A Unified Blockchain-Semantic Framework for Wireless Edge Intelligence Enabled Web 3.0
Abstract
Web 3.0 enables user-generated contents and user-selected authorities. With decentralized wireless edge computing architectures, Web 3.0 allows users to read, write, and own contents. A core technology that enables Web 3.0 goals is blockchain, which provides security services by recording content in a decentralized and transparent manner. However, the explosion of on-chain recorded contents and the fast-growing number of users cause increasingly unaffordable computing and storage resource consumption. A promising paradigm is to analyze the semantic information of contents that can convey precisely the desired meanings without consuming many resources. In this article, we propose a unified blockchain-semantic ecosystems framework for wireless edge intelligence-enabled Web 3.0. Our framework consists of six key components to exchange semantic demands. We then introduce an Oracle-based proof of semantic mechanism to implement on-chain and off-chain interactions of Web 3.0 ecosystems on semantic verification algorithms while maintaining service security. An adaptive Deep Reinforcement Learning-based sharding mechanism on Oracle is designed to improve interaction efficiency, which can facilitate Web 3.0 ecosystems to deal with varied semantic demands. Finally, a case study is presented to show that the proposed framework can dynamically adjust Oracle settings according to varied semantic demands.
Keywords
Cite
@article{arxiv.2210.15130,
title = {A Unified Blockchain-Semantic Framework for Wireless Edge Intelligence Enabled Web 3.0},
author = {Yijing Lin and Zhipeng Gao and Hongyang Du and Dusit Niyato and Jiawen Kang and Ruilong Deng and Xuemin Sherman Shen},
journal= {arXiv preprint arXiv:2210.15130},
year = {2022}
}
Comments
8 pages, 5 figures, 1 table