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Poster

Infinite-Dimensional Feature Interaction

Chenhui Xu · FUXUN YU · Maoliang Li · Zihao Zheng · Zirui Xu · Jinjun Xiong · Xiang Chen

East Exhibit Hall A-C #2003
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Wed 11 Dec 11 a.m. PST — 2 p.m. PST

Abstract:

The past neural network design has largely focused on feature \textit{representation space} dimension and its capacity scaling (e.g., width, depth), but overlooked the feature \textit{interaction space} scaling. Recent advancements have shown shifted focus towards element-wise multiplication to facilitate higher-dimensional feature interaction space for better information transformation. Despite this progress, multiplications predominantly capture low-order interactions, thus remaining confined to a finite-dimensional interaction space. To transcend this limitation, classic kernel methods emerge as a promising solution to engage features in an infinite-dimensional space. We introduce InfiNet, a model architecture that enables feature interaction within an infinite-dimensional space created by RBF kernel. Our experiments reveal that InfiNet achieves new state-of-the-art, owing to its capability to leverage infinite-dimensional interactions, significantly enhancing model performance.

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