Semantic communication is widely touted as a key technology for propelling the sixth-generation (6G) wireless networks. However, providing effective semantic representation is quite challenging in practice. To address this issue, this article takes a crack at exploiting semantic knowledge base (KB) to usher in a new era of generative semantic communication. Via semantic KB, source messages can be characterized in low-dimensional subspaces without compromising their desired meanings, thus significantly enhancing the communication efficiency. The fundamental principle of semantic KB is first introduced, and a generative semantic communication architecture is developed by presenting three sub-KBs, namely source, task, and channel KBs. Then, the detailed construction approaches for each sub-KB are described, followed by their utilization in terms of semantic coding and transmission. A case study is also provided to showcase the superiority of generative semantic communication over conventional syntactic communication and classical semantic communication. In a nutshell, this article establishes a scientific foundation for the exciting uncharted frontier of generative semantic communication.
@article{arxiv.2311.12443,
title = {Knowledge Base Enabled Semantic Communication: A Generative Perspective},
author = {Jinke Ren and Zezhong Zhang and Jie Xu and Guanying Chen and Yaping Sun and Ping Zhang and Shuguang Cui},
journal= {arXiv preprint arXiv:2311.12443},
year = {2024}
}
Comments
This paper has been accepted by IEEE Wireless Communications and is scheduled for publication