Locality preserving projection (LPP) is a newly emerging fault detection method which can discover local manifold structure of a data set to be analyzed, but its linear assumption may lead to monitoring performance de...Locality preserving projection (LPP) is a newly emerging fault detection method which can discover local manifold structure of a data set to be analyzed, but its linear assumption may lead to monitoring performance degradation for complicated nonlinear industrial processes. In this paper, an improved LPP method, referred to as sparse kernel locality preserving projection (SKLPP) is proposed for nonlinear process fault detection. Based on the LPP model, kernel trick is applied to construct nonlinear kernel model. Furthermore, for reducing the computational complexity of kernel model, feature samples selection technique is adopted to make the kernel LPP model sparse. Lastly, two monitoring statistics of SKLPP model are built to detect process faults. Simulations on a continuous stirred tank reactor (CSTR) system show that SKLPP is more effective than LPP in terms of fault detection performance.展开更多
流形学习方法可以有效地发现存在于高维图像空间的低维子流形并进行维数约简,但它是一种非监督学习方法,其鉴别能力反而不如传统的维数约简方法,而且流形学习方法大多没有明晰的投影矩阵,很难直接对新样本进行维数约简。针对这两个问题...流形学习方法可以有效地发现存在于高维图像空间的低维子流形并进行维数约简,但它是一种非监督学习方法,其鉴别能力反而不如传统的维数约简方法,而且流形学习方法大多没有明晰的投影矩阵,很难直接对新样本进行维数约简。针对这两个问题,提出一种新的有监督的核局部线性嵌入算法(SKLLE,supervised ker-nel local linear embedding)。该算法通过非线性核映射将人脸样本投影到高维核特征空间,然后将人脸局部流形的结构信息和样本的类别信息进行有效地结合进行维数约简,提取低维鉴别流形特征用于分类。SKLLE算法不仅能发现嵌入于高维人脸图像的低维子流形,而且增强了局部类间的联系,同时对新样本有较好的泛化性,实验结果表明该算法能有效的提高人脸性别识别的性能。展开更多
基金Supported by the National Natural Science Foundation of China (61273160), the Natural Science Foundation of Shandong Province of China (ZR2011FM014) and the Fundamental Research Funds for the Central Universities (10CX04046A).
文摘Locality preserving projection (LPP) is a newly emerging fault detection method which can discover local manifold structure of a data set to be analyzed, but its linear assumption may lead to monitoring performance degradation for complicated nonlinear industrial processes. In this paper, an improved LPP method, referred to as sparse kernel locality preserving projection (SKLPP) is proposed for nonlinear process fault detection. Based on the LPP model, kernel trick is applied to construct nonlinear kernel model. Furthermore, for reducing the computational complexity of kernel model, feature samples selection technique is adopted to make the kernel LPP model sparse. Lastly, two monitoring statistics of SKLPP model are built to detect process faults. Simulations on a continuous stirred tank reactor (CSTR) system show that SKLPP is more effective than LPP in terms of fault detection performance.
文摘流形学习方法可以有效地发现存在于高维图像空间的低维子流形并进行维数约简,但它是一种非监督学习方法,其鉴别能力反而不如传统的维数约简方法,而且流形学习方法大多没有明晰的投影矩阵,很难直接对新样本进行维数约简。针对这两个问题,提出一种新的有监督的核局部线性嵌入算法(SKLLE,supervised ker-nel local linear embedding)。该算法通过非线性核映射将人脸样本投影到高维核特征空间,然后将人脸局部流形的结构信息和样本的类别信息进行有效地结合进行维数约简,提取低维鉴别流形特征用于分类。SKLLE算法不仅能发现嵌入于高维人脸图像的低维子流形,而且增强了局部类间的联系,同时对新样本有较好的泛化性,实验结果表明该算法能有效的提高人脸性别识别的性能。