Coosa River Bank Topography and Comparisons at Logan Martin Dam sites LM102 and LM108, near Vincent, Alabama, October 2014 - July 2017
Dates
Publication Date
2019-02-26
Start Date
2014-10-16
End Date
2017-07-18
Citation
Huizinga, R.J., and Wagner, D.M., 2019, Erosion Monitoring along the Coosa River, Alabama, using Terrestrial Light Detection and Ranging (T-LiDAR) Technology, 2014-2017: U.S. Geological Survey data release, https://doi.org/10.5066/F7GF0SS8.
Summary
These datasets contain XYZ locations and other attributes of points from topographic bank surveys of sites LM102 and LM108 downstream from Logan Martin Dam near Vincent, Alabama, from October 16, 2014, through July 18, 2017. Topographic data were collected using a tripod-based terrestrial LiDAR (T-LiDAR) system at several tripod setups distributed throughout the reach. Data collection software integrated and stored the range and angular measurements from the T-LiDAR. Computer software was utilized to process the raw data files, align the various scans in reference to one another, and extract the topography data in a usable format. Point cloud comparison software was then used to compute the distance and volume gain or loss between [...]
Summary
These datasets contain XYZ locations and other attributes of points from topographic bank surveys of sites LM102 and LM108 downstream from Logan Martin Dam near Vincent, Alabama, from October 16, 2014, through July 18, 2017. Topographic data were collected using a tripod-based terrestrial LiDAR (T-LiDAR) system at several tripod setups distributed throughout the reach. Data collection software integrated and stored the range and angular measurements from the T-LiDAR. Computer software was utilized to process the raw data files, align the various scans in reference to one another, and extract the topography data in a usable format. Point cloud comparison software was then used to compute the distance and volume gain or loss between surveys.
Click on title to download individual files attached to this item.
Coosa_River_bank_lidar_LM102_LM108.xml Original FGDC Metadata
View
13.97 KB
application/fgdc+xml
Coosa_River_bank_lidar_LM102_201410_201707_dif.bmp “Preview of difference between surveys at site LM102, October 2014 to July 2017”
3.43 MB
image/bmp
Coosa_River_bank_lidar_LM108_201410_201707_dif.bmp “Preview of difference between surveys at site LM108, October 2014 to July 2017”
3.55 MB
image/bmp
Coosa_River_bank_lidar_LM102_Survey_Data.zip
346.12 MB
application/zip
Coosa_River_bank_lidar_LM102_Comparison_Data.zip
36.03 MB
application/zip
Coosa_River_bank_lidar_LM108_Survey_Data.zip
340.67 MB
application/zip
Coosa_River_bank_lidar_LM108_Comparison_Data.zip
26.18 MB
application/zip
LoganMartin_DailyFlow.zip
20.38 KB
application/zip
Purpose
Topographic data were collected within the study area to capture the geomorphological characteristics of the above-water portions of the river bank. These data are intended for science researchers, policy makers, and hydraulic engineers interested in assessing the condition of the channel bank, and to monitor changes with time.
The bmp raster files were included to provide a preview of the difference data contained in these datasets.
The attached zip folders called "Coosa_River_bank_lidar_LM102_Survey_Data.zip" and "Coosa_River_bank_lidar_LM108_Survey_Data.zip" each contain 6 separate folders; each folder contains an ASCII text file with XYZ data and a bmp raster preview image for a given survey date at the site. Additionally, metadata is included for each text file and raster pair.
The attached zip folders called "Coosa_River_bank_lidar_LM102_Comparison_Data.zip" and "Coosa_River_bank_lidar_LM108_Comparison_Data.zip" each contain 6 separate folders; each folder contains an ASCII text file with XYZ difference data and a bmp raster preview image for a given time interval between surveys at the site. Additionally, metadata is included for each text file and raster pair.
The attached zip folder called "LoganMartin_DailyFlow.zip" contains a comma-delimited file with the daily mean flows for the site for the period covering the 6 surveys, a pdf raster preview image, and metadata.
Preview Image
Preview of difference between surveys at site LM102, October 2014 to July 2017