Jiaqi Zhu scite author profile

Graph Neural Networks (GNNs) extend basic Neural Networks (NNs) by using the graph structures based on the relational inductive bias (homophily assumption). Though GNNs are believed to outperform NNs in real-world tasks, performance advantages of GNNs over graph-agnostic NNs seem not generally satisfactory. Heterophily has been considered as a main cause and numerous works have been put forward to address it. In this paper, we first show that not all cases of heterophily are harmful 1 for GNNs with aggregation operation. Then, we propose new metrics based on a similarity matrix which considers the influence of both graph structure and input features on GNNs. The metrics demonstrate advantages over the commonly used homophily metrics by tests on synthetic graphs. From the metrics and the observations, we find some cases of harmful heterophily can be addressed by diversification operation. With this fact and knowledge of filterbanks, we propose the Adaptive Channel Mixing (ACM) framework to adaptively exploit aggregation, diversification and identity channels in each GNN layer to address harmful heterophily. We validate the ACM-augmented baselines with 10 realworld node classification tasks. They consistently achieve significant performance gain and exceed the state-of-the-art GNNs on most of the tasks without incurring significant computational burden.Preprint. Under review.

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Research on Deep Learning Based Code Generation from Natural Language Description

Zhu

Shen

2020

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Deep Learning Based Program Generation From Requirements Text: Are We There Yet?

Hui¹,

Shen

Zhu

et al. 2022

IIEEE Trans. Software Eng.

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Attention-based parallel networks (APNet) for PM2.5 spatiotemporal prediction

Zhu

Deng

Zhao

et al. 2021

Science of The Total Environment

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Automatic and Accurate Expansion of Abbreviations in Parameters

Jiang

Hui

Zhu

et al. 2020

IIEEE Trans. Software Eng.

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Jiaqi Zhu

Is Heterophily A Real Nightmare For Graph Neural Networks To Do Node Classification?

Research on Deep Learning Based Code Generation from Natural Language Description

Deep Learning Based Program Generation From Requirements Text: Are We There Yet?

Attention-based parallel networks (APNet) for PM2.5 spatiotemporal prediction

Automatic and Accurate Expansion of Abbreviations in Parameters

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