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Autori principali: Zhang, Jiawen, Jiang, Zhiyuan, Zhou, Sheng, Niu, Zhisheng
Natura: Preprint
Pubblicazione: 2026
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Accesso online:https://arxiv.org/abs/2605.05844
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author Zhang, Jiawen
Jiang, Zhiyuan
Zhou, Sheng
Niu, Zhisheng
author_facet Zhang, Jiawen
Jiang, Zhiyuan
Zhou, Sheng
Niu, Zhisheng
contents Radio map (RM) reconstruction is essential for environment-aware wireless networks, but practical measurements are often collected along mobility trajectories rather than randomly scattered over the target region. Such trajectory-sampled observations induce spatially heterogeneous uncertainty: near-trajectory regions are directly constrained, whereas distant or occluded regions remain weakly observed, leading to degraded reconstruction accuracy in under-constrained areas. To address this problem, we propose Trajectory-Guided Plug-and-Play Priors (TGPP), a general guidance module for sparse RM reconstruction. TGPP learns an explicit guidance map as an interpretable input-space risk prior, and an implicit guide feature that is projected and fused with backbone hidden representations. TGPP can be attached to different reconstruction backbones without changing their original task formulation. We further introduce RadioFlow-LDM, a latent flow-based generative backbone, and apply TGPP to deterministic, adversarial, graph-based, and latent generative reconstruction models. Experiments on RadioMapSeer with five trajectory sampling rates show that trajectory-sampled reconstruction differs substantially from random sparse interpolation. TGPP improves most reconstruction metrics across backbones, achieving up to 43.1% NMSE reduction relative to the corresponding base backbone without trajectory-guided priors.
format Preprint
id arxiv_https___arxiv_org_abs_2605_05844
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle TGPP: Trajectory-Guided Plug-and-Play Priors for Sparse Radio Map Reconstruction
Zhang, Jiawen
Jiang, Zhiyuan
Zhou, Sheng
Niu, Zhisheng
Signal Processing
Information Theory
Radio map (RM) reconstruction is essential for environment-aware wireless networks, but practical measurements are often collected along mobility trajectories rather than randomly scattered over the target region. Such trajectory-sampled observations induce spatially heterogeneous uncertainty: near-trajectory regions are directly constrained, whereas distant or occluded regions remain weakly observed, leading to degraded reconstruction accuracy in under-constrained areas. To address this problem, we propose Trajectory-Guided Plug-and-Play Priors (TGPP), a general guidance module for sparse RM reconstruction. TGPP learns an explicit guidance map as an interpretable input-space risk prior, and an implicit guide feature that is projected and fused with backbone hidden representations. TGPP can be attached to different reconstruction backbones without changing their original task formulation. We further introduce RadioFlow-LDM, a latent flow-based generative backbone, and apply TGPP to deterministic, adversarial, graph-based, and latent generative reconstruction models. Experiments on RadioMapSeer with five trajectory sampling rates show that trajectory-sampled reconstruction differs substantially from random sparse interpolation. TGPP improves most reconstruction metrics across backbones, achieving up to 43.1% NMSE reduction relative to the corresponding base backbone without trajectory-guided priors.
title TGPP: Trajectory-Guided Plug-and-Play Priors for Sparse Radio Map Reconstruction
topic Signal Processing
Information Theory
url https://arxiv.org/abs/2605.05844