Abstract
Assigning geospatial objects with specific categories at the pixel level is a fundamental task in remote sensing image analysis. Along with the rapid development of sensor technologies, remotely sensed images can be captured at multiple spatial resolutions (MSR) with information content manifested at different scales. Extracting information from these MSR images represents huge opportunities for enhanced feature representation and characterisation. However, MSR images suffer from two critical issues: (1) increased scale variation of geo-objects and (2) loss of detailed information at coarse spatial resolutions. To bridge these gaps, in this paper, we propose a novel scale-aware neural network (SaNet) for the semantic segmentation of MSR remotely sensed imagery. SaNet deploys a densely connected feature network (DCFFM) module to capture high-quality multi-scale context, such that the scale variation is handled properly and the quality of segmentation is increased for both large and small objects. A spatial feature recalibration (SFRM) module was further incorporated into the network to learn intact semantic content with enhanced spatial relationships, where the negative effects of information loss are removed. The combination of DCFFM and SFRM allows SaNet to learn scale-aware feature representation, which outperforms the existing multi-scale feature representation. Extensive experiments on three semantic segmentation datasets demonstrated the effectiveness of the proposed SaNet in cross-resolution segmentation.
Highlights
Considering the efficiency of scale-aware neural network (SaNet), spatial feature recalibration module (SFRM) is only deployed on top of the ResNet backbone to recalibrate the high-level semantic feature ResBlock4
Please note that only scale-invariant image transformation was used for data augmentation to avoid the influence of the scale variations
We present a scale-aware neural network for the robust segmentation of multi-resolution remotely sensed images using two novel modules, including a spatial feature recalibration module and a densely connected feature fusion module
Summary
Fine spatial resolution (FSR) remotely sensed images are characterized by rich spatial information and detailed objects with semantic content. Driven by the rapid development of sensor technology over the past few years, FSR remotely sensed images are captured increasingly at multiple spatial resolutions (MSR), meaning that FSR remotely sensed images are shifting towards MSR remotely sensed images [8]. MSR remotely sensed images provide much richer detailed information and more various geometrical characterisation than FSR images [9,10]. Diverse spatial resolutions result in the complex scale variation of geospatial objects as illustrated in.
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