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Main Authors: Zhang, Yu, Yan, Jiarui, Liu, Yue, Ke, Tenglun, Wang, Yimeng, Qin, Zhijin
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2605.29332
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author Zhang, Yu
Yan, Jiarui
Liu, Yue
Ke, Tenglun
Wang, Yimeng
Qin, Zhijin
author_facet Zhang, Yu
Yan, Jiarui
Liu, Yue
Ke, Tenglun
Wang, Yimeng
Qin, Zhijin
contents In high-mobility scenarios with time-frequency doubly-selective channels, existing semantic communication systems suffer significant performance degradation. To address this issue, we propose a semantic communication framework that synergistically integrates multiple-input multiple-output orthogonal time frequency space (MIMO-OTFS) with semantic-aware sub-channel allocation. First, an entropy module is employed to evaluate importance of different semantic features, and the Kendall correlation coefficient is used to quantify the alignment between semantic importance and sub-channel conditions. Subsequently, joint optimization of the encoder and decoder is achieved through a comprehensive loss function that balances image classification accuracy, reconstruction quality, and sub-channel matching degree. Experimental results confirm the superior reconstruction quality of our proposed framework compared to conventional semantic communication systems based on orthogonal frequency division multiplexing in high-mobility channel environment.
format Preprint
id arxiv_https___arxiv_org_abs_2605_29332
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle MIMO-OTFS-Based Semantic Communication for High-Mobility Scenarios
Zhang, Yu
Yan, Jiarui
Liu, Yue
Ke, Tenglun
Wang, Yimeng
Qin, Zhijin
Signal Processing
In high-mobility scenarios with time-frequency doubly-selective channels, existing semantic communication systems suffer significant performance degradation. To address this issue, we propose a semantic communication framework that synergistically integrates multiple-input multiple-output orthogonal time frequency space (MIMO-OTFS) with semantic-aware sub-channel allocation. First, an entropy module is employed to evaluate importance of different semantic features, and the Kendall correlation coefficient is used to quantify the alignment between semantic importance and sub-channel conditions. Subsequently, joint optimization of the encoder and decoder is achieved through a comprehensive loss function that balances image classification accuracy, reconstruction quality, and sub-channel matching degree. Experimental results confirm the superior reconstruction quality of our proposed framework compared to conventional semantic communication systems based on orthogonal frequency division multiplexing in high-mobility channel environment.
title MIMO-OTFS-Based Semantic Communication for High-Mobility Scenarios
topic Signal Processing
url https://arxiv.org/abs/2605.29332