The band selection in the hyperspectral image (HSI) data processing is an important task considering its effect on the computational complexity and accuracy. In this work, we propose a novel framework for the band selection problem: Self-Representation Learning (SRL) with Sparse 1D-Operational Autoencoder (SOA). The proposed SLR-SOA approach introduces a novel autoencoder model, SOA, that is designed to learn a representation domain where the data are sparsely represented. Moreover, the network composes of 1D-operational layers with the non-linear neuron model. Hence, the learning capability of neurons (filters) is greatly improved with shallow architectures. Using compact architectures is especially crucial in autoencoders as they tend to overfit easily because of their identity mapping objective. Overall, we show that the proposed SRL-SOA band selection approach outperforms the competing methods over two HSI data including Indian Pines and Salinas-A considering the achieved land cover classification accuracies. The software implementation of the SRL-SOA approach is shared publicly at https://github.com/meteahishali/SRL-SOA.
翻译:超光谱图像(HSI)数据处理中的带宽选择是一项重要任务,考虑到其对计算复杂性和准确性的影响。在这项工作中,我们提议一个带宽选择问题的新框架:Sprass 1-D-Operational Autoencoder (SOSA) 的自我代表学习(SRL) 。 SLR-SOA 的拟议方法引入了一个新型自动coder模型,SOA, 旨在学习数据代表稀少的演示域。此外,网络由非线性神经模型组成的1D-操作层组成。因此,神经元(过滤器)的学习能力与浅层结构大为改善。使用紧凑结构在自动显示器中特别关键,因为他们由于身份映射目标容易过度适应。总体而言,我们表明,拟议的SRL-SOA带选择方法超越了两个HSI数据的竞争方法,包括印度派恩和萨利纳-A, 考虑已经实现的土地覆盖分类。在 AL-SOA 方法的实施软件在 https://GISA/SOA/SR.
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