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Indoor Radio Map Construction via Ray Tracing With RGB-D Sensor-Based 3D Reconstruction: Concept and Experiments in WLAN Systems

Norisato Suga, Y. Maeda, Koya Sato

2023IEEE Access15 citationsDOIOpen Access PDF

Abstract

This paper proposes an RGB-D sensor-aided ray-tracing simulation framework for indoor radio map construction that models indoor information, such as walls and obstacles, as a set of cuboids. Radio maps can accelerate indoor wireless systems, including resource optimization and fingerprint-based localization. We can construct an accurate radio map using a ray-tracing algorithm with precise information about indoor structures and obstacles. However, it is difficult to acquire this indoor information because manual observations, including the placement of obstacles, are expensive. To mitigate this critical drawback, we propose the acquisition of colored point clouds using an RGB-D sensor. After the point clouds are labeled via a three-dimensional semantic segmentation task, we model the indoor information as a set of cuboids that can be immediately used for the ray-tracing simulation. Indoor experiments using wireless LANs over 5180 and 2452 MHz clarified that the proposed method accurately automates the radio-map construction process from indoor information acquisition to radio propagation simulation.

Topics & Concepts

Computer sciencePoint cloudRGB color modelComputer visionReal-time computingRay tracing (physics)Artificial intelligenceWirelessWireless sensor networkProcess (computing)Computer networkTelecommunicationsOperating systemQuantum mechanicsPhysicsIndoor and Outdoor Localization TechnologiesMillimeter-Wave Propagation and ModelingRadio Wave Propagation Studies
Indoor Radio Map Construction via Ray Tracing With RGB-D Sensor-Based 3D Reconstruction: Concept and Experiments in WLAN Systems | Litcius