EffCDNet: Transfer learning with deep attention network for change detection in high spatial resolution satellite images

High spatial resolution satellite (HRS) images are being extensively utilized for the detection of changes like urban dynamics, infrastructure surveillance, disaster management, and topographic map-making applications. The enormous information and challenging data are important for the change detection (CD) in these images. However, lack of training data and an excessive amount of information, which discourage the researcher from developing a deep-learning-based efficient algorithm for CD. Therefore we want to develop an efficient algorithm in terms of accuracy and speed. Hence, we gain attention on designing an optimized Convolution Neural Network (CNN) while maintaining the speed and segmentation accuracy of the network. We develop an optimized architecture called as EffCDNet which adopts a siamese-based pre-trained encoder with an Attention-based UNet decoder for semantic segmentation. The network is built with pre-trained EfficientNet architecture with shared weights for strong feature extraction and to overcome the limitations caused by insufficient training data. The attention-based UNet decoder uses the attention-gate layer mechanism right before concatenation operation. This obtains more discriminative relevant features for improving the segmentation performance. Also, it is used for the reconstruction of fine-grained feature maps with significant use of context information. For improvement in the change map, we used the Undecimated Discrete Wavelet Transform (UDWT) fusion as a post-processing technique for spatial and temporal analysis of multi-resolution images to obtain a much more enhanced information difference map. The resulting image is less affected by noise, shift-invariable, and overcomes the mixed pixel problem to detect small possible changes. Experimental results on LEVIR-CD, SZATKI AirChange (AC), and Onera Satellite Change Detection (OSCD) benchmark datasets proved that the proposed approach outperforms its superiority in terms of Intersection over Union (IoU) and inference time over the existing methods. (C) 2021 Elsevier Inc. All rights reserved.

Automated summary

This study presents an efficient algorithm for change detection using high spatial resolution satellite images. The algorithm combines deep learning techniques and optimized convolutional neural networks, utilizing attention mechanisms and fusion techniques to achieve more accurate and faster change detection. It is significant for improving segmentation performance and enhancing the representation of detail maps.