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Channel Knowledge Map Construction via Physics-Inspired Diffusion Model Without Prior Observations

Published 2 Dec 2025 in eess.SP | (2512.02757v1)

Abstract: The ability to construct Channel Knowledge Map (CKM) with high precision is essential for environment awareness in 6G wireless systems. However, most existing CKM construction methods formulate the task as an image super-resolution or generation problem, thereby employing models originally developed for computer vision. As a result, the generated CKMs often fail to capture the underlying physical characteristics of wireless propagation. In this paper, we focus on the construction of CKM for large-scale fading scenarios and design three physics-based constraint terms to characterize the spatial distribution patterns of large-scale fading. By integrating these physical constraints with a state-of-the-art diffusion model that possesses superior generative capability, a physics-inspired diffusion model for CKM construction is proposed. Following this motivation, we derive the loss function of the diffusion model augmented with physics-based constraint terms and further design the training and generation framework for the proposed physics-inspired CKM generation diffusion model. Extensive experiments show that our approach outperforms all existing methods in terms of construction accuracy. Moreover, the proposed model provides a unified and effective framework with strong potential for generating diverse, accurate, and physically consistent CKM.

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