Litcius/Paper detail

National high-resolution cropland classification of Japan with agricultural census information and multi-temporal multi-modality datasets

Junshi Xia, Naoto Yokoya, Bruno Adriano, Keiichiro Kanemoto

2023International Journal of Applied Earth Observation and Geoinformation16 citationsDOIOpen Access PDF

Abstract

Multi-modality datasets offer advantages for processing frameworks with complementary information, particularly for large-scale cropland mapping. Extensive training datasets are required to train machine learning algorithms, which can be challenging to obtain. To alleviate the limitations, we extract the training samples from the agricultural census information. We focus on Japan and demonstrate how agricultural census data in 2015 can map different crop types for the entire country. Due to the lack of Sentinel-2 datasets in 2015, this study utilized Sentinel-1 and Landsat-8 collected across Japan and combined observations into composites for different prefecture periods (monthly, bimonthly, seasonal). Recent deep learning techniques have been investigated the performance of the samples from agricultural census information. Finally, we obtain nine crop types on a countrywide scale (around 31 million parcels) and compare our results to those obtained from agricultural census testing samples as well as those obtained from recent land cover products in Japan. The generated map accurately represents the distribution of crop types across Japan and achieves an overall accuracy of 87% for nine classes in 47 prefectures. Our findings highlight the importance of using multi-modality data with agricultural census information to evaluate agricultural productivity in Japan. The final products are available at https://doi.org/10.5281/zenodo.7519274.

Topics & Concepts

CensusGeographyAgricultureScale (ratio)Land coverProductivityCartographyRemote sensingRegional scienceLand usePopulationEngineeringEconomic growthDemographyCivil engineeringEconomicsArchaeologySociologyRemote Sensing in AgricultureLand Use and Ecosystem ServicesSoil and Land Suitability Analysis