Noise-robust classification with hypergraph neural network
This paper offers an incremental improvement for researchers working on robust classification in the presence of noisy labels.
This paper addresses the noisy label learning problem by proposing a novel hypergraph neural network method. The experimental results demonstrate that hypergraph neural network methods, including the proposed one, achieve superior performance as noise levels increase, and are at least as effective as graph neural networks.
This paper presents a novel version of the hypergraph neural network method. This method is utilized to solve the noisy label learning problem. First, we apply the PCA dimensional reduction technique to the feature matrices of the image datasets in order to reduce the "noise" and the redundant features in the feature matrices of the image datasets and to reduce the runtime constructing the hypergraph of the hypergraph neural network method. Then, the classic graph-based semi-supervised learning method, the classic hypergraph based semi-supervised learning method, the graph neural network, the hypergraph neural network, and our proposed hypergraph neural network are employed to solve the noisy label learning problem. The accuracies of these five methods are evaluated and compared. Experimental results show that the hypergraph neural network methods achieve the best performance when the noise level increases. Moreover, the hypergraph neural network methods are at least as good as the graph neural network.