Secure Web Objects: Building Blocks for Metaverse Interoperability and Decentralization
Abstract
This position paper explores how to support the Web's evolution through an underlying data-centric approach that better matches the data-orientedness of modern and emerging applications. We revisit the original vision of the Web as a hypermedia system that supports document composability and application interoperability via name-based data access. We propose the use of secure web objects (SWO), a data-oriented communication approach that can reduce complexity, centrality, and inefficiency, particularly for collaborative and local-first applications, such as the Metaverse and other collaborative applications. SWO are named, signed, application-defined objects that are secured independently of their containers or communications channels, an approach that leverages the results from over a decade-long data-centric networking research. This approach does not require intermediation by aggregators of identity, storage, and other services that are common today. We present a brief design overview, illustrated through prototypes for two editors of shared hypermedia documents: one for 3D and one for LaTeX. We also discuss our findings and suggest a roadmap for future research.
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Cite
@article{arxiv.2407.15221,
title = {Secure Web Objects: Building Blocks for Metaverse Interoperability and Decentralization},
author = {Tianyuan Yu and Xinyu Ma and Varun Patil and Yekta Kocaogullar and Yulong Zhang and Jeff Burke and Dirk Kutscher and Lixia Zhang},
journal= {arXiv preprint arXiv:2407.15221},
year = {2024}
}
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9 pages