN>This dataset contains the scored attributes and model results for the above analysis. The minimum mapping size for this assessment were aloquots, roughly 1.2 km by 1.2km, though results should NOT be viewed at this grain. Rather areas of contiguous sites should be interepreted as potentially suitable. In remote sensing, a rule of thumb is for 10 contiguous pixels to be classified as one type, and that would be a good rule of thumb to use with this dataset. <\/SPAN><\/P><\/DIV><\/DIV><\/DIV>",
 "summary": "The purpose of this project is to identify coastal areas in Washington that may, in the future, be suitable for offshore renewable energy development.  Full documentation of this project can be found in Geospatial Analysis of Technical Suitability for Renewable Ocean Energy Development on Washington\u2019s Outer Coast. (Van Cleve et al. 2013).",
 "title": "SHARED_AQR.MSP_PNNL_SIM",
 "tags": [
  "Renewable Energy",
  "Tidal",
  "Wind",
  "Wave",
  "Offshore",
  "Marine Spatial Planning",
  "Washington"
 ],
 "type": "",
 "typeKeywords": [],
 "thumbnail": "",
 "url": "",
 "minScale": "NaN",
 "maxScale": "NaN",
 "spatialReference": "",
 "accessInformation": "PNNL. 2013. Geospatial Analysis of Technical Suitability for Renewable Ocean Energy Development on Washington\u2019s Outer Coast",
 "licenseInfo": "<DIV STYLE=\"text-align:Left;\"><DIV><DIV><P><SPAN>Work must be cited. Do not post online or otherwise publish without prior consent.<\/SPAN><\/P><\/DIV><\/DIV><\/DIV>",
 "portalUrl": ""
}