State of Connecticut
2016
Connecticut Statewide LiDAR 2016
1.0
raster digital data
Connecticut
Capitol Region Council of Governments
http://crcog.org
This metadata record describes the hydro-flattened bare earth digital elevation model (DEM) derived from the classified LiDAR data for the 2016 Connecticut LiDAR project covering approximately 5,240 square miles.
To acquire detailed surface elevation data for use in conservation planning, design, research, floodplain mapping, dam safety assessments, and hydrologic modeling. LAS and bare earth DEM data products are suitable for 1 foot contour generation. USGS LiDAR Base Specification 1.2, QL2. 19.6 cm VVA.
Project Projection, Datums and Units. Projection - State Plane Connecticut. Horizontal datum - North American Datum of 1983 (NAD83 (2011)). Vertical datum - North American Vertical Datum of 1988 (NAVD88) using the latest geoid (Geoid12b) for converting ellipsoidal heights to orthometric heights. Units - US feet
en
2016031120160416
ground condition
Unknown
-73.745809
-71.782632
42.063615
40.971166
727500
1265000
947503
552503
CT
LiDAR
mapping
point cloud
Ground points
Unclassified points
Water points
Overlap points
ALS70
Intensity return
LAS
Digital Elevation Model (DEM)
Digital Terrain Model (DTM)
IMG
Grid
Bare Earth
First Return
Contour
CT
Connecticut
CT Statewide
United States
none
2016
This data may be used by the requested party for stated purposes and may be re-distributed.
This data is for planning purposes only and should not be used for legal or cadastral purposes. Any conclusions drawn from analysis of this information are not the responsibility of Sanborn Map Company. Users should be aware that temporal changes may have occurred since this dataset was collected and some parts of this dataset may no longer represent actual surface conditions. Users should not use these data for critical applications without a full awareness of its limitations.
Contact:
State of Connecticut
Erik D. Snowden
Capitol Region Council of Governments
IT/GIS Coordinator
mailing address
241 Main Street
Hartford
CT
06106
U.S.A.
860.522.2217 x217
esnowden@crcog.org
8:00 AM - 5:00 PM
860.724.1274
Microsoft Windows 7; ESRI ArcCatalog 9.3.1.1850
unknownUnclassifiedunknownBare Earth DEM
State of Connecticut:
The LiDAR surface was evaluated using a collection of 181 GPS surveyed checkpoints for the raw NVA report. The DEM was compared to these checkpoints yielding a better result than was required for the project.
Raw NVA Control Accuracy Report (feet)
--------- Report Disclaimer ---------
This report does not guarantee accuracy. The report only reflects one statistical representation of the control points, LIDAR data and surface used. This report does not replace a thorough quality control process.
--------- Report Summary ---------
Average dz 0.004
Minimum dz -0.829
Maximum dz 0.622
Average magnitude 0.170
Root mean square 0.227
Std deviation 0.228
----------------------------------------------------------------------------------------
Attribute accuracy is tested after the LiDAR processing stage. After classification of the LiDAR data, DEMs are created using the bare earth points. The NVA report is generated from the comparison of the DEM and the ground control collected within the project area.
The DEM surface was evaluated using a collection of 181 GPS surveyed checkpoints for the NVA report. The DEM was compared to these checkpoints yielding much better result than was required for the project.
NVA Control Accuracy Report (feet)
--------- Report Disclaimer ---------
This report does not guarantee accuracy. The report only reflects one statistical representation of the control points, LIDAR data and surface used. This report does not replace a thorough quality control process.
--------- Report Summary ---------
Average dz 0.004
Minimum dz -0.778
Maximum dz 0.576
Average magnitude 0.158
Root mean square 0.207
Std deviation 0.207
----------------------------------------------------------------------------------------
Attribute accuracy is tested after the LiDAR processing stage. After classification of the LiDAR data, DEMs are created using the bare earth points. The VVA report is generated from the comparison of the DEM and the ground control collected within the project area.
The DEM was evaluated using a collection of 95 GPS surveyed checkpoints. The DEM was compared to these checkpoints yielding much better result than was required for the project.
VVA Control Accuracy Report (feet)
--------- Report Disclaimer ---------
This report does not guarantee accuracy. The report only reflects one statistical representation of the control points, LIDAR data and surface used. This report does not replace a thorough quality control process.
--------- Report Summary ---------
Average dz 0.147
Minimum dz -0.771
Maximum dz 0.625
Average magnitude 0.212
Root mean square 0.261
Std deviation 0.217
----------------------------------------------------------------------------------------
LiDAR data is collected within the project area and processed. After the DEMs were created, the dataset was verified against control. Well-distributed control was collected for the entire state of Connecticut. Accuracy is reported for the state as a whole.
LiDAR data is collected for the project area. Post processing of the simultaneously acquired GPS/INS is performed and applied to the laser returns to output a point cloud in the specified project coordinate system and datums. The point cloud data is then subjected to automated classification routines to assign all points in the point cloud to ground, water, overlap and unclassified point classes. Anomalous laser returns that occur infrequently are removed entirely from the data set. Once clean bare earth points are established, DEMs are created using bare earth points and hydro features. The DEM surface is then compared to the survey checkpoints. These accuracies must pass the NVA and VVA accuracy specifications.
Horizontal positional accuracy for the Connecticut LiDAR is dependent upon the quality of the GPS/INS solution, sensor calibration and ground conditions at the time of data capture. The data set was produced to meet ASPRS Positional Accuracy Standards for Digital Geospatial Data (2014) for a 1.0 meter RMSEx/RMSEy.
1.0
For Connecticut, this value is computed by comparing ground control to a DEM derived from the classified LiDAR data and represents the RMSE of residuals on controls within the project area.
For the DEM data derived from the classified point cloud, the NVA and VVA were computed. The vertical accuracy was tested with independent survey check points located in various terrain types within Connecticut. These check points were not used in the calibration or post processing of the lidar point cloud data. The survey check points were distributed throughout the state. Specifications for this project require that the NVA be 19.6 cm or better @ 95 percent confidence level.
0.070m RMSE, or 0.138m NVA @ 95 percent Confidence Level
The raw NVA was tested using 181 independent survey check points located in flat terrain types within the state of Connecticut The survey checkpoints were distributed throughout the block area. The 181 independent check points were surveyed using static GPS base stations collecting point location for 20 minute intervals. Elevations were measured for the x,y,z location of each check point. Elevations interpolated from the DEM surface were then compared to the elevation values of the surveyed control. This data set was tested to meet ASPRS Positional Accuracy Standards for Digital Geospatial Data (2014) for a 10cm RMSEz Vertical Accuracy Class. Actual NVA accuracy was found to be RMSEz = 7cm, equating to +/- 13.8cm at 95% confidence level.
0.063m RMSE, or 0.125 m NVA @ 95 percent Confidence LevelThe NVA was tested using 181 independent survey check points located in bare earth terrain types within the state of Connecticut. The 181 independent check points contained all NVA points and were surveyed using static GPS base stations collecting point location for 20 minute intervals. Elevations were measured for the x,y,z location of each check point. Elevations interpolated from the DEM surface were then compared to the elevation values of the surveyed control. This data set was tested to meet ASPRS Positional Accuracy Standards for Digital Geospatial Data (2014) for a 10cm RMSEz Vertical Accuracy Class. Actual NVA accuracy was found to be RMSEz = 6.3cm, equating to +/- 12.5cm at 95% confidence level.The VVA was tested using 95 independent survey check points located in various vegetation terrain types within the state of Connecticut. The 95 independent check points were surveyed using static GPS base stations collecting point location for 20 minute intervals. Elevations were measured for the x,y,z location of each check point. Elevations interpolated from the DEM surface were then compared to the elevation values of the surveyed control. This data set was tested to meet ASPRS Positional Accuracy Standards for Digital Geospatial Data (2014) for a 10cm RMSEz Vertical Accuracy Class. Actual NVA accuracy was found to be RMSEz = 6.3cm, equating to +/- 12.5cm at 95% confidence level. Actual VVA accuracy was found to be +/- 17cm at the 95th percentile.0.080m RMSE, or 0.170m VVA @ 95th Percentile
Sanborn Map Company Inc.
Unpublished Material
LiDAR Data
1.0
Remote sensing image
None
None
disc
2016
ground condition
LIDAR and GPS_RAW
Aerial LiDAR and GPS/IMU data are recorded for the defined project area at an altitude, flight speed, scanner swath width and scanner pulse frequency to achieve the design goals of the project.
Sanborn Map Company Inc.
2010
Ground control
1.0
tabular digital data
None
None
disc
2016
Ground condition
CONT
Targeted ground control is used to create a digital control file and control report as well as QC check of LiDAR accuracy. Predefined points (NGS when available) within the project area are targeted.
Sanborn Map Company Inc.
Unpublished material
Post processed GPS/INS
1.0
Tabular digital data
1200
disk
2016
Ground condition
GPS
Post processed GPS/INS is applied to the lidar point data to georeference each point in the project coordinate system
Sanborn Map Company Inc.
Unpublished material
Post processed lidar
1.0
Point digital data
1200
Disk
2016
ground condition
LAS
The post processed lidar data has been projected and oriented in the specified coordinate system as an un-classified point cloud.
Sanborn Map Company Inc.
Unpublished material
Classified lidar
1.0
Point digital data
1200
disk
2016
ground condition
LAS
The classified lidar point cloud is used to derive various data products such as, but not limited to, bare earth gridded DEM, triangulated irregular networks (TIN), contours, digital surface models (DSM). The output format is fully compliant LAS v1.4, Point Record Format 6
Capitol Region Council of Governments
Unpublished Material
Tile Definition
1.0
raster digital data
1200
disk
2016
ground condition
TLDEF
The tile definition defines discreet non-overlapping rectangular areas used as cut lines to break up the large classified lidar dataset into smaller, more manageable data tiles. Each tile is 2500ft by 2500ft in dimension.
At selected locations throughout the site, accurate GPS coordinates and elevations are surveyed and the points are marked with targets.
None
2016
CONT
New LiDAR data is captured for the project area using a Leica ALS70 w/MPiA LiDAR instrument an integrated IPAS20 GPS/INS system mounted within a Aero Commander twin engine airplane.
None
2016
LIDAR, GPS_RAW
The airborne GPS data is post-processed in Intertial Explorer software and LEICA CloudPro software to determine the LiDAR sensor's angle and orientation in the terrain (project) coordinate system and datums during the survey.
GPS_RAW
2016
GPS_SOL
The post processed GPS/INS solution is applied to the raw lidar data to orient and project the data points into the project area reference system as an unclassified point cloud.
LIDAR, GPS_SOL
2016
LAS
The georeferenced lidar data is then classified and edited in Terrasolid Terrascan software. Data is classified to produce: Class 1: unclassified, Class 2: ground, Class 7: low point, Class 9: water, Class 10: ignored ground, Class 17: bridge deck, Class 18: high noise.
CONT, GPS_SOL, LIDAR
2016
LAS
The bare earth points of the processed lidar data are then output to a DEM tile format. The DEM is compared to the ground control and elevation differences between the surface and surveyed elevation are recorded in tabular form. Vertical accuracy statistics are then developed to produce vertical RMSE and overall accuracy estimates and reports.
CONT, LIDAR
2016
None
Raster
North American Datum of 1983 (2011)
Geodetic Reference System 80
6378137.000000
298.257222101004
GCS_North_American_1983NAD_1983_2011_State_Plane_Connecticut_FIPS_0600Lambert Conformal Conic41.241.8666666666667-72.7540.8333333333333999999.999996499999.999998coordinate pair22survey feet
North American Vertical Datum of 1988(GEOID12b)
0.1
feet
Explicit elevation coordinate included with horizontal coordinates
Erik D. Snowden
Capitol Region Council of Governments
IT/GIS Coordinator
mailing address
241 Main Street
Hartford
CT
06106
U.S.A.
860.522.2217 x217
esnowden@crcog.org
8:00 AM - 5:00 PM
860.724.1274
Connecticut 2016 LiDAR project
The Capitol Region Council of Governments digital data have been tested and their documentation carefully reviewed. However, the Capitol Region Council of Governments and its representatives make no warranty or representation, either expressed or implied, with respect to the digital data and their documentation, their quality, performance, merchantability, or fitness for a particular purpose. The digital data are distributed on "as is" basis, and the user assumes all risk to their quality, the results obtained from their use, and the performance of the data. In no event will the Capitol Region Council of Governments or its representatives be liable for any direct, indirect, special, incidental or consequential damages resulting from and defect in the State of Connecticut or in their documentation. This disclaimer of warranty is exclusive and in lieu of all others, oral or written, express or implied. No agent or employee is authorized to make any modification, extension, or addition to this warranty.
DEM
1.46.419800
http://crcog.org
unknown
5 - 1/2 inch hard driveLAS
unknown
Capitol Region Council of Governments
unknown
2016
2016
Shawn Benham
Sanborn Map Co
Project Manager
mailing address
1935 Jamboree Dr
Colorado Springs
CO
80920
U.S.A.
719.502.1296
sbenham@sanborn.com
8:00 AM - 5:00 PM
FGDC CSDGM
FGDC-STD-001-1998
201703230TRUE2017051815234500{8DE3DE1B-30AB-48D1-9B5B-D8574399589A}Local Area NetworkUSGS Base Specification 1.2, QL2 meeting 19.6 cm NVABare Earth - DEMBare Earth only
Classes:
2 - Bare-Earth Ground20170518