The Locality and Symmetry of Positional Encodings
This work provides insights for improving positional encodings in transformer-based language models, though it is incremental as it builds on existing research without introducing a new method.
The study systematically analyzed positional encodings in BERT-style models, identifying locality and symmetry as core properties that correlate with downstream task performance, and introduced new probing tasks where current encodings perform poorly.
Positional Encodings (PEs) are used to inject word-order information into transformer-based language models. While they can significantly enhance the quality of sentence representations, their specific contribution to language models is not fully understood, especially given recent findings that various positional encodings are insensitive to word order. In this work, we conduct a systematic study of positional encodings in \textbf{Bidirectional Masked Language Models} (BERT-style) , which complements existing work in three aspects: (1) We uncover the core function of PEs by identifying two common properties, Locality and Symmetry; (2) We show that the two properties are closely correlated with the performances of downstream tasks; (3) We quantify the weakness of current PEs by introducing two new probing tasks, on which current PEs perform poorly. We believe that these results are the basis for developing better PEs for transformer-based language models. The code is available at \faGithub~ \url{https://github.com/tigerchen52/locality\_symmetry}