IEEE Trans Image Process. 2017 Apr;26(4):1607-1622. doi: 10.1109/TIP.2017.2654163. Epub 2017 Jan 16.
We propose two nuclear- and L2,1-norm regularized 2D neighborhood preserving projection (2DNPP) methods for extracting representative 2D image features. 2DNPP extracts neighborhood preserving features by minimizing a Frobenius norm-based reconstruction error that is very sensitive noise and outliers in given data. To make the distance metric more reliable and robust, and encode the neighborhood reconstruction error more accurately, we minimize the nuclear- and L2,1-norm-based reconstruction error, respectively and measure it over each image. Technically, we propose two enhanced variants of 2DNPP, nuclear-norm-based 2DNPP and sparse reconstruction-based 2DNPP. Besides, to optimize the projection for more promising feature extraction, we also add the nuclear- and sparse L2,1-norm constraints on it accordingly, where L2,1-norm ensures the projection to be sparse in rows so that discriminative features are learnt in the latent subspace and the nuclear-norm ensures the low-rank property of features by projecting data into their respective subspaces. By fully considering the neighborhood preserving power, using more reliable and robust distance metric, and imposing the low-rank or sparse constraints on projections at the same time, our methods can outperform related state-of-the-arts in a variety of simulation settings.
我们提出了两种基于核范数和 L2,1-范数正则化的二维邻域保持投影(2DNPP)方法,用于提取有代表性的二维图像特征。2DNPP 通过最小化基于 Frobenius 范数的重建误差来提取邻域保持特征,该误差对给定数据中的噪声和异常值非常敏感。为了使距离度量更加可靠和鲁棒,并更准确地编码邻域重建误差,我们分别最小化基于核范数和 L2,1-范数的重建误差,并对每个图像进行测量。从技术上讲,我们提出了两种增强型的 2DNPP,基于核范数的 2DNPP 和基于稀疏重建的 2DNPP。此外,为了优化投影以实现更有前途的特征提取,我们还相应地在其上添加了核范数和稀疏 L2,1-范数约束,其中 L2,1-范数确保投影在行方向上稀疏,从而在潜在子空间中学习有判别力的特征,而核范数通过将数据投影到各自的子空间来确保特征的低秩性质。通过充分考虑邻域保持能力,使用更可靠和鲁棒的距离度量,并同时对投影施加低秩或稀疏约束,我们的方法在各种模拟设置中都优于相关的最先进方法。
