Paper detail

Examining DOM Coordinate Effectiveness For Page Segmentation

Web pages form a cornerstone of available data for daily human consumption and with the rise of LLM-based search and learning systems a treasure trove of valuable data. The scale of this data and its unstructured format still continue to grow requiring ever more robust automated extraction and retrieval mechanisms. Existing work, leveraging the web pages Document Object Model (DOM), often derives clustering vectors from coordinates informed by the DOM such as visual placement or tree structure. The construction and component value of these vectors often go unexamined. Our work proposes and examines DOM coordinates in a detail to understand their impact on web page segmentation. Our work finds that there is no one-size-fits-all vector, and that visual coordinates under-perform compared to DOM coordinates by about 20-30% on average. This challenges the necessity of including visual coordinates in clustering vectors. Further, our work finds that simple vectors, comprised of single coordinates, fare better than complex vectors constituting 68.2% of the top performing vectors of the pages examined. Finally, we find that if a vector, clustering algorithm, and page are properly matched, one can achieve overall high segmentation accuracy at 74%. This constitutes a 20% improvement over a naive application of vectors. Conclusively, our results challenge the current orthodoxy for segmentation vector creation, opens up the possibility to optimize page segmentation via clustering on DOM coordinates, and highlights the importance of finding mechanisms to match the best approach for web page segmentation.