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These data are orthorectified radar intensity images (ORI) derived from interferometric synthetic aperture radar (ifsar) data. An ORI is a high-resolution image derived from ifsar which has geometric distortions removed. Unlike optical imagery, ifsar can be collected in cloudy conditions. The USGS performs minimal quality assurance and no reprocessing of the ORI data. USGS distributes the ORI data as received from the contractors, partners or contributing entities.
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These data are orthorectified radar intensity images (ORI) derived from interferometric synthetic aperture radar (ifsar) data. An ORI is a high-resolution image derived from ifsar which has geometric distortions removed. Unlike optical imagery, ifsar can be collected in cloudy conditions. The USGS performs minimal quality assurance and no reprocessing of the ORI data. USGS distributes the ORI data as received from the contractors, partners or contributing entities.
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These data are orthorectified radar intensity images (ORI) derived from interferometric synthetic aperture radar (ifsar) data. An ORI is a high-resolution image derived from ifsar which has geometric distortions removed. Unlike optical imagery, ifsar can be collected in cloudy conditions. The USGS performs minimal quality assurance and no reprocessing of the ORI data. USGS distributes the ORI data as received from the contractors, partners or contributing entities.
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These data are orthorectified radar intensity images (ORI) derived from interferometric synthetic aperture radar (ifsar) data. An ORI is a high-resolution image derived from ifsar which has geometric distortions removed. Unlike optical imagery, ifsar can be collected in cloudy conditions. The USGS performs minimal quality assurance and no reprocessing of the ORI data. USGS distributes the ORI data as received from the contractors, partners or contributing entities.
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These data are orthorectified radar intensity images (ORI) derived from interferometric synthetic aperture radar (ifsar) data. An ORI is a high-resolution image derived from ifsar which has geometric distortions removed. Unlike optical imagery, ifsar can be collected in cloudy conditions. The USGS performs minimal quality assurance and no reprocessing of the ORI data. USGS distributes the ORI data as received from the contractors, partners or contributing entities.
thumbnail
These data are orthorectified radar intensity images (ORI) derived from interferometric synthetic aperture radar (ifsar) data. An ORI is a high-resolution image derived from ifsar which has geometric distortions removed. Unlike optical imagery, ifsar can be collected in cloudy conditions. The USGS performs minimal quality assurance and no reprocessing of the ORI data. USGS distributes the ORI data as received from the contractors, partners or contributing entities.
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These data are orthorectified radar intensity images (ORI) derived from interferometric synthetic aperture radar (ifsar) data. An ORI is a high-resolution image derived from ifsar which has geometric distortions removed. Unlike optical imagery, ifsar can be collected in cloudy conditions. The USGS performs minimal quality assurance and no reprocessing of the ORI data. USGS distributes the ORI data as received from the contractors, partners or contributing entities.
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These data are orthorectified radar intensity images (ORI) derived from interferometric synthetic aperture radar (ifsar) data. An ORI is a high-resolution image derived from ifsar which has geometric distortions removed. Unlike optical imagery, ifsar can be collected in cloudy conditions. The USGS performs minimal quality assurance and no reprocessing of the ORI data. USGS distributes the ORI data as received from the contractors, partners or contributing entities.
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These data are orthorectified radar intensity images (ORI) derived from interferometric synthetic aperture radar (ifsar) data. An ORI is a high-resolution image derived from ifsar which has geometric distortions removed. Unlike optical imagery, ifsar can be collected in cloudy conditions. The USGS performs minimal quality assurance and no reprocessing of the ORI data. USGS distributes the ORI data as received from the contractors, partners or contributing entities.
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These data are orthorectified radar intensity images (ORI) derived from interferometric synthetic aperture radar (ifsar) data. An ORI is a high-resolution image derived from ifsar which has geometric distortions removed. Unlike optical imagery, ifsar can be collected in cloudy conditions. The USGS performs minimal quality assurance and no reprocessing of the ORI data. USGS distributes the ORI data as received from the contractors, partners or contributing entities.
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(Hyperlink to Official Landing Page for Geospatial Fabric products) The Geospatial Fabric provides a consistent, documented, and topologically connected set of spatial features that create an abstracted stream/basin network of features useful for hydrologic modeling.The GIS vector features contained in this Geospatial Fabric (GF) data set cover the lower 48 U.S. states, Hawaii, and Puerto Rico. Four GIS feature classes are provided for each Region: 1) the Region outline ("one"), 2) Points of Interest ("POIs"), 3) a routing network ("nsegment"), and 4) Hydrologic Response Units ("nhru"). A graphic showing the boundaries for all Regions is provided at http://dx.doi.org/doi:10.5066/F7542KMD. These Regions are identical...
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These data are orthorectified radar intensity images (ORI) derived from interferometric synthetic aperture radar (ifsar) data. An ORI is a high-resolution image derived from ifsar which has geometric distortions removed. Unlike optical imagery, ifsar can be collected in cloudy conditions. The USGS performs minimal quality assurance and no reprocessing of the ORI data. USGS distributes the ORI data as received from the contractors, partners or contributing entities.
thumbnail
These data are orthorectified radar intensity images (ORI) derived from interferometric synthetic aperture radar (ifsar) data. An ORI is a high-resolution image derived from ifsar which has geometric distortions removed. Unlike optical imagery, ifsar can be collected in cloudy conditions. The USGS performs minimal quality assurance and no reprocessing of the ORI data. USGS distributes the ORI data as received from the contractors, partners or contributing entities.
thumbnail
These data are orthorectified radar intensity images (ORI) derived from interferometric synthetic aperture radar (ifsar) data. An ORI is a high-resolution image derived from ifsar which has geometric distortions removed. Unlike optical imagery, ifsar can be collected in cloudy conditions. The USGS performs minimal quality assurance and no reprocessing of the ORI data. USGS distributes the ORI data as received from the contractors, partners or contributing entities.
thumbnail
These data are orthorectified radar intensity images (ORI) derived from interferometric synthetic aperture radar (ifsar) data. An ORI is a high-resolution image derived from ifsar which has geometric distortions removed. Unlike optical imagery, ifsar can be collected in cloudy conditions. The USGS performs minimal quality assurance and no reprocessing of the ORI data. USGS distributes the ORI data as received from the contractors, partners or contributing entities.
thumbnail
These data are orthorectified radar intensity images (ORI) derived from interferometric synthetic aperture radar (ifsar) data. An ORI is a high-resolution image derived from ifsar which has geometric distortions removed. Unlike optical imagery, ifsar can be collected in cloudy conditions. The USGS performs minimal quality assurance and no reprocessing of the ORI data. USGS distributes the ORI data as received from the contractors, partners or contributing entities.
thumbnail
These data are orthorectified radar intensity images (ORI) derived from interferometric synthetic aperture radar (ifsar) data. An ORI is a high-resolution image derived from ifsar which has geometric distortions removed. Unlike optical imagery, ifsar can be collected in cloudy conditions. The USGS performs minimal quality assurance and no reprocessing of the ORI data. USGS distributes the ORI data as received from the contractors, partners or contributing entities.
thumbnail
These data are orthorectified radar intensity images (ORI) derived from interferometric synthetic aperture radar (ifsar) data. An ORI is a high-resolution image derived from ifsar which has geometric distortions removed. Unlike optical imagery, ifsar can be collected in cloudy conditions. The USGS performs minimal quality assurance and no reprocessing of the ORI data. USGS distributes the ORI data as received from the contractors, partners or contributing entities.
thumbnail
These data are orthorectified radar intensity images (ORI) derived from interferometric synthetic aperture radar (ifsar) data. An ORI is a high-resolution image derived from ifsar which has geometric distortions removed. Unlike optical imagery, ifsar can be collected in cloudy conditions. The USGS performs minimal quality assurance and no reprocessing of the ORI data. USGS distributes the ORI data as received from the contractors, partners or contributing entities.
thumbnail
These data are orthorectified radar intensity images (ORI) derived from interferometric synthetic aperture radar (ifsar) data. An ORI is a high-resolution image derived from ifsar which has geometric distortions removed. Unlike optical imagery, ifsar can be collected in cloudy conditions. The USGS performs minimal quality assurance and no reprocessing of the ORI data. USGS distributes the ORI data as received from the contractors, partners or contributing entities.


map background search result map search result map GIS Features of the Geospatial Fabric for National Hydrologic Modeling USGS NED Orthorectified Radar Intensity Image AK IFSAR-D6-L4-C37 2013 TIFF 2015 USGS NED Orthorectified Radar Intensity Image AK IFSAR-D6-L4-C64 2013 TIFF 2015 USGS NED Orthorectified Radar Intensity Image AK IFSAR-D6-L4-C89 2013 TIFF 2015 USGS NED Orthorectified Radar Intensity Image AK IFSAR-DEM6-Lot1B-C111 2012 TIFF 2016 USGS NED Orthorectified Radar Intensity Image AK IFSAR-DEM6-Lot1B-C138 2012 TIFF 2016 USGS NED Orthorectified Radar Intensity Image AK IFSAR-NRCS-L2-C258 2012 TIFF 2015 USGS NED Orthorectified Radar Intensity Image AK IFSAR-UpperSE-Lot2-C318 2012 TIFF 2016 USGS NED Orthorectified Radar Intensity Image AK IFSAR-Chugach-c282 2016 TIFF 2017 USGS NED Orthorectified Radar Intensity Image AK Kenai-L2-c307 2014 TIFF 2017 USGS NED Orthorectified Radar Intensity Image AK Ifsar-Kenai-L1-c270 2015 TIFF 2017 USGS NED Orthorectified Radar Intensity Image AK IFSAR-Sum-L1-C186 2015 TIFF 2017 USGS NED Orthorectified Radar Intensity Image AK IFSAR-SumNNE-L2-c47 2016 TIFF 2018 USGS NED Orthorectified Radar Intensity Image AK IFSAR-Yukon-Tokiak-c326 2015 TIFF 2018 USGS NED Orthorectified Radar Intensity Image AK IFSAR Summer C222 2017 TIFF 2018 USGS NED Orthorectified Radar Intensity Image AK IFSAR Summer C273 2017 TIFF 2019 USGS NED Orthorectified Radar Intensity Image AK IFSAR Summer C331 2017 TIFF 2019 USGS NED Orthorectified Radar Intensity Image AK IFSAR Eastern Aleutians C346 2018 TIFF 2019 USGS NED Orthorectified Radar Intensity Image AK IFSAR Kenai L2 c307 2015 TIFF 2019 USGS NED Orthorectified Radar Intensity Image AK IFSAR Eastern Aleutians Lot2 C396 2018 TIFF 2019 USGS NED Orthorectified Radar Intensity Image AK IFSAR Eastern Aleutians C346 2018 TIFF 2019 USGS NED Orthorectified Radar Intensity Image AK IFSAR-Yukon-Tokiak-c326 2015 TIFF 2018 USGS NED Orthorectified Radar Intensity Image AK Kenai-L2-c307 2014 TIFF 2017 USGS NED Orthorectified Radar Intensity Image AK IFSAR Kenai L2 c307 2015 TIFF 2019 USGS NED Orthorectified Radar Intensity Image AK IFSAR-Sum-L1-C186 2015 TIFF 2017 USGS NED Orthorectified Radar Intensity Image AK IFSAR Summer C222 2017 TIFF 2018 USGS NED Orthorectified Radar Intensity Image AK IFSAR Summer C331 2017 TIFF 2019 USGS NED Orthorectified Radar Intensity Image AK IFSAR-DEM6-Lot1B-C111 2012 TIFF 2016 USGS NED Orthorectified Radar Intensity Image AK IFSAR-D6-L4-C37 2013 TIFF 2015 USGS NED Orthorectified Radar Intensity Image AK IFSAR-DEM6-Lot1B-C138 2012 TIFF 2016 USGS NED Orthorectified Radar Intensity Image AK IFSAR-D6-L4-C89 2013 TIFF 2015 USGS NED Orthorectified Radar Intensity Image AK IFSAR-D6-L4-C64 2013 TIFF 2015 USGS NED Orthorectified Radar Intensity Image AK IFSAR Summer C273 2017 TIFF 2019 USGS NED Orthorectified Radar Intensity Image AK IFSAR-Chugach-c282 2016 TIFF 2017 USGS NED Orthorectified Radar Intensity Image AK Ifsar-Kenai-L1-c270 2015 TIFF 2017 USGS NED Orthorectified Radar Intensity Image AK IFSAR-NRCS-L2-C258 2012 TIFF 2015 USGS NED Orthorectified Radar Intensity Image AK IFSAR Eastern Aleutians Lot2 C396 2018 TIFF 2019 USGS NED Orthorectified Radar Intensity Image AK IFSAR-UpperSE-Lot2-C318 2012 TIFF 2016 USGS NED Orthorectified Radar Intensity Image AK IFSAR-SumNNE-L2-c47 2016 TIFF 2018 GIS Features of the Geospatial Fabric for National Hydrologic Modeling