Crop Mapping without Labels: Investigating Temporal and Spatial Transferability of Crop Classification Models Using a 5-Year Sentinel-2 Series and Machine Learning

Abstract: Multitemporal crop classification approaches have demonstrated high performance within a given season. However, cross-season and cross-region crop classification presents a unique transferability challenge. This study addresses this challenge by adopting a domain generalization approach, e.g., by training models on multiple seasons to improve generalization to new, unseen target years. We utilize a comprehensive five-year Sentinel-2 dataset over different agricultural regions in Slovakia and a diverse crop sch… Show more

“…Referring back to the literature review, while the problems of transferability are known, they have not been systematically analyzed [24,25,[27][28][29][30]. Using the testing methodology presented here (Table 6), spatial transferability problems can now be systematically investigated in hopes of gaining insight into the causes and effects of transferability.…”

“…Furthermore, shifts in crop phenology, field characteristics, or ecological site conditions in the previously unseen area may reduce the classification performance of machine learning classifiers that often overfit to training sites [24]. Using Sentinel-2 data, high variability in transferability performance was found in the models [25]. Efforts have been made to transfer the models from regions with abundant in situ data to regions with limited in situ data using augmentation and transfer learning (TTL).…”

Transferability of Machine Learning Models for Crop Classification in Remote Sensing Imagery Using a New Test Methodology: A Study on Phenological, Temporal, and Spatial Influences

“…Referring back to the literature review, while the problems of transferability are known, they have not been systematically analyzed [24,25,[27][28][29][30]. Using the testing methodology presented here (Table 6), spatial transferability problems can now be systematically investigated in hopes of gaining insight into the causes and effects of transferability.…”

“…Furthermore, shifts in crop phenology, field characteristics, or ecological site conditions in the previously unseen area may reduce the classification performance of machine learning classifiers that often overfit to training sites [24]. Using Sentinel-2 data, high variability in transferability performance was found in the models [25]. Efforts have been made to transfer the models from regions with abundant in situ data to regions with limited in situ data using augmentation and transfer learning (TTL).…”

Transferability of Machine Learning Models for Crop Classification in Remote Sensing Imagery Using a New Test Methodology: A Study on Phenological, Temporal, and Spatial Influences

Evaluating the spatial–temporal transferability of models for agricultural land cover mapping using Landsat archive

Interseasonal transfer learning for crop mapping using Sentinel-1 data