Self-supervised Pretraining for Hyperspectral Classification of Fruit Ripeness

The ripeness of fruit can be measured in a nondestructive way using hyperspectral imaging (HSI) and deep learning methods. However, the lack of labeled data samples limits hyperspectral image classification. This work explores self-supervised learning (SSL) as pretraining for HSI classification of fruit ripeness. Three state-of-the-art SSL methods, Sim- CLR, SimSiam, and Barlow Twins are implemented, and augmentation techniques for HSI are developed. A 3D-2D hybrid convolutional network is proposed to support the pretraining procedure. This model is evaluated against a ResNet-18 and a HSCNN. The pretraining is evaluated on the fruit ripeness prediction task using the proposed second version of the DeepHS fruit data set. Besides comparing the classification performance of the pretrained models to only supervised training, the influence of the model architecture and size, pretraining method, and augmentations for SSL is investigated. This work shows that it is possible to transfer the ideas of SSL to HSI. It is possible to extract essential features in an unsupervised manner via this pretraining. Pretraining stabilizes classifier training and improves the classifier performance. Further, it can partially compensate for the need for large labeled data sets in HSI classification.