G. Cookmartin scite author profile

Polarimetric X-and C-band measurements by the University of Sheffield ground-based synthetic aperture radar (GB-SAR) indoor system provide three-dimensional images of the scattering processes in wheat canopies, at resolutions of around a wavelength (3-6 cm). The scattering shows a pronounced layered structure, with strong returns from the soil and the flag leaves, and in some cases a second leaf layer. Differential attenuation at horizontal (H) and vertical (V) polarization, due to the predominantly vertical structure of the wheat stems, gives rise to marked effects. At both C and X bands, direct return from the canopy exceeds the soil return at large incidence angles for VV polarization, but is comparable to or less than the soil return in all other cases. At HV, the apparent ground return is probably due to a double-bounce mechanism, and volume scattering is never the dominant term. Direct sensing of the crop canopy is most effective at X band, VV, and large incidence angles, under which conditions the return is dominated by the flag leaf layer. Field measurements with the outdoor GB-SAR system suggest, however, that for sensitivity to biomass and reduced susceptibility to disturbances by rainfall, a two-channel C-band system operating at a medium range of incidence angles is preferred.Index Terms-Agriculture, backscatter modeling, synthetic aperture radar (SAR).

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Modeling microwave interactions with crops and comparison with ERS-2 SAR observations

Cookmartin

Saich

Quegan

et al. 2000

IEEE Trans. Geosci. Remote Sensing

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The UK NERC fully portable polarimetric ground-based synthetic aperture radar (GB-SAR)

Bennett

Morrison²,

Race³

et al.

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Three-dimensional X-band SAR imaging of a small conifer tree

Morrison

Bennett

Cookmartin

et al. 2001

International Journal of Remote Sensing

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Abstract. High spatial resolution 3-D SAR imagery was recorded by the UK's Natural Environment Research Council GB-SAR Microwave Measurement Facility at the University of She eld. X-band V V polarisation measurements were made using a near-eld monostatic imaging system inside an anechoic chamber. The measurement process employs vector network analyser techniques to sample backscattered signals over a 2-D aperture, allowing a 3-D reconstruction of a target. This technique is used to provide a detailed 3-D map of the spatial scattering behaviour of a small Colorado Blue Spruce tree (Picea pungens glauca). The images produced are at a su ciently high spatial resolution (~5 cm) that individual plant components can be discerned. An ability to select any volume pixel from within the target allows features in the microwave reconstruction to be readily associated with structures in the tree. The scattering behaviour associated with the uppermost set of branches shows it to be dominated by scattering from the branch tips.

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G. Cookmartin

High-resolution measurements of scattering in wheat canopies-implications for crop parameter retrieval

Modeling microwave interactions with crops and comparison with ERS-2 SAR observations

The UK NERC fully portable polarimetric ground-based synthetic aperture radar (GB-SAR)

Three-dimensional X-band SAR imaging of a small conifer tree

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