Acoustic Surface Backscatter vs Incidence Angle from Glacial Ice
Surface acoustic backscatter angular response is commonly used for seafloor sediment characterization, however composite models of this type do not yet exist for the backscatter angular response of sea ice. For seafloor measurements, the response near normal incidence is often dominated by a specula...
| Main Authors: | , , , , , , |
|---|---|
| Format: | Text |
| Language: | unknown |
| Published: |
University of New Hampshire Scholars' Repository
2013
|
| Subjects: | |
| Online Access: | https://scholars.unh.edu/ccom/689 |
| _version_ | 1821705769005875200 |
|---|---|
| author | Schmidt, Val E. Hamilton, A K Mueller, D Brucker, S Hamilton, Travis Forrest, A L Laval, B E |
| author_facet | Schmidt, Val E. Hamilton, A K Mueller, D Brucker, S Hamilton, Travis Forrest, A L Laval, B E |
| author_sort | Schmidt, Val E. |
| collection | University of New Hampshire: Scholars Repository |
| description | Surface acoustic backscatter angular response is commonly used for seafloor sediment characterization, however composite models of this type do not yet exist for the backscatter angular response of sea ice. For seafloor measurements, the response near normal incidence is often dominated by a specular return and influence from returns from the volume beneath the water-sediment interface, which is highly dependent on substrate grain size, acoustic impedance, and porosity. At oblique angles beyond the water-sediment critical angle, seafloor roughness due to grain size and bedforms dominate the response. The combined angular response can therefore be highly suggestive of the composition of the seafloor. For sea ice, at angles beyond the critical angle, roughness models similar to those used for the seafloor are applicable; however, near normal incidence angles, models remain largely undeveloped. With the development of appropriate models, acoustic measurements may allow discrimination of ice characteristics such as ice air content, interstitial fresh-water content, sea-ice age and ice origins (i.e., terrestrial vs. marine). Similar to seafloor measurements, the combined angular response of sea ice may provide a remote sensing method for widespread mapping and characterization of ice from surface and submersible vessels. In 2011, as part of an effort to gather information on the precise shape of large tabular icebergs to calibrate the Canadian Ice Service ice hazard drift and deterioration model, portions of the periphery of several pieces of the Petermann Ice Island, were surveyed with a Kongsberg EM3002 multibeam sonar. In addition to the geometric data, the collected measurements provide a means to measure the surface acoustic backscatter response of the ice surface as a function of angle of incidence, providing a preliminary characterization data set of tabular ice islands. While it is difficult to draw conclusions at this early stage, models for the seafloor provide some insight to the data. For example, ... |
| format | Text |
| genre | Sea ice |
| genre_facet | Sea ice |
| geographic | Kongsberg |
| geographic_facet | Kongsberg |
| id | ftuninhampshire:oai:scholars.unh.edu:ccom-1689 |
| institution | Open Polar |
| language | unknown |
| long_lat | ENVELOPE(19.082,19.082,69.123,69.123) |
| op_collection_id | ftuninhampshire |
| op_relation | https://scholars.unh.edu/ccom/689 |
| op_source | Center for Coastal and Ocean Mapping |
| publishDate | 2013 |
| publisher | University of New Hampshire Scholars' Repository |
| record_format | openpolar |
| spelling | ftuninhampshire:oai:scholars.unh.edu:ccom-1689 2025-01-17T00:43:48+00:00 Acoustic Surface Backscatter vs Incidence Angle from Glacial Ice Schmidt, Val E. Hamilton, A K Mueller, D Brucker, S Hamilton, Travis Forrest, A L Laval, B E 2013-06-01T07:00:00Z https://scholars.unh.edu/ccom/689 unknown University of New Hampshire Scholars' Repository https://scholars.unh.edu/ccom/689 Center for Coastal and Ocean Mapping text 2013 ftuninhampshire 2023-01-30T21:33:06Z Surface acoustic backscatter angular response is commonly used for seafloor sediment characterization, however composite models of this type do not yet exist for the backscatter angular response of sea ice. For seafloor measurements, the response near normal incidence is often dominated by a specular return and influence from returns from the volume beneath the water-sediment interface, which is highly dependent on substrate grain size, acoustic impedance, and porosity. At oblique angles beyond the water-sediment critical angle, seafloor roughness due to grain size and bedforms dominate the response. The combined angular response can therefore be highly suggestive of the composition of the seafloor. For sea ice, at angles beyond the critical angle, roughness models similar to those used for the seafloor are applicable; however, near normal incidence angles, models remain largely undeveloped. With the development of appropriate models, acoustic measurements may allow discrimination of ice characteristics such as ice air content, interstitial fresh-water content, sea-ice age and ice origins (i.e., terrestrial vs. marine). Similar to seafloor measurements, the combined angular response of sea ice may provide a remote sensing method for widespread mapping and characterization of ice from surface and submersible vessels. In 2011, as part of an effort to gather information on the precise shape of large tabular icebergs to calibrate the Canadian Ice Service ice hazard drift and deterioration model, portions of the periphery of several pieces of the Petermann Ice Island, were surveyed with a Kongsberg EM3002 multibeam sonar. In addition to the geometric data, the collected measurements provide a means to measure the surface acoustic backscatter response of the ice surface as a function of angle of incidence, providing a preliminary characterization data set of tabular ice islands. While it is difficult to draw conclusions at this early stage, models for the seafloor provide some insight to the data. For example, ... Text Sea ice University of New Hampshire: Scholars Repository Kongsberg ENVELOPE(19.082,19.082,69.123,69.123) |
| spellingShingle | Schmidt, Val E. Hamilton, A K Mueller, D Brucker, S Hamilton, Travis Forrest, A L Laval, B E Acoustic Surface Backscatter vs Incidence Angle from Glacial Ice |
| title | Acoustic Surface Backscatter vs Incidence Angle from Glacial Ice |
| title_full | Acoustic Surface Backscatter vs Incidence Angle from Glacial Ice |
| title_fullStr | Acoustic Surface Backscatter vs Incidence Angle from Glacial Ice |
| title_full_unstemmed | Acoustic Surface Backscatter vs Incidence Angle from Glacial Ice |
| title_short | Acoustic Surface Backscatter vs Incidence Angle from Glacial Ice |
| title_sort | acoustic surface backscatter vs incidence angle from glacial ice |
| url | https://scholars.unh.edu/ccom/689 |