High?quality training samples are crucial for crop recognition using remote sensing. The timely and accurate acquisition of winter wheat samples serves as the foundation for such identification. However, obtaining sample points is often challenging, representing a key factor that limits the classification and recognition of crops using satellite remote sensing imagery. To accurately identify multi?year winter wheat planting areas in the Guanzhong Plain, an automatic sample generation and sample migration strategy suitable for winter wheat recognition in this region was constructed based on Sentinel?2 satellite remote sensing imagery. The Guanzhong Plain was divided into five study areas (Baoji, Xianyang, Xi?an, Tongchuan, and Weinan) according to municipal administrative boundaries. Using 2020 as the reference year and 2019 and 2021 as the migration years, a method for remote sensing identification of winter wheat fields was developed and validated. An automatic sample generation method was developed based on an existing 30 m spatial resolution Chinese winter wheat planting distribution dataset to obtain training samples for the Guanzhong Plain in 2020. The accuracy of automatic sampling was verified using measured samples from Xianyang City. Concurrently, the random forest algorithm and remote sensing imagery from four distinct growth stages (overwintering, regreening, heading, and maturity) were employed to classify and identify winter wheat fields, yielding recognition results for each stage. Subsequently, based on the automatically acquired training samples, the Euclidean distance (ED) and spectral angle distance (SAD) were utilized to determine the optimal growth stage and corresponding classification thresholds for sample migration in the test areas (Xianyang, Baoji, and Xi?an). Finally, the effectiveness of identifying winter wheat using the optimized growth stage and thresholds was validated in the threshold verification areas (Weinan and Tongchuan), and spatial distribution maps of winter wheat in the Guanzhong Plain from 2019 to 2021 were generated. The results indicated that the automatic sample generation method utilizing the winter wheat product base map can obtain accurate and reliable winter wheat field samples. For the reference year, the overall accuracy (OA) of winter wheat field recognition in the Guanzhong Plain exceeded 93%, with F1?scores higher than 93%. The relative error between the extracted area and Shaanxi provincial statistical data (except weina) was less than 23%, and compared with the base map data, it was less than 12%. When conducting inter?annual migration of winter wheat samples in the Guanzhong Plain, the optimal thresholds for ED and SAD were determined to be 0.4 and 0.8, respectively, with the heading stage identified as the optimal growth period. Under these conditions, the overall accuracy of remote sensing recognition for winter wheat fields in the five study areas for 2019 and 2021 was greater than 88%, with F1?scores higher than 89%. The relative error between the extracted area and statistical data (except Weina in 2019) was below 23%, and compared with the base map data, it was below 19%. The research result demonstrated that the proposed automatic sample generation and migration method can accurately and rapidly identify winter wheat planting areas in the Guanzhong Plain.