We propose Parabolic Position Encoding (PaPE), a parabola-based position encoding for vision modalities in attention-based architectures. Given a set of vision tokens-such as images, point clouds, videos, or event camera streams-our objective is to encode their positions while accounting for the characteristics of vision modalities. Prior works have largely extended position encodings from 1D-sequences in language to nD-structures in vision, but only with partial account of vision characteristics. We address this gap by designing PaPE from principles distilled from prior work: translation invariance, rotation invariance (PaPE-RI), distance decay, directionality, and context awareness. We evaluate PaPE on 8 datasets that span 4 modalities. We find that either PaPE or PaPE-RI achieves the top performance on 7 out of 8 datasets. Extrapolation experiments on ImageNet-1K show that PaPE extrapolates remarkably well, improving in absolute terms by up to 10.5% over the next-best position encoding. Code is available at https://github.com/DTU-PAS/parabolic-position-encoding.
Where to Attend: A Principled Vision-Centric Position Encoding with Parabolas
Parabolic Position Encoding (PaPE) is a novel position encoding method for vision modalities that improves upon existing approaches by incorporating translation invariance, rotation invariance, distance decay, directionality, and context awareness principles.
- Year
- 2026
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- arXiv 2026
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- 7
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- arxiv.org/abs/2602.01418ARXIV-DEFAULT
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