2011 Geothermal Technologies Program Peer Review Presentation summarizing relevance, proposed approach, and logistics of the Glass Buttes Exploration and Drilling.
The Vermont LiDAR Initiative (VTLI) was created in 2012 by the Vermont Center for Geographic Information (VCGI) as a strategic response to Hurricane Irene with the goals of supporting the coordination, acquisition and dissemination of statewide LiDAR. The initiative is supported by the “LiDAR Workgroup” currently comprised of federal, state and local partners : U.S. Geological Survey, National Resource Conservation Service, UVM Spatial Analysis Lab, VT Assoc. of Planning & Dev. Agencies, VCGI, VT Agencies of Agriculture, Natural Resources & Transportation, Lake Champlain Basin Program, U.S. Forest Service, VT Sustainable Jobs Fund and the VT Geological Survey. For more information go to the VTLI home page &"vcgi.vermont.gov/lidar&".
This page contains links to all available GIS elevation datasets, services, and related applications.
Glass Buttes Exploration and Drilling: 2010 Geothermal Technologies Program Peer Review Presentation, Walsh, et al, Ormat
The Vermont LiDAR Initiative (VTLI) was created in 2012 by the Vermont Center for Geographic Information (VCGI) as a strategic response to Hurricane Irene with the goals of supporting the coordination, acquisition and dissemination of statewide LiDAR. The initiative is supported by the “LiDAR Workgroup” currently comprised of federal, state and local partners : U.S. Geological Survey, National Resource Conservation Service, UVM Spatial Analysis Lab, VT Assoc. of Planning & Dev. Agencies, VCGI, VT Agencies of Agriculture, Natural Resources & Transportation, Lake Champlain Basin Program, U.S. Forest Service, VT Sustainable Jobs Fund and the VT Geological Survey. For more information go to the VTLI home page &"vcgi.vermont.gov/lidar&".
The Vermont LiDAR Initiative (VTLI) was created in 2012 by the Vermont Center for Geographic Information (VCGI) as a strategic response to Hurricane Irene with the goals of supporting the coordination, acquisition and dissemination of statewide LiDAR. The initiative is supported by the “LiDAR Workgroup” currently comprised of federal, state and local partners : U.S. Geological Survey, National Resource Conservation Service, UVM Spatial Analysis Lab, VT Assoc. of Planning & Dev. Agencies, VCGI, VT Agencies of Agriculture, Natural Resources & Transportation, Lake Champlain Basin Program, U.S. Forest Service, VT Sustainable Jobs Fund and the VT Geological Survey. For more information go to the VTLI home page &"vcgi.vermont.gov/lidar&".
Using LiDAR to identify structural and volcanic evolution of a Miocene-Pleistocene age bimodal volcanic complex and implications for geothermal potential. The file includes an updated geologic map, methods, and preliminary results.
**Overview** Scaled Wind Farm Technology (SWiFT) Facility meteorological tower (MET), turbine, and Technical University of Denmark (DTU) SpinnerLidar data acquired on 20161216 UTC during a neutral atmospheric boundary layer inflow at a single focus distance of 2.5 D (D=27 m). **Data Quality** Data information is provided in uploaded documentation: *SWiFT Wake Steering Instrumentation and Data Processing* (PDF).
**Data Details** UMBC Lidar: Water Tank: lat(40.041) lon(-105) alt(1602) 20150410-20150416 NW Pad: lat(40.051) lon(-105) alt(1578) 20150416-20150428 Visitor's Center: lat(40.045) lon(-105) alt(1587) 20150428 - 20150502
**Data Details** UMBC Lidar: Water Tank: lat(40.041) lon(-105) alt(1602) 20150410-20150416 NW Pad: lat(40.051) lon(-105) alt(1578) 20150416-20150428 Visitor's Center: lat(40.045) lon(-105) alt(1587) 20150428 - 20150502
**Data Details** UMBC Lidar: Water Tank: lat(40.041) lon(-105) alt(1602) 20150410-20150416 NW Pad: lat(40.051) lon(-105) alt(1578) 20150416-20150428 Visitor's Center: lat(40.045) lon(-105) alt(1587) 20150428 - 20150502
**Overview** fixed scan against southeast sonic of 50m, 100m and 150m and supersite at 60m height **Data Quality** unfiltered data **Uncertainty** raw data **Constraints**
**Overview** fixed scan against southeast sonic of 50m, 100m and 150m and supersite at 60m height **Data Quality** unfiltered data **Uncertainty** raw data **Constraints**
**Overview** fixed scan against southeast sonic of 50m, 100m and 150m and supersite at 60m height **Data Quality** unfiltered data **Uncertainty** raw data **Constraints**
Multiple data sets converge on a geologic structural model for Glass Buttes, Oregon geothermal prospect, Patrick Walsh, Brigette Martini, Chet Lide, Darrick Boschmann, John DIlles, Andrew Meigs, 2010 Ormat Nevada, Zonge Geophysical, Oregon State University American Geophysical Union, Poster Session
The Vermont LiDAR Initiative (VTLI) was created in 2012 by the Vermont Center for Geographic Information (VCGI) as a strategic response to Hurricane Irene with the goals of supporting the coordination, acquisition and dissemination of statewide LiDAR. The initiative is supported by the “LiDAR Workgroup” currently comprised of federal, state and local partners : U.S. Geological Survey, National Resource Conservation Service, UVM Spatial Analysis Lab, VT Assoc. of Planning & Dev. Agencies, VCGI, VT Agencies of Agriculture, Natural Resources & Transportation, Lake Champlain Basin Program, U.S. Forest Service, VT Sustainable Jobs Fund and the VT Geological Survey. For more information go to the VTLI home page &"vcgi.vermont.gov/lidar&".
The Vermont LiDAR Initiative (VTLI) was created in 2012 by the Vermont Center for Geographic Information (VCGI) as a strategic response to Hurricane Irene with the goals of supporting the coordination, acquisition and dissemination of statewide LiDAR. The initiative is supported by the “LiDAR Workgroup” currently comprised of federal, state and local partners : U.S. Geological Survey, National Resource Conservation Service, UVM Spatial Analysis Lab, VT Assoc. of Planning & Dev. Agencies, VCGI, VT Agencies of Agriculture, Natural Resources & Transportation, Lake Champlain Basin Program, U.S. Forest Service, VT Sustainable Jobs Fund and the VT Geological Survey. For more information go to the VTLI home page &"vcgi.vermont.gov/lidar&".
The Vermont LiDAR Initiative (VTLI) was created in 2012 by the Vermont Center for Geographic Information (VCGI) as a strategic response to Hurricane Irene with the goals of supporting the coordination, acquisition and dissemination of statewide LiDAR. The initiative is supported by the “LiDAR Workgroup” currently comprised of federal, state and local partners : U.S. Geological Survey, National Resource Conservation Service, UVM Spatial Analysis Lab, VT Assoc. of Planning & Dev. Agencies, VCGI, VT Agencies of Agriculture, Natural Resources & Transportation, Lake Champlain Basin Program, U.S. Forest Service, VT Sustainable Jobs Fund and the VT Geological Survey. For more information go to the VTLI home page &"vcgi.vermont.gov/lidar&".
The Vermont LiDAR Initiative (VTLI) was created in 2012 by the Vermont Center for Geographic Information (VCGI) as a strategic response to Hurricane Irene with the goals of supporting the coordination, acquisition and dissemination of statewide LiDAR. The initiative is supported by the “LiDAR Workgroup” currently comprised of federal, state and local partners : U.S. Geological Survey, National Resource Conservation Service, UVM Spatial Analysis Lab, VT Assoc. of Planning & Dev. Agencies, VCGI, VT Agencies of Agriculture, Natural Resources & Transportation, Lake Champlain Basin Program, U.S. Forest Service, VT Sustainable Jobs Fund and the VT Geological Survey. For more information go to the VTLI home page &"vcgi.vermont.gov/lidar&".
The National Renewable Energy Laboratory's (NREL) Photovoltaic (PV) Rooftop Database (PVRDB) is a lidar-derived, geospatially-resolved dataset of suitable roof surfaces and their PV technical potential for 128 metropolitan regions in the United States. The PVRDB data are organized by city and year of lidar collection. Five geospatial layers are available for each city and year: 1) the raster extent of the lidar collection, 2) buildings identified from the lidar data, 3) suitable developable planes for each building, 4) aspect values of the developable planes, and 5) the technical potential estimates of the developable planes.
The National Renewable Energy Laboratory's (NREL) PV Rooftop Database for Puerto Rico (PVRDB-PR) is a lidar-derived, geospatially-resolved dataset of suitable roof surfaces and their PV technical potential for virtually all buildings in Puerto Rico. The dataset can be downloaded at the AWS S3 explorer page. The GitHub documentation page provides a description of the dataset with methods and assumptions. The Puerto Rico Solar-For-All dataset provides Census Tract level estimates of residential low-to-moderate income (LMI) PV rooftop technical potential as well as solar electric bill savings potential for LMI communities at the municipality level.
The Glass Buttes Project includes combining a suite of high-resolution geophysical and geochemical techniques to reduce exploration risk by characterizing hydrothermal alteration, fault geometries and relationships. This is aided through geologic observation, modern remote sensing and geophysical techniques which analyze and structurally model this area prior to siting and drilling.
The Vermont LiDAR Initiative (VTLI) was created in 2012 by the Vermont Center for Geographic Information (VCGI) as a strategic response to Hurricane Irene with the goals of supporting the coordination, acquisition and dissemination of statewide LiDAR. The initiative is supported by the “LiDAR Workgroup” currently comprised of federal, state and local partners : U.S. Geological Survey, National Resource Conservation Service, UVM Spatial Analysis Lab, VT Assoc. of Planning & Dev. Agencies, VCGI, VT Agencies of Agriculture, Natural Resources & Transportation, Lake Champlain Basin Program, U.S. Forest Service, VT Sustainable Jobs Fund and the VT Geological Survey. For more information go to the VTLI home page &"vcgi.vermont.gov/lidar&".
The Vermont LiDAR Initiative (VTLI) was created in 2012 by the Vermont Center for Geographic Information (VCGI) as a strategic response to Hurricane Irene with the goals of supporting the coordination, acquisition and dissemination of statewide LiDAR. The initiative is supported by the “LiDAR Workgroup” currently comprised of federal, state and local partners : U.S. Geological Survey, National Resource Conservation Service, UVM Spatial Analysis Lab, VT Assoc. of Planning & Dev. Agencies, VCGI, VT Agencies of Agriculture, Natural Resources & Transportation, Lake Champlain Basin Program, U.S. Forest Service, VT Sustainable Jobs Fund and the VT Geological Survey. For more information go to the VTLI home page &"vcgi.vermont.gov/lidar&".
The U.S. Geological Survey (USGS) National Geospatial Program is developing the 3D Elevation Program (3DEP) to respond to growing needs for high-quality topographic data and for a wide range of other three-dimensional (3D) representations of the Nation's natural and constructed features. The primary goal of 3DEP is to systematically collect 3D elevation data in the form of light detection and ranging (lidar) data over the conterminous United States, Hawaii, and the U.S. territories, with data acquired over an 8-year period. Interferometric synthetic aperture radar (ifsar) data will be acquired for Alaska, where cloud cover and remote locations preclude the use of lidar in much of the State. The 3DEP initiative is based on the results of the National Enhanced Elevation Assessment that documented more than 600 business uses across 34 Federal agencies, all 50 States, selected local government and Tribal offices, and private and nonprofit organizations. A fully funded and implemented 3DEP would provide more than $690 million annually in new benefits to government entities, the private sector, and citizens.
Validation of Innovative Exploration Technologies for Newberry Volcano: LiDAR of Newberry Volcano 2012