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Lidar (Light detection and ranging) discrete-return point cloud data are available in the American Society for Photogrammetry and Remote Sensing (ASPRS) LAS format. The LAS format is a standardized binary format for storing 3-dimensional point cloud data and point attributes along with header information and variable length records specific to the data. Millions of data points are stored as a 3-dimensional data cloud as a series of x (longitude), y (latitude) and z (elevation) points. A few older projects in this collection are in ASCII format. Please refer to http://www.asprs.org/Committee-General/LASer-LAS-File-Format-Exchange-Activities.html for additional information.
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Lidar (Light detection and ranging) discrete-return point cloud data are available in the American Society for Photogrammetry and Remote Sensing (ASPRS) LAS format. The LAS format is a standardized binary format for storing 3-dimensional point cloud data and point attributes along with header information and variable length records specific to the data. Millions of data points are stored as a 3-dimensional data cloud as a series of x (longitude), y (latitude) and z (elevation) points. A few older projects in this collection are in ASCII format. Please refer to http://www.asprs.org/Committee-General/LASer-LAS-File-Format-Exchange-Activities.html for additional information.
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Lidar (Light detection and ranging) discrete-return point cloud data are available in the American Society for Photogrammetry and Remote Sensing (ASPRS) LAS format. The LAS format is a standardized binary format for storing 3-dimensional point cloud data and point attributes along with header information and variable length records specific to the data. Millions of data points are stored as a 3-dimensional data cloud as a series of x (longitude), y (latitude) and z (elevation) points. A few older projects in this collection are in ASCII format. Please refer to http://www.asprs.org/Committee-General/LASer-LAS-File-Format-Exchange-Activities.html for additional information.
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Lidar (Light detection and ranging) discrete-return point cloud data are available in the American Society for Photogrammetry and Remote Sensing (ASPRS) LAS format. The LAS format is a standardized binary format for storing 3-dimensional point cloud data and point attributes along with header information and variable length records specific to the data. Millions of data points are stored as a 3-dimensional data cloud as a series of x (longitude), y (latitude) and z (elevation) points. A few older projects in this collection are in ASCII format. Please refer to http://www.asprs.org/Committee-General/LASer-LAS-File-Format-Exchange-Activities.html for additional information.
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Lidar (Light detection and ranging) discrete-return point cloud data are available in the American Society for Photogrammetry and Remote Sensing (ASPRS) LAS format. The LAS format is a standardized binary format for storing 3-dimensional point cloud data and point attributes along with header information and variable length records specific to the data. Millions of data points are stored as a 3-dimensional data cloud as a series of x (longitude), y (latitude) and z (elevation) points. A few older projects in this collection are in ASCII format. Please refer to http://www.asprs.org/Committee-General/LASer-LAS-File-Format-Exchange-Activities.html for additional information.
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Lidar (Light detection and ranging) discrete-return point cloud data are available in the American Society for Photogrammetry and Remote Sensing (ASPRS) LAS format. The LAS format is a standardized binary format for storing 3-dimensional point cloud data and point attributes along with header information and variable length records specific to the data. Millions of data points are stored as a 3-dimensional data cloud as a series of x (longitude), y (latitude) and z (elevation) points. A few older projects in this collection are in ASCII format. Please refer to http://www.asprs.org/Committee-General/LASer-LAS-File-Format-Exchange-Activities.html for additional information.
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Lidar (Light detection and ranging) discrete-return point cloud data are available in the American Society for Photogrammetry and Remote Sensing (ASPRS) LAS format. The LAS format is a standardized binary format for storing 3-dimensional point cloud data and point attributes along with header information and variable length records specific to the data. Millions of data points are stored as a 3-dimensional data cloud as a series of x (longitude), y (latitude) and z (elevation) points. A few older projects in this collection are in ASCII format. Please refer to http://www.asprs.org/Committee-General/LASer-LAS-File-Format-Exchange-Activities.html for additional information.
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Lidar (Light detection and ranging) discrete-return point cloud data are available in the American Society for Photogrammetry and Remote Sensing (ASPRS) LAS format. The LAS format is a standardized binary format for storing 3-dimensional point cloud data and point attributes along with header information and variable length records specific to the data. Millions of data points are stored as a 3-dimensional data cloud as a series of x (longitude), y (latitude) and z (elevation) points. A few older projects in this collection are in ASCII format. Please refer to http://www.asprs.org/Committee-General/LASer-LAS-File-Format-Exchange-Activities.html for additional information.
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Lidar (Light detection and ranging) discrete-return point cloud data are available in the American Society for Photogrammetry and Remote Sensing (ASPRS) LAS format. The LAS format is a standardized binary format for storing 3-dimensional point cloud data and point attributes along with header information and variable length records specific to the data. Millions of data points are stored as a 3-dimensional data cloud as a series of x (longitude), y (latitude) and z (elevation) points. A few older projects in this collection are in ASCII format. Please refer to http://www.asprs.org/Committee-General/LASer-LAS-File-Format-Exchange-Activities.html for additional information.
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Lidar (Light detection and ranging) discrete-return point cloud data are available in the American Society for Photogrammetry and Remote Sensing (ASPRS) LAS format. The LAS format is a standardized binary format for storing 3-dimensional point cloud data and point attributes along with header information and variable length records specific to the data. Millions of data points are stored as a 3-dimensional data cloud as a series of x (longitude), y (latitude) and z (elevation) points. A few older projects in this collection are in ASCII format. Please refer to http://www.asprs.org/Committee-General/LASer-LAS-File-Format-Exchange-Activities.html for additional information.
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Lidar (Light detection and ranging) discrete-return point cloud data are available in the American Society for Photogrammetry and Remote Sensing (ASPRS) LAS format. The LAS format is a standardized binary format for storing 3-dimensional point cloud data and point attributes along with header information and variable length records specific to the data. Millions of data points are stored as a 3-dimensional data cloud as a series of x (longitude), y (latitude) and z (elevation) points. A few older projects in this collection are in ASCII format. Please refer to http://www.asprs.org/Committee-General/LASer-LAS-File-Format-Exchange-Activities.html for additional information.
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Lidar (Light detection and ranging) discrete-return point cloud data are available in the American Society for Photogrammetry and Remote Sensing (ASPRS) LAS format. The LAS format is a standardized binary format for storing 3-dimensional point cloud data and point attributes along with header information and variable length records specific to the data. Millions of data points are stored as a 3-dimensional data cloud as a series of x (longitude), y (latitude) and z (elevation) points. A few older projects in this collection are in ASCII format. Please refer to http://www.asprs.org/Committee-General/LASer-LAS-File-Format-Exchange-Activities.html for additional information.
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This is the Original Product Resolution (OPR) Digital Elevation Model (DEM) as provided to the USGS. This DEM is delivered in the original resolution, with the original spatial reference. These data may be used as the source of updates to the seamless layers of the 3D Elevation Program, which serves as the elevation layer of the National Map. These data can be used by scientists and resource managers for global change research, hydrologic modeling, resource monitoring, mapping and visualization, and many other applications.
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This is the Original Product Resolution (OPR) Digital Elevation Model (DEM) as provided to the USGS. This DEM is delivered in the original resolution, with the original spatial reference. These data may be used as the source of updates to the seamless layers of the 3D Elevation Program, which serves as the elevation layer of the National Map. These data can be used by scientists and resource managers for global change research, hydrologic modeling, resource monitoring, mapping and visualization, and many other applications.
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This is the Original Product Resolution (OPR) Digital Elevation Model (DEM) as provided to the USGS. This DEM is delivered in the original resolution, with the original spatial reference. These data may be used as the source of updates to the seamless layers of the 3D Elevation Program, which serves as the elevation layer of the National Map. These data can be used by scientists and resource managers for global change research, hydrologic modeling, resource monitoring, mapping and visualization, and many other applications.
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This is the Original Product Resolution (OPR) Digital Elevation Model (DEM) as provided to the USGS. This DEM is delivered in the original resolution, with the original spatial reference. These data may be used as the source of updates to the seamless layers of the 3D Elevation Program, which serves as the elevation layer of the National Map. These data can be used by scientists and resource managers for global change research, hydrologic modeling, resource monitoring, mapping and visualization, and many other applications.
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This is the Original Product Resolution (OPR) Digital Elevation Model (DEM) as provided to the USGS. This DEM is delivered in the original resolution, with the original spatial reference. These data may be used as the source of updates to the seamless layers of the 3D Elevation Program, which serves as the elevation layer of the National Map. These data can be used by scientists and resource managers for global change research, hydrologic modeling, resource monitoring, mapping and visualization, and many other applications.
thumbnail
This is the Original Product Resolution (OPR) Digital Elevation Model (DEM) as provided to the USGS. This DEM is delivered in the original resolution, with the original spatial reference. These data may be used as the source of updates to the seamless layers of the 3D Elevation Program, which serves as the elevation layer of the National Map. These data can be used by scientists and resource managers for global change research, hydrologic modeling, resource monitoring, mapping and visualization, and many other applications.
thumbnail
This is the Original Product Resolution (OPR) Digital Elevation Model (DEM) as provided to the USGS. This DEM is delivered in the original resolution, with the original spatial reference. These data may be used as the source of updates to the seamless layers of the 3D Elevation Program, which serves as the elevation layer of the National Map. These data can be used by scientists and resource managers for global change research, hydrologic modeling, resource monitoring, mapping and visualization, and many other applications.
thumbnail
This is the Original Product Resolution (OPR) Digital Elevation Model (DEM) as provided to the USGS. This DEM is delivered in the original resolution, with the original spatial reference. These data may be used as the source of updates to the seamless layers of the 3D Elevation Program, which serves as the elevation layer of the National Map. These data can be used by scientists and resource managers for global change research, hydrologic modeling, resource monitoring, mapping and visualization, and many other applications.


map background search result map search result map USGS Lidar Point Cloud IN JohnsonCo 2011 in2011 02201550 12 LAS 2016 USGS Lidar Point Cloud IN JohnsonCo 2011 in2011 02251520 12 LAS 2016 USGS Lidar Point Cloud UT Wasatch-L5 2014 12SVK4000021000 LAS 2016 USGS Lidar Point Cloud UT Wasatch-L5 2014 12SVK4000026000 LAS 2016 USGS Lidar Point Cloud IN ET-B8-Jennings 2012 in2012 02901315 12 LAS 2016 USGS Lidar Point Cloud IN ET-B8-Jennings 2012 in2012 02901365 12 LAS 2016 USGS Lidar Point Cloud IN ET-B8-Jennings 2012 in2012 02951330 12 LAS 2016 USGS Lidar Point Cloud IN ET-B8-Jennings 2012 in2012 02951360 12 LAS 2016 USGS Lidar Point Cloud IN ET-B8-Jennings 2012 in2012 02951370 12 LAS 2016 USGS Lidar Point Cloud IN ET-B8-Jennings 2012 in2012 03051395 12 LAS 2016 USGS Lidar Point Cloud IN ET-B8-Jennings 2012 in2012 03101315 12 LAS 2016 USGS Lidar Point Cloud IN ET-B8-Jennings 2012 in2012 03101370 12 LAS 2016 USGS NED Original Product Resolution IN ET-B6-Delaware 2012 in2012 04051785 12 IMG 2017 USGS NED Original Product Resolution IN ET-B6-Delaware 2012 in2012 04051815 12 IMG 2017 USGS NED Original Product Resolution IN ET-B6-Delaware 2012 in2012 04101775 12 IMG 2017 USGS NED Original Product Resolution IN ET-B6-Delaware 2012 in2012 04101785 12 IMG 2017 USGS NED Original Product Resolution IN ET-B6-Delaware 2012 in2012 04101810 12 IMG 2017 USGS NED Original Product Resolution IN ET-B6-Delaware 2012 in2012 04151775 12 IMG 2017 USGS NED Original Product Resolution IN ET-B6-Delaware 2012 in2012 04151785 12 IMG 2017 USGS NED Original Product Resolution IN ET-B6-Delaware 2012 in2012 04151805 12 IMG 2017 USGS Lidar Point Cloud UT Wasatch-L5 2014 12SVK4000021000 LAS 2016 USGS Lidar Point Cloud UT Wasatch-L5 2014 12SVK4000026000 LAS 2016 USGS Lidar Point Cloud IN ET-B8-Jennings 2012 in2012 03101315 12 LAS 2016 USGS Lidar Point Cloud IN ET-B8-Jennings 2012 in2012 02901315 12 LAS 2016 USGS Lidar Point Cloud IN ET-B8-Jennings 2012 in2012 02951330 12 LAS 2016 USGS Lidar Point Cloud IN ET-B8-Jennings 2012 in2012 03101370 12 LAS 2016 USGS Lidar Point Cloud IN ET-B8-Jennings 2012 in2012 02951360 12 LAS 2016 USGS Lidar Point Cloud IN ET-B8-Jennings 2012 in2012 02951370 12 LAS 2016 USGS Lidar Point Cloud IN ET-B8-Jennings 2012 in2012 03051395 12 LAS 2016 USGS Lidar Point Cloud IN ET-B8-Jennings 2012 in2012 02901365 12 LAS 2016 USGS Lidar Point Cloud IN JohnsonCo 2011 in2011 02251520 12 LAS 2016 USGS Lidar Point Cloud IN JohnsonCo 2011 in2011 02201550 12 LAS 2016 USGS NED Original Product Resolution IN ET-B6-Delaware 2012 in2012 04101775 12 IMG 2017 USGS NED Original Product Resolution IN ET-B6-Delaware 2012 in2012 04051785 12 IMG 2017 USGS NED Original Product Resolution IN ET-B6-Delaware 2012 in2012 04151775 12 IMG 2017 USGS NED Original Product Resolution IN ET-B6-Delaware 2012 in2012 04101785 12 IMG 2017 USGS NED Original Product Resolution IN ET-B6-Delaware 2012 in2012 04151785 12 IMG 2017 USGS NED Original Product Resolution IN ET-B6-Delaware 2012 in2012 04051815 12 IMG 2017 USGS NED Original Product Resolution IN ET-B6-Delaware 2012 in2012 04101810 12 IMG 2017 USGS NED Original Product Resolution IN ET-B6-Delaware 2012 in2012 04151805 12 IMG 2017