DATA-DRIVEN LEARNING OF GEOMETRIC SCATTERING MODULES FOR GNNS.

Alexander Tong, Frederick Wenkel, Kincaid Macdonald, Smita Krishnaswamy, Guy Wolf
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Abstract

We propose a new graph neural network (GNN) module, based on relaxations of recently proposed geometric scattering transforms, which consist of a cascade of graph wavelet filters. Our learnable geometric scattering (LEGS) module enables adaptive tuning of the wavelets to encourage band-pass features to emerge in learned representations. The incorporation of our LEGS-module in GNNs enables the learning of longer-range graph relations compared to many popular GNNs, which often rely on encoding graph structure via smoothness or similarity between neighbors. Further, its wavelet priors result in simplified architectures with significantly fewer learned parameters compared to competing GNNs. We demonstrate the predictive performance of LEGS-based networks on graph classification benchmarks, as well as the descriptive quality of their learned features in biochemical graph data exploration tasks.

Abstract Image

Abstract Image

以数据为驱动学习 gnns 的几何散射模块。
我们提出了一种新的图神经网络(GNN)模块,它基于最近提出的几何散射变换的松弛,由一串图小波滤波器组成。我们的可学习几何散射(LEGS)模块能对小波进行自适应调整,以鼓励在学习的表征中出现带通特征。与许多流行的 GNN 相比,在 GNN 中加入我们的 LEGS 模块能够学习更长距离的图关系,后者通常依赖于通过平滑度或邻域之间的相似性对图结构进行编码。此外,与同类 GNN 相比,其小波前验可简化架构,大大减少学习参数。我们展示了基于 LEGS 的网络在图分类基准上的预测性能,以及在生化图数据探索任务中学习到的特征的描述质量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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