Abstract

While manifold learning algorithms, such as ISOMAP (Isometric Mapping) and LLE (Locally Linear Embedding), can find the intrinsic low-dimensional nonlinear manifold embedded in the high-dimensional data space, they are sensitive to the neighborhood size and the noise. To overcome this problem, based on the robustness of SOM (Self-Organizing Map), a new robust manifold learning algorithm, i.e. TO-SOM (Training Orderly-SOM), was presented in this paper. By training the data set orderly according to its neighborhood structure, starting from a small neighborhood in which the data points can lie on or close to a locally linear patch, TO-SOM can guide the map onto the manifold surface, and thus can find the intrinsic manifold structure of the data set successfully. Finally, experimental results show that TO-SOM is more robust, that is, TO-SOM is less sensitive to the neighborhood size and the noise than ISOMAP and LLE.

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