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APPLE-GO: Modeling high-spatial resolution forest canopy reflectance with effect of Adjacent Pixels using Path Length Extended Geometric Optical theory

Qunchao He, Siqi Yang, Naijie Peng, Wenjie Fan, Xihan Mu, Biao Cao, Dechao Zhai, Zhicheng Huang, Huazhong Ren, Guangjian Yan

2025Remote Sensing of Environment5 citationsDOI

Topics & Concepts

Remote sensingRadiative transferEnvironmental sciencePixelAtmospheric radiative transfer codesImage resolutionSatelliteScatteringSatellite imageryTree canopyPath lengthReflectivityAtmospheric correctionCanopyAlbedo (alchemy)ComputationVegetation (pathology)Leaf area indexBidirectional reflectance distribution functionLarchCalibrationSingle-scattering albedoSpectral resolutionRadiometric calibrationComputer scienceTemporal resolutionSpatial distributionImaging spectrometerRemote Sensing in AgricultureRemote Sensing and LiDAR ApplicationsPlant Water Relations and Carbon Dynamics
APPLE-GO: Modeling high-spatial resolution forest canopy reflectance with effect of Adjacent Pixels using Path Length Extended Geometric Optical theory | Litcius