The Experts below are selected from a list of 7299 Experts worldwide ranked by ideXlab platform
R.c. Schulze - One of the best experts on this subject based on the ideXlab platform.
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the Lunar mini rf radars hybrid polarimetric architecture and initial results
Proceedings of the IEEE, 2011Co-Authors: R K Raney, William Marinelli, Jason Crusan, Paul Spudis, Priscilla Mckerracher, Marzban Palsetia, Catherine D. Neish, Ben Bussey, J R Jensen, R.c. SchulzeAbstract:The two mini-radio-frequency (mini-RF) radars flown in near-polar Lunar Orbits (on Chandrayaan-1 and the Lunar Reconnaissance Orbiter) were the first of their kind, hybrid-polarimetric. This new paradigm transmits circular polarization, and receives coherently on orthogonal linear polarizations. The resulting data support calculation of the 2 × 2 covariance matrix of the backscattered field, from which follow the four Stokes parameters. These are the basis of science products from the observations, which include images that are traditional in radar astronomy, as well as polarimetric decompositions. The instruments all have mass less than 15 kg, antenna areas of about 1 m2, and modest power and spacecraft accommodation requirements. Data quality and instrument characteristics suggest that hybrid polarity is highly desirable for future exploratory radar missions in the Solar system.
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the Lunar mini rf radars hybrid polarimetric architecture and initial results mini rf radars onboard nasa s Lunar reconnaissance orbiter seek to acquire for the first time full polarimetric images of the Lunar surface
2011Co-Authors: Keith R Raney, William Marinelli, Jason Crusan, Paul Spudis, Priscilla Mckerracher, Marzban Palsetia, R.c. Schulze, Catherine D. Neish, Robert J. Jensen, Brian H SequeiraAbstract:The two mini-radio-frequency (mini-RF) radars flown in near-polar Lunar Orbits (on Chandrayaan-1 and the Lunar Reconnaissance Orbiter) were the first of their kind, hybrid-polarimetric. This new paradigm transmits circular polarization, and receives coherently on orthogonal linear polarizations.Theresultingdatasupportcalculation of the2 � 2 covariance matrix of the backscattered field, from which follow the four Stokes parameters. These are the basis of science products from the observations, which include images that are traditional in radar astronomy, as well as polarimetric decom- positions. The instruments all have mass less than 15 kg, antenna areas of about 1 m 2 , and modest power and spacecraft
R K Raney - One of the best experts on this subject based on the ideXlab platform.
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the Lunar mini rf radars hybrid polarimetric architecture and initial results
Proceedings of the IEEE, 2011Co-Authors: R K Raney, William Marinelli, Jason Crusan, Paul Spudis, Priscilla Mckerracher, Marzban Palsetia, Catherine D. Neish, Ben Bussey, J R Jensen, R.c. SchulzeAbstract:The two mini-radio-frequency (mini-RF) radars flown in near-polar Lunar Orbits (on Chandrayaan-1 and the Lunar Reconnaissance Orbiter) were the first of their kind, hybrid-polarimetric. This new paradigm transmits circular polarization, and receives coherently on orthogonal linear polarizations. The resulting data support calculation of the 2 × 2 covariance matrix of the backscattered field, from which follow the four Stokes parameters. These are the basis of science products from the observations, which include images that are traditional in radar astronomy, as well as polarimetric decompositions. The instruments all have mass less than 15 kg, antenna areas of about 1 m2, and modest power and spacecraft accommodation requirements. Data quality and instrument characteristics suggest that hybrid polarity is highly desirable for future exploratory radar missions in the Solar system.
Catherine D. Neish - One of the best experts on this subject based on the ideXlab platform.
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the Lunar mini rf radars hybrid polarimetric architecture and initial results
Proceedings of the IEEE, 2011Co-Authors: R K Raney, William Marinelli, Jason Crusan, Paul Spudis, Priscilla Mckerracher, Marzban Palsetia, Catherine D. Neish, Ben Bussey, J R Jensen, R.c. SchulzeAbstract:The two mini-radio-frequency (mini-RF) radars flown in near-polar Lunar Orbits (on Chandrayaan-1 and the Lunar Reconnaissance Orbiter) were the first of their kind, hybrid-polarimetric. This new paradigm transmits circular polarization, and receives coherently on orthogonal linear polarizations. The resulting data support calculation of the 2 × 2 covariance matrix of the backscattered field, from which follow the four Stokes parameters. These are the basis of science products from the observations, which include images that are traditional in radar astronomy, as well as polarimetric decompositions. The instruments all have mass less than 15 kg, antenna areas of about 1 m2, and modest power and spacecraft accommodation requirements. Data quality and instrument characteristics suggest that hybrid polarity is highly desirable for future exploratory radar missions in the Solar system.
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the Lunar mini rf radars hybrid polarimetric architecture and initial results mini rf radars onboard nasa s Lunar reconnaissance orbiter seek to acquire for the first time full polarimetric images of the Lunar surface
2011Co-Authors: Keith R Raney, William Marinelli, Jason Crusan, Paul Spudis, Priscilla Mckerracher, Marzban Palsetia, R.c. Schulze, Catherine D. Neish, Robert J. Jensen, Brian H SequeiraAbstract:The two mini-radio-frequency (mini-RF) radars flown in near-polar Lunar Orbits (on Chandrayaan-1 and the Lunar Reconnaissance Orbiter) were the first of their kind, hybrid-polarimetric. This new paradigm transmits circular polarization, and receives coherently on orthogonal linear polarizations.Theresultingdatasupportcalculation of the2 � 2 covariance matrix of the backscattered field, from which follow the four Stokes parameters. These are the basis of science products from the observations, which include images that are traditional in radar astronomy, as well as polarimetric decom- positions. The instruments all have mass less than 15 kg, antenna areas of about 1 m 2 , and modest power and spacecraft
William Marinelli - One of the best experts on this subject based on the ideXlab platform.
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the Lunar mini rf radars hybrid polarimetric architecture and initial results
Proceedings of the IEEE, 2011Co-Authors: R K Raney, William Marinelli, Jason Crusan, Paul Spudis, Priscilla Mckerracher, Marzban Palsetia, Catherine D. Neish, Ben Bussey, J R Jensen, R.c. SchulzeAbstract:The two mini-radio-frequency (mini-RF) radars flown in near-polar Lunar Orbits (on Chandrayaan-1 and the Lunar Reconnaissance Orbiter) were the first of their kind, hybrid-polarimetric. This new paradigm transmits circular polarization, and receives coherently on orthogonal linear polarizations. The resulting data support calculation of the 2 × 2 covariance matrix of the backscattered field, from which follow the four Stokes parameters. These are the basis of science products from the observations, which include images that are traditional in radar astronomy, as well as polarimetric decompositions. The instruments all have mass less than 15 kg, antenna areas of about 1 m2, and modest power and spacecraft accommodation requirements. Data quality and instrument characteristics suggest that hybrid polarity is highly desirable for future exploratory radar missions in the Solar system.
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the Lunar mini rf radars hybrid polarimetric architecture and initial results mini rf radars onboard nasa s Lunar reconnaissance orbiter seek to acquire for the first time full polarimetric images of the Lunar surface
2011Co-Authors: Keith R Raney, William Marinelli, Jason Crusan, Paul Spudis, Priscilla Mckerracher, Marzban Palsetia, R.c. Schulze, Catherine D. Neish, Robert J. Jensen, Brian H SequeiraAbstract:The two mini-radio-frequency (mini-RF) radars flown in near-polar Lunar Orbits (on Chandrayaan-1 and the Lunar Reconnaissance Orbiter) were the first of their kind, hybrid-polarimetric. This new paradigm transmits circular polarization, and receives coherently on orthogonal linear polarizations.Theresultingdatasupportcalculation of the2 � 2 covariance matrix of the backscattered field, from which follow the four Stokes parameters. These are the basis of science products from the observations, which include images that are traditional in radar astronomy, as well as polarimetric decom- positions. The instruments all have mass less than 15 kg, antenna areas of about 1 m 2 , and modest power and spacecraft
Jason Crusan - One of the best experts on this subject based on the ideXlab platform.
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the Lunar mini rf radars hybrid polarimetric architecture and initial results
Proceedings of the IEEE, 2011Co-Authors: R K Raney, William Marinelli, Jason Crusan, Paul Spudis, Priscilla Mckerracher, Marzban Palsetia, Catherine D. Neish, Ben Bussey, J R Jensen, R.c. SchulzeAbstract:The two mini-radio-frequency (mini-RF) radars flown in near-polar Lunar Orbits (on Chandrayaan-1 and the Lunar Reconnaissance Orbiter) were the first of their kind, hybrid-polarimetric. This new paradigm transmits circular polarization, and receives coherently on orthogonal linear polarizations. The resulting data support calculation of the 2 × 2 covariance matrix of the backscattered field, from which follow the four Stokes parameters. These are the basis of science products from the observations, which include images that are traditional in radar astronomy, as well as polarimetric decompositions. The instruments all have mass less than 15 kg, antenna areas of about 1 m2, and modest power and spacecraft accommodation requirements. Data quality and instrument characteristics suggest that hybrid polarity is highly desirable for future exploratory radar missions in the Solar system.
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the Lunar mini rf radars hybrid polarimetric architecture and initial results mini rf radars onboard nasa s Lunar reconnaissance orbiter seek to acquire for the first time full polarimetric images of the Lunar surface
2011Co-Authors: Keith R Raney, William Marinelli, Jason Crusan, Paul Spudis, Priscilla Mckerracher, Marzban Palsetia, R.c. Schulze, Catherine D. Neish, Robert J. Jensen, Brian H SequeiraAbstract:The two mini-radio-frequency (mini-RF) radars flown in near-polar Lunar Orbits (on Chandrayaan-1 and the Lunar Reconnaissance Orbiter) were the first of their kind, hybrid-polarimetric. This new paradigm transmits circular polarization, and receives coherently on orthogonal linear polarizations.Theresultingdatasupportcalculation of the2 � 2 covariance matrix of the backscattered field, from which follow the four Stokes parameters. These are the basis of science products from the observations, which include images that are traditional in radar astronomy, as well as polarimetric decom- positions. The instruments all have mass less than 15 kg, antenna areas of about 1 m 2 , and modest power and spacecraft