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A Semantic Communication System for Real-time 3D Reconstruction Tasks

Збережено в:
Опубліковано в::arXiv.org (Dec 2, 2024), p. n/a
Автор: Zhang, Jiaxing
Інші автори: Guo, Luosong, Zhu, Kun, Qiu, Houming
Опубліковано:
Cornell University Library, arXiv.org
Предмети:
Semantics
Computation
Communication
Scene analysis
Design
Communications systems
Algorithms
Encoding-Decoding
Data transmission
Transmission efficiency
Modules
Maps
Localization
Real time
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Короткий огляд:3D semantic maps have played an increasingly important role in high-precision robot localization and scene understanding. However, real-time construction of semantic maps requires mobile edge devices with extremely high computing power, which are expensive and limit the widespread application of semantic mapping. In order to address this limitation, inspired by cloud-edge collaborative computing and the high transmission efficiency of semantic communication, this paper proposes a method to achieve real-time semantic mapping tasks with limited-resource mobile devices. Specifically, we design an encoding-decoding semantic communication framework for real-time semantic mapping tasks under limited-resource situations. In addition, considering the impact of different channel conditions on communication, this paper designs a module based on the attention mechanism to achieve stable data transmission under various channel conditions. In terms of simulation experiments, based on the TUM dataset, it was verified that the system has an error of less than 0.1% compared to the groundtruth in mapping and localization accuracy and is superior to some novel semantic communication algorithms in real-time performance and channel adaptation. Besides, we implement a prototype system to verify the effectiveness of the proposed framework and designed module in real indoor scenarios. The results show that our system can complete real-time semantic mapping tasks for common indoor objects (chairs, computers, people, etc.) with a limited-resource device, and the mapping update time is less than 1 second.
ISSN:2331-8422
Джерело:Engineering Database