See through smoke: robust indoor mapping with low-cost mmWave radar

Proceedings of the 18th International Conference on Mobile Systems, Applications, and Services Pub Date : 2019-11-01 DOI:10.1145/3386901.3388945

Chris Xiaoxuan Lu, Stefano Rosa, Peijun Zhao, Bing Wang, Changhao Chen, J. Stankovic, Niki Trigoni, A. Markham

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引用次数: 108

Abstract

This paper presents the design, implementation and evaluation of milliMap, a single-chip millimetre wave (mmWave) radar based indoor mapping system targetted towards low-visibility environments to assist in emergency response. A unique feature of milliMap is that it only leverages a low-cost, off-the-shelf mmWave radar, but can reconstruct a dense grid map with accuracy comparable to lidar, as well as providing semantic annotations of objects on the map. milliMap makes two key technical contributions. First, it autonomously overcomes the sparsity and multi-path noise of mmWave signals by combining cross-modal supervision from a co-located lidar during training and the strong geometric priors of indoor spaces. Second, it takes the spectral response of mmWave reflections as features to robustly identify different types of objects e.g. doors, walls etc. Extensive experiments in different indoor environments show that milliMap can achieve a map reconstruction error less than 0.2m and classify key semantics with an accuracy of ~ 90%, whilst operating through dense smoke.

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透过烟雾:强大的室内测绘与低成本毫米波雷达

本文介绍了基于毫米波(mmWave)雷达的单芯片室内测绘系统milliMap的设计、实现和评估，该系统针对低能见度环境，以协助应急响应。milliMap的一个独特之处在于，它只利用了一种低成本的、现成的毫米波雷达，但可以以与激光雷达相当的精度重建密集的网格地图，并提供地图上物体的语义注释。milliMap做出了两个关键的技术贡献。首先，它通过结合训练过程中同位置激光雷达的跨模态监督和室内空间的强几何先验，自主克服毫米波信号的稀疏性和多径噪声。其次，以毫米波反射的光谱响应为特征，鲁棒地识别门、墙等不同类型的物体。在不同室内环境下的大量实验表明，在浓烟环境下，milliMap的地图重建误差小于0.2m，对关键语义的分类准确率高达90%。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of the 18th International Conference on Mobile Systems, Applications, and Services

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