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SpanConv: A New Convolution via Spanning Kernel Space for Lightweight Pansharpening

Zhixuan Chen, Cheng Jin, Tian-Jing Zhang, Xiao Wu, Liang-Jian Deng

2022Proceedings of the Thirty-First International Joint Conference on Artificial Intelligence30 citationsDOIOpen Access PDF

Abstract

Standard convolution operations can effectively perform feature extraction and representation but result in high computational cost, largely due to the generation of the original convolution kernel corresponding to the channel dimension of the feature map, which will cause unnecessary redundancy. In this paper, we focus on kernel generation and present an interpretable span strategy, named SpanConv, for the effective construction of kernel space. Specifically, we first learn two navigated kernels with single channel as bases, then extend the two kernels by learnable coefficients, and finally span the two sets of kernels by their linear combination to construct the so-called SpanKernel. The proposed SpanConv is realized by replacing plain convolution kernel by SpanKernel. To verify the effectiveness of SpanConv, we design a simple network with SpanConv. Experiments demonstrate the proposed network significantly reduces parameters comparing with benchmark networks for remote sensing pansharpening, while achieving competitive performance and excellent generalization. Code is available at https://github.com/zhi-xuan-chen/IJCAI-2022 SpanConv.

Topics & Concepts

Kernel (algebra)Computer scienceConvolution (computer science)Redundancy (engineering)Linear spanBenchmark (surveying)GeneralizationAlgorithmDimension (graph theory)Kernel methodTree kernelArtificial intelligenceRadial basis function kernelPattern recognition (psychology)Artificial neural networkMathematicsSupport vector machineDiscrete mathematicsMathematical analysisOperating systemGeographyPure mathematicsGeodesyAdvanced Image Fusion TechniquesRemote-Sensing Image ClassificationImage Enhancement Techniques
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