Semantic Communication for Efficient Point Cloud Transmission

TL;DR

This paper introduces a novel semantic communication system for 3D point cloud transmission that outperforms traditional methods in quality and robustness, especially under noisy channel conditions.

Contribution

The paper proposes a new semantic communication framework that separately encodes global and local features of point clouds, improving efficiency and resilience over existing methods.

Findings

Outperforms traditional Octree compression in reconstruction quality.

Maintains over 37dB quality under severe channel noise.

Effective in adverse channel conditions with high reconstruction fidelity.

Abstract

As three-dimensional acquisition technologies like LiDAR cameras advance, the need for efficient transmission of 3D point clouds is becoming increasingly important. In this paper, we present a novel semantic communication (SemCom) approach for efficient 3D point cloud transmission. Different from existing methods that rely on downsampling and feature extraction for compression, our approach utilizes a parallel structure to separately extract both global and local information from point clouds. This system is composed of five key components: local semantic encoder, global semantic encoder, channel encoder, channel decoder, and semantic decoder. Our numerical results indicate that this approach surpasses both the traditional Octree compression methodology and alternative deep learning-based strategies in terms of reconstruction quality. Moreover, our system is capable of achieving high-quality point cloud reconstruction under adverse channel conditions, specifically maintaining a reconstruction quality of over 37dB even with severe channel noise.