Add to ORKGMeasurements of lake ice thickness were made during March 1975 at the Straits of Mackinac by using a short-pulse radar system aboard an all-terrain vehicle. These measurements were compared with ice thicknesses determined with an auger. Over 25 sites were explored which had ice thicknesses in the range 29 to 60 cm. The maximum difference between radar and auger measurements was less than 9.8 percent. The magnitude of the error was less than + or - 3.5 cm. The NASA operating short-pulse radar system used in monitoring lake ice thickness from an aircraft is also described
This is the published version. Copyright International Glaciological SocietyThe University of Kansas...
Radar sounding is a technique used in recent years to determine the thickness of ice sheets and glac...
The ability to measure the radar scattering coefficient of ice with a helicopter or surface spectrom...
An airborne short-pulse radar system to measure ice thickness was designed. The system supported an ...
Design and operation of short pulse radar systems for use in ice thickness measurement are described...
The acquisition and interpretation of ice thickness data from a mobile platform has for some time be...
A description is given of the NASA developed all-weather ice information system for the Great Lakes ...
A system is described which utilizes an X-band Side-Looking-Airborne-Radar (SLAR) for determining ty...
A series of X-band SLAR images is presented showing the development and disintegration of the entire...
Results from using an impulse radar sounding system on the North Slope of Alaska to detect the exist...
This is the published version, also available here: http://dx.doi.org/10.1029/2001JD900183.We develo...
Success is reported in the radar monitoring of such features of sea ice as concentration, floe size,...
Radar altimeters, scatterometers, and imaging radar are described in terms of their functions, futur...
Lakes are a key geographical feature in Canada and have an impact on the regional climate. In the wi...
Author Institution: Department of Geology, Bowling Green State University, Bowling Green, Ohio 43403...
This is the published version. Copyright International Glaciological SocietyThe University of Kansas...
Radar sounding is a technique used in recent years to determine the thickness of ice sheets and glac...
The ability to measure the radar scattering coefficient of ice with a helicopter or surface spectrom...
An airborne short-pulse radar system to measure ice thickness was designed. The system supported an ...
Design and operation of short pulse radar systems for use in ice thickness measurement are described...
The acquisition and interpretation of ice thickness data from a mobile platform has for some time be...
A description is given of the NASA developed all-weather ice information system for the Great Lakes ...
A system is described which utilizes an X-band Side-Looking-Airborne-Radar (SLAR) for determining ty...
A series of X-band SLAR images is presented showing the development and disintegration of the entire...
Results from using an impulse radar sounding system on the North Slope of Alaska to detect the exist...
This is the published version, also available here: http://dx.doi.org/10.1029/2001JD900183.We develo...
Success is reported in the radar monitoring of such features of sea ice as concentration, floe size,...
Radar altimeters, scatterometers, and imaging radar are described in terms of their functions, futur...
Lakes are a key geographical feature in Canada and have an impact on the regional climate. In the wi...
Author Institution: Department of Geology, Bowling Green State University, Bowling Green, Ohio 43403...
This is the published version. Copyright International Glaciological SocietyThe University of Kansas...
Radar sounding is a technique used in recent years to determine the thickness of ice sheets and glac...
The ability to measure the radar scattering coefficient of ice with a helicopter or surface spectrom...