Remote Sensing and Geology of Glass Buttes, Oregon
This data set includes Light Detection and Ranging (LiDAR) data, a remote sensing processing report, and a geologic map of the Glass Buttes study area for ORMAT.
The total area flown for the LiDAR remote sensing was 86,631 acres to fully encompass the area of interest (84,849 acres). The "LiDAR Remote Sensing Report" reflects statistics for the overall LiDAR survey.
An airborne hyperspectral scanner imagery survey over an area in Glass Buttes, Oregon. The "HyMap Survey Processing Report" describes the processing that has been applied to the HyMap data to produce a number of image products including overview colour composites, decorrelation colour composites, minimum noise fraction (MNF) colour composites, and unmixed end-member mineral map. To produce these products the data first has various processes applied to it that converts the raw data into reflectance imagery which is then geometrically corrected and radiometrically leveled so that seamless image mosaics are produced.
A detailed geologic map with cross sections of the Glass Buttes Volcanic Complex, Oregon is also included.
Citation Formats
TY - DATA
AB - This data set includes Light Detection and Ranging (LiDAR) data, a remote sensing processing report, and a geologic map of the Glass Buttes study area for ORMAT.
The total area flown for the LiDAR remote sensing was 86,631 acres to fully encompass the area of interest (84,849 acres). The "LiDAR Remote Sensing Report" reflects statistics for the overall LiDAR survey.
An airborne hyperspectral scanner imagery survey over an area in Glass Buttes, Oregon. The "HyMap Survey Processing Report" describes the processing that has been applied to the HyMap data to produce a number of image products including overview colour composites, decorrelation colour composites, minimum noise fraction (MNF) colour composites, and unmixed end-member mineral map. To produce these products the data first has various processes applied to it that converts the raw data into reflectance imagery which is then geometrically corrected and radiometrically leveled so that seamless image mosaics are produced.
A detailed geologic map with cross sections of the Glass Buttes Volcanic Complex, Oregon is also included.
AU - Akerley, John
A2 - Hussey, M. C.
A3 - Boschmann, Darrick E.
DB - Open Energy Data Initiative (OEDI)
DP - Open EI | National Renewable Energy Laboratory
DO - 10.15121/1495421
KW - geothermal
KW - oregon
KW - glass buttes
KW - LiDAR
KW - remote sensing
KW - Lake County
KW - color composite
KW - colour composite
KW - minimum noise fraction
KW - MNF
KW - mineral map
KW - geologic map
KW - volcanic
KW - geology
KW - cross section
KW - hyperspectral remote sensing
KW - HyMap
KW - light detection and ranging
KW - airborne survey
KW - instrumentation and methods
KW - ground survey
KW - GPS data
KW - IMU data
KW - inertial measurement
KW - laser point processing
KW - point data
KW - vector data
KW - raster data
KW - data report
KW - projection
KW - volcanic complex
LA - English
DA - 2010/06/21
PY - 2010
PB - Ormat Nevada Inc
T1 - Remote Sensing and Geology of Glass Buttes, Oregon
UR - https://doi.org/10.15121/1495421
ER -
Akerley, John, et al. Remote Sensing and Geology of Glass Buttes, Oregon. Ormat Nevada Inc, 21 June, 2010, GDR. https://doi.org/10.15121/1495421.
Akerley, J., Hussey, M., & Boschmann, D. (2010). Remote Sensing and Geology of Glass Buttes, Oregon. [Data set]. GDR. Ormat Nevada Inc. https://doi.org/10.15121/1495421
Akerley, John, M. C. Hussey, and Darrick E. Boschmann. Remote Sensing and Geology of Glass Buttes, Oregon. Ormat Nevada Inc, June, 21, 2010. Distributed by GDR. https://doi.org/10.15121/1495421
@misc{OEDI_Dataset_7050,
title = {Remote Sensing and Geology of Glass Buttes, Oregon},
author = {Akerley, John and Hussey, M. C. and Boschmann, Darrick E.},
abstractNote = {This data set includes Light Detection and Ranging (LiDAR) data, a remote sensing processing report, and a geologic map of the Glass Buttes study area for ORMAT.
The total area flown for the LiDAR remote sensing was 86,631 acres to fully encompass the area of interest (84,849 acres). The "LiDAR Remote Sensing Report" reflects statistics for the overall LiDAR survey.
An airborne hyperspectral scanner imagery survey over an area in Glass Buttes, Oregon. The "HyMap Survey Processing Report" describes the processing that has been applied to the HyMap data to produce a number of image products including overview colour composites, decorrelation colour composites, minimum noise fraction (MNF) colour composites, and unmixed end-member mineral map. To produce these products the data first has various processes applied to it that converts the raw data into reflectance imagery which is then geometrically corrected and radiometrically leveled so that seamless image mosaics are produced.
A detailed geologic map with cross sections of the Glass Buttes Volcanic Complex, Oregon is also included.},
url = {https://gdr.openei.org/submissions/857},
year = {2010},
howpublished = {GDR, Ormat Nevada Inc, https://doi.org/10.15121/1495421},
note = {Accessed: 2025-05-04},
doi = {10.15121/1495421}
}
https://dx.doi.org/10.15121/1495421
Details
Data from Jun 21, 2010
Last updated Feb 21, 2019
Submitted Oct 6, 2016
Organization
Ormat Nevada Inc
Contact
John Akerley
Authors
Original Source
https://gdr.openei.org/submissions/857Research Areas
Keywords
geothermal, oregon, glass buttes, LiDAR, remote sensing, Lake County, color composite, colour composite, minimum noise fraction, MNF, mineral map, geologic map, volcanic, geology, cross section, hyperspectral remote sensing, HyMap, light detection and ranging, airborne survey, instrumentation and methods, ground survey, GPS data, IMU data, inertial measurement, laser point processing, point data, vector data, raster data, data report, projection, volcanic complexDOE Project Details
Project Name Merging High-Resoultion Geophysical and Geochemical Surveys to Reduce Risk at Glass Buttes, Oregon
Project Lead Mike Weathers
Project Number EE0002836
