2005 Southwest Florida Water Management District (SWFWMD) Lidar: Manatee District
The Light Detection and Ranging (LiDAR) LAS dataset is a survey of select areas within
Southwest Florida. These data were produced for the Southwest Florida Water Management
District (SWFWMD). The Manatee / Little Manatee LiDAR Survey project area consists
of approximately 176 square miles. This data set falls in Manatee County. The LiDAR
point cloud was flown at a density sufficient to support a maximum final post spacing
of 6 feet for unobscured areas. 3001 inc. acquired 445 flightlines between February
11, 2005 and April 14, 2005. The data was divided into 5000' by 5000' foot cells that
serve as the tiling scheme. The Manatee / Little Manatee LiDAR Survey was collected
under the guidance of a Professional Mapper/Surveyor.
Cite this dataset when used as a source.
|Search and Download
|| Distributor information not available
| Point of Contact
||Mapping and GIS Section
Southwest Florida Water Management District
- Southwest Florida Water Management District (SWFWMD)
|Data Presentation Form:
|| Digital image
|Dataset Progress Status
|Data Update Frequency:
|| Not planned
||3001 inc. also acquired 97 flightlines between April 3, 2005 and April 11, 2005 for
the Little Manatee District data set.
||The Southwest Florida Water Management District uses topographic information to support
regulatory, land management and acquisition, planning, engineering, and habitat restoration
projects. The Manatee / Little Manatee LiDAR Survey data will support the creation
of Federal Emergency Management Agency Flood Insurance Rate Maps (FEMA FIRM) and an
integrated ground and surface water model for the Peace River Watershed. All data
will be public record as defined by applicable Florida statutes. The Manatee / Little
Manatee LiDAR Survey was collected under the guidance of a licensed and professional
Surveyor and Mapper.
||2005-02-11 to 2005-04-14
|Spatial Reference System:
|Spatial Bounding Box Coordinates:
|Spatial Coverage Map:
- Stereo Photogrammetry
- LAS v.1.0
- Southwest Florida
- Manatee County
- Buffalo Canal
- Frog & Gamble Creek
| Use Constraints
|| No constraint information available
|| Fee information not available.
|| Lineage statement not available.
- 3001 Inc.
- 3001 Inc.
- 3001 Inc.
- DOC/NOAA/NESDIS/NGDC > National Geophysical Data Center, NESDIS, NOAA, U.S. Department
| Processing Steps
- The ABGPS, inertial measurement unit (IMU), and raw scans are collected during the
LiDAR aerial survey. The ABGPS monitors the xyz position of the sensor and the IMU
monitors the orientation. During the aerial survey laser pulses reflected from features
on the ground surface are detected by the receiver optics and collected by the data
logger. GPS locations are based on data collected by receivers on the aircraft and
base stations on the ground. The ground base stations are placed no more than 35 km
radius from the flight survey area.
- The ABGPS, IMU, and raw scans are integrated using proprietary software developed
by the Leica Geosystems and delivered with the Leica ALS50 System. The resultant file
is in a LAS binary file format. The LAS file version 1.0 format can be easily transferred
from one file format to another. It is a binary file format that maintains information
specific to the LiDAR data (return#, intensity value, xyz, etc.). The resultant points
are produced in the State Plane Florida West coordinate system, with units in feet
and referenced to the NAD83 horizontal datum and NAVD88 vertical datum.
- The unedited data are classified to facilitate the application of the appropriate
feature extraction filters. A combination of proprietary filters is applied as appropriate
for the production of bare earth digital terrain models (DTMs). Interactive editing
methods are applied to those areas where it is inappropriate or impossible to use
the feature extraction filters, based upon the design criteria and/or limitations
of the relevant filters. These same feature extraction filters are used to produce
elevation height surfaces.
- Filtered and edited data are subjected to rigorous QA/QC according to the 3001 Inc.
Quality Control Plan and procedures. Very briefly, a series of quantitative and visual
procedures are employed to validate the accuracy and consistency of the filtered and
edited data. Ground control is established by 3001, Inc. and GPS-derived ground control
points (GCPs) points in various areas of dominant and prescribed land cover. These
points are coded according to land cover, surface material and ground control suitability.
A suitable number of points are selected for calculation of a statistically significant
accuracy assessment as per the requirements of the National Standard for Spatial Data
Accuracy. A spatial proximity analysis is used to select edited lidar data points
within a specified distance of the relevant GCPs. A search radius decision rule is
applied with consideration of terrain complexity, cumulative error and adequate sample
size. Accuracy validation and evaluation is accomplished using proprietary software
to apply relevant statistical routines for calculation of Root Mean Square Error (RMSE)
and the National Standard for Spatial Data Accuracy (NSSDA) according to Federal Geographic
Data Committee (FGDC) specifications.
- The LiDAR mass points were delivered in American Society for Photogrammetry and Remote
Sensing LAS 1.0 format. The header file for each dataset is complete as define by
the LAS 1.0 specification. In addition the following fields are included: Flight Date
Julian, Year, and Class. The LAS files do not include overlap. The data was classified
as follows: Class 1 = Unclassified. This class includes vegetation, buildings, noise
etc. Class 2 = Ground Class 3 = Water The datasets were delivered in the Districts
standard 5000' by 5000' tiling scheme. The tiles are contiguous and do not overlap.
The tiles are suitable for seamless topographic data mosaics that include no "no data"
areas. The names of the tiles are left padded with zeros as required to achieve a
five character length and all files utilize the LAS file extension.
- The NOAA Coastal Services Center (CSC) received the files in LAS format. The files
contained Lidar elevation measurements. The data was in Florida State Plane Projection
and NAVD88 vertical datum. CSC performed the following processing to the data to make
it available within the LDART Retrieval Tool (LDART): 1. The data were converted from
Florida State Plane West coordinates to geographic coordinates. 2. The data were converted
from NAVD88 (orthometric) heights to GRS80 (ellipsoid) heights using Geoid 99. 3.
The LAS data were sorted by latitude and the headers were updated.
- The NOAA National Geophysical Data Center (NGDC) received lidar data files via ftp
transfer from the NOAA Coastal Services Center. The data are
currently being served via NOAA CSC Digital Coast at http://www.csc.noaa.gov/digitalcoast/.
The data can be used to re-populate the system. The data are archived in LAS
or LAZ format. The LAS format is an industry standard for LiDAR data developed by
the American Society of Photogrammetry and Remote Sensing (ASPRS); LAZ is a loseless
compressed version of LAS developed by Martin Isenburg (http://www.laszip.org/). The
data are exclusively in geographic coordinates (either NAD83 or ITRF94). The data
are referenced vertically to the ellipsoid (either GRS80 or ITRF94), allowing for
the ability to apply the most up to date geoid model when transforming to orthometric
Metadata Last Modified: 2013-05-07
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