Knowledge Guided Evolutionary Transformer for Remote Sensing Scene Classification

Solving the complex challenges of sophisticated terrain and multi-scale targets in remote sensing (RS) images requires a synergistic combination of Transformer and convolutional neural network (CNN). However, crafting effective CNN architectures remains a major challenge. To address these difficulties, this study introduces the knowledge guided evolutionary Transformer for RS scene classification (Evo RSFormer). It amalgamates adaptive evolutionary CNN (Evo CNN) with Transformers in a hybrid strategy synergistically, which combines fine-grained local feature extraction of CNNs with long-range contextual dependency modeling of Transformers. Furthermore, for the development of Evo CNN blocks, this paper presents a knowledge-guided adaptive efficient multi-objective evolutionary neural architecture search (MOE2-NAS) strategy. This approach markedly diminishes the labor-intensive characteristics associated with traditional CNN design, striking a balance for both accuracy and compactness. Additionally, by leveraging domain knowledge from natural scene analysis into the RS field, MOE2-NAS facilitates the efficiency of classical NAS. It utilizes a priori knowledge to generate promising initial solutions and constructs a surrogate model for efficient search. The effectiveness of the proposed Evo RSFormer has been rigorously tested on various benchmark RS datasets, including UC Merced, NWPU45, and AID. Empirical results strongly support the superiority of Evo RSFormer over existing methods. Furthermore, experiments on MOE2-NAS have been studied to confirm the important role of knowledge guidance in improving the efficiency of NAS.