Yuhang Jiao scite author profile

In this paper, we develop a novel Backtrackless Aligned-Spatial Graph Convolutional Network (BASGCN) model to learn effective features for graph classification. Our idea is to transform arbitrary-sized graphs into fixed-sized backtrackless aligned grid structures and define a new spatial graph convolution operation associated with the grid structures. We show that the proposed BASGCN model not only reduces the problems of information loss and imprecise information representation arising in existing spatially-based Graph Convolutional Network (GCN) models, but also bridges the theoretical gap between traditional Convolutional Neural Network (CNN) models and spatially-based GCN models. Furthermore, the proposed BASGCN model can both adaptively discriminate the importance between specified vertices during the convolution process and reduce the notorious tottering problem of existing spatially-based GCNs related to the Weisfeiler-Lehman algorithm, explaining the effectiveness of the proposed model. Experiments on standard graph datasets demonstrate the effectiveness of the proposed model.

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Surge-Heading Guidance-Based Finite-Time Path Following of Underactuated Marine Vehicles

Wang

Sun

Jiao

et al. 2019

IEEE Trans. Veh. Technol.

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Adaptive Feature Selection Based on the Most Informative Graph-Based Features

Cui

Jiao

Bai

et al. 2017

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Abstract. In this paper, we propose a novel method to adaptively select the most informative and least redundant feature subset, which has strong discriminating power with respect to the target label. Unlike most traditional methods using vectorial features, our proposed approach is based on graph-based features and thus incorporates the relationships between feature samples into the feature selection process. To efficiently encapsulate the main characteristics of the graphbased features, we probe each graph structure using the steady state random walk and compute a probability distribution of the walk visiting the vertices. Furthermore, we propose a new information theoretic criterion to measure the joint relevance of different pairwise feature combinations with respect to the target feature, through the Jensen-Shannon divergence measure between the probability distributions from the random walk on different graphs. By solving a quadratic programming problem, we use the new measure to automatically locate the subset of the most informative features, that have both low redundancy and strong discriminating power. Unlike most existing state-of-the-art feature selection methods, the proposed information theoretic feature selection method can accommodate both continuous and discrete target features. Experiments on the problem of P2P lending platforms in China demonstrate the effectiveness of the proposed method.

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Yuhang Jiao

Learning Aligned-Spatial Graph Convolutional Networks for Graph Classification

Hierarchical Bipartite Graph Neural Networks: Towards Large-Scale E-commerce Applications

Learning Backtrackless Aligned-Spatial Graph Convolutional Networks for Graph Classification

Surge-Heading Guidance-Based Finite-Time Path Following of Underactuated Marine Vehicles

Adaptive Feature Selection Based on the Most Informative Graph-Based Features

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