Thomas Loveland (Former Employee)
Science and Products
Filter Total Items: 143
A guide for the use of digital elevation model data for making soil surveys A guide for the use of digital elevation model data for making soil surveys
The intent of this publication is twofold: (1) to serve as a user guide for soil scientists and others interested in learning about the value and use of digital elevation model (DEM) data in making soil surveys and (2) to provide documentation of the Soil Landscape Analysis Project (SLAP). This publication provides a step-by-step guide on how digital slope-class maps are adjusted to...
Authors
A. A. Klingebiel, Emil H. Horvath, William U. Reybold, D. G. Moore, E. A. Fosnight, Thomas R. Loveland
A conceptual method for monitoring locust habitat A conceptual method for monitoring locust habitat
A procedure to map and monitor vegetation conditions in near-real time was developed at the United States Geological Survey;s Earth Resources Observation Systems Data Center for use in locust control efforts. Meteorological satellite dat were acquired daily for 3 weeks in October and November 1986 over a 1.4-million-square-kilometer study area centered on Botswana in southern Africa...
Authors
Stephen M. Howard, Thomas R. Loveland, Donald O. Ohlen, Donald G. Moore, Kevin P. Gallo, Jonathon Olsson
Producing Alaska interim land cover maps from Landsat digital and ancillary data Producing Alaska interim land cover maps from Landsat digital and ancillary data
In 1985, the U.S. Geological Survey initiated a research program to produce 1:250,000-scale land cover maps of Alaska using digital Landsat multispectral scanner data and ancillary data and to evaluate the potential of establishing a statewide land cover mapping program using this approach. The geometrically corrected and resampled Landsat pixel data are registered to a Universal...
Authors
Katherine Fitzpatrick-Lins, Eileen Flanagan Doughty, Mark Shasby, Thomas R. Loveland, Susan Benjamin
Applications of U.S. Geological Survey digital cartographic products, 1979-1983 Applications of U.S. Geological Survey digital cartographic products, 1979-1983
The U.S. Geological Survey prepares and distributes fundamental, multipurpose cartographic data to a wide range of users throughout the United States. Recognizing that traditional cartographic procedures will eventually be replaced by digital techniques, the USGS is now actively developing computer-based methods to produce digital cartographic products. The digital cartographic products...
Authors
Thomas R. Loveland, Benjamin S. Ramey
The role of remotely sensed and other special data for predictive modeling: the Umatilla, Oregon example The role of remotely sensed and other special data for predictive modeling: the Umatilla, Oregon example
Landsat data and 1:24 000-scale aerial photographs were initially used to map the expansion of irrigation from 1973 to 1979 and to identify crops under irrigation in 1979. The crop data were then used with historical water requirement figures and digital topographic and hydrographic data to estimate water and power use for the 1979 irrigation season. The final project task involved...
Authors
Thomas R. Loveland, Gary E. Johnson
Evaluation of AMOEBA: a spectral-spatial classification method Evaluation of AMOEBA: a spectral-spatial classification method
Muitispectral remotely sensed images have been treated as arbitrary multivariate spectral data for purposes of clustering and classifying. However, the spatial properties of image data can also be exploited. AMOEBA is a clustering and classification method that is based on a spatially derived model for image data. In an evaluation test, Landsat data were classified with both AMOEBA and a...
Authors
Susan K. Jenson, Thomas R. Loveland, J. Bryant
Science and Products
Filter Total Items: 143
A guide for the use of digital elevation model data for making soil surveys A guide for the use of digital elevation model data for making soil surveys
The intent of this publication is twofold: (1) to serve as a user guide for soil scientists and others interested in learning about the value and use of digital elevation model (DEM) data in making soil surveys and (2) to provide documentation of the Soil Landscape Analysis Project (SLAP). This publication provides a step-by-step guide on how digital slope-class maps are adjusted to...
Authors
A. A. Klingebiel, Emil H. Horvath, William U. Reybold, D. G. Moore, E. A. Fosnight, Thomas R. Loveland
A conceptual method for monitoring locust habitat A conceptual method for monitoring locust habitat
A procedure to map and monitor vegetation conditions in near-real time was developed at the United States Geological Survey;s Earth Resources Observation Systems Data Center for use in locust control efforts. Meteorological satellite dat were acquired daily for 3 weeks in October and November 1986 over a 1.4-million-square-kilometer study area centered on Botswana in southern Africa...
Authors
Stephen M. Howard, Thomas R. Loveland, Donald O. Ohlen, Donald G. Moore, Kevin P. Gallo, Jonathon Olsson
Producing Alaska interim land cover maps from Landsat digital and ancillary data Producing Alaska interim land cover maps from Landsat digital and ancillary data
In 1985, the U.S. Geological Survey initiated a research program to produce 1:250,000-scale land cover maps of Alaska using digital Landsat multispectral scanner data and ancillary data and to evaluate the potential of establishing a statewide land cover mapping program using this approach. The geometrically corrected and resampled Landsat pixel data are registered to a Universal...
Authors
Katherine Fitzpatrick-Lins, Eileen Flanagan Doughty, Mark Shasby, Thomas R. Loveland, Susan Benjamin
Applications of U.S. Geological Survey digital cartographic products, 1979-1983 Applications of U.S. Geological Survey digital cartographic products, 1979-1983
The U.S. Geological Survey prepares and distributes fundamental, multipurpose cartographic data to a wide range of users throughout the United States. Recognizing that traditional cartographic procedures will eventually be replaced by digital techniques, the USGS is now actively developing computer-based methods to produce digital cartographic products. The digital cartographic products...
Authors
Thomas R. Loveland, Benjamin S. Ramey
The role of remotely sensed and other special data for predictive modeling: the Umatilla, Oregon example The role of remotely sensed and other special data for predictive modeling: the Umatilla, Oregon example
Landsat data and 1:24 000-scale aerial photographs were initially used to map the expansion of irrigation from 1973 to 1979 and to identify crops under irrigation in 1979. The crop data were then used with historical water requirement figures and digital topographic and hydrographic data to estimate water and power use for the 1979 irrigation season. The final project task involved...
Authors
Thomas R. Loveland, Gary E. Johnson
Evaluation of AMOEBA: a spectral-spatial classification method Evaluation of AMOEBA: a spectral-spatial classification method
Muitispectral remotely sensed images have been treated as arbitrary multivariate spectral data for purposes of clustering and classifying. However, the spatial properties of image data can also be exploited. AMOEBA is a clustering and classification method that is based on a spatially derived model for image data. In an evaluation test, Landsat data were classified with both AMOEBA and a...
Authors
Susan K. Jenson, Thomas R. Loveland, J. Bryant