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Main Authors: Zheng, Can, He, Jiguang, Cai, Guofa, Li, Nannan, Bennis, Mehdi, Wymeersch, Henk, Debbah, Merouane
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2603.29796
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author Zheng, Can
He, Jiguang
Cai, Guofa
Li, Nannan
Bennis, Mehdi
Wymeersch, Henk
Debbah, Merouane
author_facet Zheng, Can
He, Jiguang
Cai, Guofa
Li, Nannan
Bennis, Mehdi
Wymeersch, Henk
Debbah, Merouane
contents Future wireless systems increasingly require predictive and transferable representations that can support multiple physical-layer (PHY) tasks under dynamic environments. However, most existing supervised learning-based methods are designed for a single task, which leads to high adaptation cost. To address this issue, we propose a joint-embedding predictive architecture for multimodal sensing-assisted communications (JEPA-MSAC), a self-supervised multimodal predictive representation learning framework for wireless environments. The proposed framework first maps multimodal sensing and communication measurements into a unified token space, and then pretrains a shared backbone using temporal block-masked JEPA to learn a predictive latent space that captures environment dynamics and cross-modal dependencies. After pretraining, the backbone is frozen and reused as a general future-feature generator, on top of which lightweight task heads are trained for localization, beam prediction, and received signal strength indicator (RSSI) prediction. Extensive experiments show the latent state supports accurate multi-task prediction with low adaptation cost. Additionally, ablation studies reveal its scaling behavior and the impact of key pretraining setups.
format Preprint
id arxiv_https___arxiv_org_abs_2603_29796
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle JEPA-MSAC: A Joint-Embedding Predictive Architecture for Multimodal Sensing-Assisted Communications
Zheng, Can
He, Jiguang
Cai, Guofa
Li, Nannan
Bennis, Mehdi
Wymeersch, Henk
Debbah, Merouane
Signal Processing
Future wireless systems increasingly require predictive and transferable representations that can support multiple physical-layer (PHY) tasks under dynamic environments. However, most existing supervised learning-based methods are designed for a single task, which leads to high adaptation cost. To address this issue, we propose a joint-embedding predictive architecture for multimodal sensing-assisted communications (JEPA-MSAC), a self-supervised multimodal predictive representation learning framework for wireless environments. The proposed framework first maps multimodal sensing and communication measurements into a unified token space, and then pretrains a shared backbone using temporal block-masked JEPA to learn a predictive latent space that captures environment dynamics and cross-modal dependencies. After pretraining, the backbone is frozen and reused as a general future-feature generator, on top of which lightweight task heads are trained for localization, beam prediction, and received signal strength indicator (RSSI) prediction. Extensive experiments show the latent state supports accurate multi-task prediction with low adaptation cost. Additionally, ablation studies reveal its scaling behavior and the impact of key pretraining setups.
title JEPA-MSAC: A Joint-Embedding Predictive Architecture for Multimodal Sensing-Assisted Communications
topic Signal Processing
url https://arxiv.org/abs/2603.29796