Publications

Shu, HT; Gu, ZN; Chen, Y; Chen, H; Chen, XH; Chen, J (2024). NB_Re3: A Novel Framework for Reconstructing High-Quality Reflectance Time Series Taking Full Advantage of High-Quality NDVI and Multispectral Autocorrelations. IEEE JOURNAL OF SELECTED TOPICS IN APPLIED EARTH OBSERVATIONS AND REMOTE SENSING, 17, 12451-12465.

Abstract
Multispectral reflectance-signals reflected from the Earth's surface across different wavelengths-is a primary data source for most remote sensing applications. However, obtaining complete cloud-free multispectral reflectance time series during the vegetation growing season remains challenging due to cloud contamination and limitations of existing reconstruction methods. To address the challenge, this study proposed a novel normalized difference vegetation index (NDVI)-guided bi-directional recurrent reconstruction model for multispectral reflectance time series (referred to as NB-Re-3), which aimed to reconstruct dense time series of reflectance images by exploiting the dependence of NDVI on multispectral reflectance. NB-Re-3 utilizes a temporal convolutional network to capture the temporal trends in the NDVI data and a bidirectional long short-term memory to integrate the temporal features of the NDVI with the cloud-free reflectance data. The architecture establishes a robust dynamic NDVI-reflectance relationship while capturing temporal dependencies and multispectral autocorrelations of multiple spectral bands. We compared the performance of NB-Re-3 with four representative methods (MNSPI, HANTS, STAIR, and U-TILSE) in reconstructing multispectral reflectance time series, ranging from the visible bands to near-infrared and short-wave infrared bands, at two challenging sites: the irrigated area of Colleambally, Australia, and the cultivated area of Rikaze on the Southern Tibetan Plateau, China. The result showed that NB-Re-3 kept superiority with the lowest root-mean-square error values and highest correlation coefficients values. The effectiveness of integrating high-quality NDVI time series and using multispectral autocorrelation to improve reflectance time-series reconstruction was further confirmed by the ablation experiments. It is concluded that NB-Re-3 shows promise for generating long-term cloud-free reflectance time-series products tailored for ecological and agricultural applications.

DOI:
10.1109/JSTARS.2024.3421237

ISSN:
2151-1535