Understand-Before-Talk (UBT): A Semantic Communication Approach to 6G Networks

TL;DR

This paper introduces a lightweight hashing-based semantic extraction method for 6G wireless communication, enabling efficient, secure, and low-latency interpretation of multi-modal data in semantic communication frameworks.

Contribution

It proposes a novel hashing-based semantic extraction approach that addresses discrete constraints and knowledge base interactions in semantic communication for 6G networks.

Findings

Effective semantic extraction demonstrated on large image datasets

Enhanced semantic signatures improve bulk transmission efficiency

Domain adaptive hashing boosts multi-modal data handling

Abstract

In Shannon theory, semantic aspects of communication were identified but considered irrelevant to the technical communication problems. Semantic communication (SC) techniques have recently attracted renewed research interests in (6G) wireless because they have the capability to support an efficient interpretation of the significance and meaning intended by a sender (or accomplishment of the goal) when dealing with multi-modal data such as videos, images, audio, text messages, and so on, which would be the case for various applications such as intelligent transportation systems where each autonomous vehicle needs to deal with real-time videos and data from a number of sensors including radars. A notable difficulty of existing SC frameworks lies in handling the discrete constraints imposed on the pursued semantic coding and its interaction with the independent knowledge base, which makes reliable semantic extraction extremely challenging. Therefore, we develop a new lightweight hashing-based semantic extraction approach to the SC framework, where our learning objective is to generate one-time signatures (hash codes) using supervised learning for low latency, secure and efficient management of the SC dynamics. We first evaluate the proposed semantic extraction framework over large image data sets, extend it with domain adaptive hashing and then demonstrate the effectiveness of "semantics signature" in bulk transmission and multi-modal data.