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| ハイパースペクトル混合解析× | 非負値行列因子分解 (NMF)× | ピクセルベース画像分類× | |
|---|---|---|---|
| 分野≠ | リモートセンシング | 機械学習 | リモートセンシング |
| 系統≠ | Machine learning | Latent structure | Machine learning |
| 提唱年≠ | 2002 | 1999 | 2007 |
| 提唱者≠ | Nirmal Keshava & John Mustard | Lee, D. D. & Seung, H. S. | Remote-sensing classification literature |
| 種類≠ | Sub-pixel spectral decomposition algorithm | Matrix decomposition with non-negativity constraints | Supervised/unsupervised spectral image classification |
| 原典≠ | Keshava, N., & Mustard, J. F. (2002). Spectral unmixing. IEEE Signal Processing Magazine, 19(1), 44–57. DOI ↗ | Lee, D. D., & Seung, H. S. (1999). Learning the parts of objects by non-negative matrix factorization. Nature, 401(6755), 788–791. DOI ↗ | Lu, D., & Weng, Q. (2007). A survey of image classification methods and techniques for improving classification performance. International Journal of Remote Sensing, 28(5), 823–870. DOI ↗ |
| 別名≠ | Spectral Mixture Analysis, Linear Spectral Unmixing, Blind Source Separation (Hyperspectral), Hiperspektral Ayrıştırma | NMF, NNMF, nonnegative matrix factorization, non-negative matrix approximation | Per-Pixel Classification, Spectral Classification, Pixel-by-Pixel Classification, Piksel Tabanlı Sınıflandırma |
| 関連≠ | 2 | 4 | 2 |
| 概要≠ | Hyperspectral unmixing is a signal processing technique that decomposes each pixel of a hyperspectral image into a collection of pure material spectra (endmembers) and their corresponding fractional abundances. Because sensor resolution often causes multiple land-cover types to co-occupy a single pixel, unmixing recovers sub-pixel compositional information that conventional classification cannot. Keshava and Mustard (2002) provided the foundational signal-processing framework that unified prior geological and remote-sensing work under a rigorous linear mixture model. | Non-negative Matrix Factorization (NMF) is a family of algorithms, introduced by Lee and Seung in their landmark 1999 Nature paper, that decomposes a non-negative data matrix V into the product of two lower-rank non-negative matrices W (basis components) and H (encoding coefficients). Unlike PCA or SVD, the non-negativity constraint forces the algorithm to learn strictly additive, parts-based representations, making the factors directly interpretable as building blocks of the original data. | Pixel-based image classification is a fundamental remote-sensing technique that assigns each individual pixel in a satellite or aerial image to a thematic land-cover category based solely on its spectral values across multiple bands. Systematically surveyed and formalized by Lu and Weng (2007), the approach encompasses both supervised methods—where labeled training samples guide the classifier—and unsupervised clustering approaches that discover natural spectral groupings without prior labels. |
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