Large-Scale Rice Mapping Using Multi-Task Spatiotemporal Deep Learning and Sentinel-1 SAR Time Series

Zhixian Lin,K C Ting,Renhai Zhong,Yibin Ying,Jialu Xu,Yue Zhu,Changqiang Guo,Jinfan Xu,Tao Lin,Jingfeng Huang,Xingguo Xiong

doi:10.3390/rs14030699

Abstract

Timely and accurate cropland information at large spatial scales can improve crop management and support the government in decision making. Mapping the spatial extent and distribution of crops on a large spatial scale is challenging work due to the spatial variability. A multi-task spatiotemporal deep learning model, named LSTM-MTL, was developed in this study for large-scale rice mapping by utilizing time-series Sentinel-1 SAR data. The model showed a reasonable rice classification accuracy in the major rice production areas of the U.S. (OA = 98.3%, F1 score = 0.804), even when it only utilized SAR data. The model learned region-specific and common features simultaneously, and yielded a significant improved performance compared with RF and AtBiLSTM in both global and local training scenarios. We found that the LSTM-MTL model achieved a regional F1 score up to 10% higher than both global and local baseline models. The results demonstrated that the consideration of spatial variability via LSTM-MTL approach yielded an improved crop classification performance at a large spatial scale. We analyzed the input-output relationship through gradient backpropagation and found that low VH value in the early period and high VH value in the latter period were critical for rice classification. The results of in-season analysis showed that the model was able to yield a high accuracy (F1 score = 0.746) two months before rice maturity. The integration between multi-task learning and multi-temporal deep learning approach provides a promising approach for crop mapping at large spatial scales.

Highlights

Sufficient food supply is critical for the increased global population, but it has become more vulnerable under the increased occurrence of extreme climate events caused by global warming [1]
This study developed a multi-task spatiotemporal deep learning model named LSTMMTL that uses time-series Sentinel-1 Synthetic Aperture Radar (SAR) data for large-scale rice mapping
(2) The Long Short-Term Memory (LSTM)-Multi-Task Learning (MTL) model achieved better crop classification accuracy than the model without MTL, suggesting that the consideration of spatial variances based on MTL led to improved crop classification performance at large spatial scales

Summary

Introduction

Sufficient food supply is critical for the increased global population, but it has become more vulnerable under the increased occurrence of extreme climate events caused by global warming [1]. And accurate crop mapping at large spatial scales can provide fundamental information (e.g., crop types, locations, and periods) to improve crop management, production forecasts, and disaster assessment [2]. It can provide new insights into the spatial variances of crop production and their driving factors. This digital information can be used to help farmers and the government to improve the allocation of agricultural resources, such as optimizing water management and supply chain logistics.

Objectives

Methods

Results

Conclusion