Litcius/Paper detail

What Makes for Hierarchical Vision Transformer?

Y.K. Fang, Xinggang Wang, Rui Wu, Wenyu Liu

2023IEEE Transactions on Pattern Analysis and Machine Intelligence12 citationsDOI

Abstract

Recent studies indicate that hierarchical Vision Transformer (ViT) with a macro architecture of interleaved non-overlapped window-based self-attention & shifted-window operation can achieve state-of-the-art performance in various visual recognition tasks, and challenges the ubiquitous convolutional neural networks (CNNs) using densely slid kernels. In most recently proposed hierarchical ViTs, self-attention is the de-facto standard for spatial information aggregation. In this paper, we question whether self-attention is the only choice for hierarchical ViT to attain strong performance, and study the effects of different kinds of cross-window communication methods. To this end, we replace self-attention layers with embarrassingly simple linear mapping layers, and the resulting proof-of-concept architecture termed TransLinear can achieve very strong performance in ImageNet-[Formula: see text] image recognition. Moreover, we find that TransLinear is able to leverage the ImageNet pre-trained weights and demonstrates competitive transfer learning properties on downstream dense prediction tasks such as object detection and instance segmentation. We also experiment with other alternatives to self-attention for content aggregation inside each non-overlapped window under different cross-window communication approaches. Our results reveal that the macro architecture, other than specific aggregation layers or cross-window communication mechanisms, is more responsible for hierarchical ViT's strong performance and is the real challenger to the ubiquitous CNN's dense sliding window paradigm.

Topics & Concepts

Computer scienceArtificial intelligenceLeverage (statistics)Window (computing)Sliding window protocolTransformerConvolutional neural networkPattern recognition (psychology)VoltageQuantum mechanicsOperating systemPhysicsAdvanced Neural Network ApplicationsDomain Adaptation and Few-Shot LearningCOVID-19 diagnosis using AI