Towards Generative Ray Path Sampling for Faster Point-to-Point Ray Tracing

• URL: http://arxiv.org/abs/2410.23773v2
• Date: Mon, 04 Nov 2024 18:42:07 GMT
• Title: Towards Generative Ray Path Sampling for Faster Point-to-Point Ray Tracing
• Authors: Jérome Eertmans, Nicola Di Cicco, Claude Oestges, Laurent Jacques, Enrico M. Vittuci, Vittorio Degli-Esposti,
• Abstract summary: We propose a Machine Learning-aided Ray Tracing approach to efficiently sample potential ray paths. Our model learns to prioritize potentially valid paths among all possible paths and scales linearly with scene complexity.
• Score: 5.723224501252867
• License:
• Abstract: Radio propagation modeling is essential in telecommunication research, as radio channels result from complex interactions with environmental objects. Recently, Machine Learning has been attracting attention as a potential alternative to computationally demanding tools, like Ray Tracing, which can model these interactions in detail. However, existing Machine Learning approaches often attempt to learn directly specific channel characteristics, such as the coverage map, making them highly specific to the frequency and material properties and unable to fully capture the underlying propagation mechanisms. Hence, Ray Tracing, particularly the Point-to-Point variant, remains popular to accurately identify all possible paths between transmitter and receiver nodes. Still, path identification is computationally intensive because the number of paths to be tested grows exponentially while only a small fraction is valid. In this paper, we propose a Machine Learning-aided Ray Tracing approach to efficiently sample potential ray paths, significantly reducing the computational load while maintaining high accuracy. Our model dynamically learns to prioritize potentially valid paths among all possible paths and scales linearly with scene complexity. Unlike recent alternatives, our approach is invariant with translation, scaling, or rotation of the geometry, and avoids dependency on specific environment characteristics.

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