基于在线结构化字典学习的高光谱图像分类

2019 9th International Conference on Computer and Knowledge Engineering (ICCKE) Pub Date : 2019-10-01 DOI:10.1109/ICCKE48569.2019.8964900

Saeideh Ghanbari Azar, S. Meshgini, T. Y. Rezaii, A. Farzamnia

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引用次数: 0

摘要

在本研究中，利用高光谱图像的光谱和空间冗余来设计基于稀疏表示的分类方法。利用光谱冗余度定义光谱块，并利用光谱块自适应识别特征波段。在块稀疏表示方法中，最独特的块被识别为活动块。然后在每个空间群内施加稀疏系数，以共享一个公共子空间。为了实现这种分层稀疏模式，提出了一种稀疏编码算法。这种稀疏编码是在使用在线字典学习算法从图像数据中学习的块结构字典上完成的。然后使用支持向量机分类器对得到的稀疏系数进行分类。这种结构稀疏模式减轻了稀疏系数的不稳定性。在Indian Pines和Pavia University两个标准数据集上的实验验证了该方法对高光谱图像分类的有效性。

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Hyperspectral Image Classification With Online Structured Dictionary Learning

In this study, the spectral and spatial redundancies of hyperspectral images are used for designing a sparse representation-based classification approach. The spectral redundancy is used to define spectral blocks and they are used to adaptively recognize the distinctive bands. The most distinctive blocks are identified as active blocks in a block sparse representation approach. Then the sparse coefficients within each spatial group are imposed to share a common subspace. To achieve this hierarchical sparsity pattern a sparse coding algorithm is proposed. This sparse coding is done over a block-structured dictionary, which is learned from the image data using the online dictionary learning algorithm. The obtained sparse coefficients are then classified using a support vector machine classifier. This structured sparsity pattern alleviates the instability of the sparse coefficients. Experiments on two standard datasets namely, Indian Pines and Pavia University, verify the effectiveness of the proposed approach for the classification of hyperspectral images.

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2019 9th International Conference on Computer and Knowledge Engineering (ICCKE)

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