Litcius/Paper detail

Monitoring Crops Using Compact Polarimetry and the RADARSAT Constellation Mission

Laura Dingle Robertson, Heather McNairn, Xianfeng Jiao, Connor McNairn, Samuel Ihuoma

2022Canadian Journal of Remote Sensing18 citationsDOI

Abstract

The RADARSAT Constellation Mission (RCM) can acquire imagery in Compact Polarimetric (CP) mode. With this new mode, and the increased revisit with three satellites, RCM can contribute to operational crop monitoring at national scales. The four Stokes (S0, S1, S2 and S3) and three m-chi decomposition (surface, double bounce, volume) parameters were used to identify crops (pasture/forage, barley, wheat, canola, flaxseed, peas, lentils) with a Random Forest classifier. The Stokes and m-chi parameters delivered maps of similar accuracies (95% overall accuracy) and were only slightly less accurate than a classification using optical satellite imagery (97%). To understand why Stokes parameters worked well in classifying crops, scattering responses for wheat, canola, lentils and peas were plotted on the Poincaré sphere. These responses were interpreted in the context of the degree of polarization and were related to crop phenology. These plots revealed that early and late in the season the polarized component of the scattered wave remained circular. However, in the active season when crop structure was changing, scattered waves became more elliptically polarized. Although the amount of polarized scattering was lower mid-season, the change in ellipticity was helpful in separating crop types.

Topics & Concepts

PolarimetryStokes parametersRemote sensingScatteringContext (archaeology)Polarization (electrochemistry)Environmental scienceCropGeographyPhysicsForestryOpticsChemistryArchaeologyPhysical chemistrySynthetic Aperture Radar (SAR) Applications and TechniquesRemote Sensing in AgricultureRemote Sensing and Land Use