Self-supervised learning for using overhead imagery as maps in outdoor range sensor localization.

IF 7.5 1区 计算机科学 Q1 ROBOTICS
Tim Y Tang, Daniele De Martini, Shangzhe Wu, Paul Newman
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引用次数: 0

Abstract

Traditional approaches to outdoor vehicle localization assume a reliable, prior map is available, typically built using the same sensor suite as the on-board sensors used during localization. This work makes a different assumption. It assumes that an overhead image of the workspace is available and utilizes that as a map for use for range-based sensor localization by a vehicle. Here, range-based sensors are radars and lidars. Our motivation is simple, off-the-shelf, publicly available overhead imagery such as Google satellite images can be a ubiquitous, cheap, and powerful tool for vehicle localization when a usable prior sensor map is unavailable, inconvenient, or expensive. The challenge to be addressed is that overhead images are clearly not directly comparable to data from ground range sensors because of their starkly different modalities. We present a learned metric localization method that not only handles the modality difference, but is also cheap to train, learning in a self-supervised fashion without requiring metrically accurate ground truth. By evaluating across multiple real-world datasets, we demonstrate the robustness and versatility of our method for various sensor configurations in cross-modality localization, achieving localization errors on-par with a prior supervised approach while requiring no pixel-wise aligned ground truth for supervision at training. We pay particular attention to the use of millimeter-wave radar, which, owing to its complex interaction with the scene and its immunity to weather and lighting conditions, makes for a compelling and valuable use case.

Abstract Image

Abstract Image

Abstract Image

在室外范围传感器定位中使用高空图像作为地图的自监督学习。
传统的室外车辆定位方法假设有可靠的先验地图,通常使用与定位过程中使用的车载传感器相同的传感器套件构建。这项工作的假设有所不同。它假定工作区的俯瞰图像可用,并将其用作地图,用于车辆基于测距传感器的定位。在这里,基于测距的传感器是雷达和激光雷达。我们的动机很简单,当可用的先前传感器地图不可用、不方便或昂贵时,谷歌卫星图像等现成的、可公开获取的高空图像可以成为一种无处不在、廉价而强大的车辆定位工具。需要解决的难题是,高空图像显然不能直接与地面测距传感器的数据进行比较,因为它们的模式截然不同。我们提出了一种学习度量定位方法,它不仅能处理模态差异,而且训练成本低,能以自我监督的方式学习,无需度量精确的地面实况。通过对多个真实世界数据集的评估,我们证明了我们的方法在跨模态定位中对各种传感器配置的鲁棒性和通用性,其定位误差与先前的监督方法相当,同时在训练时不需要像素对齐的地面实况进行监督。我们特别关注毫米波雷达的使用,由于其与场景的复杂互动以及不受天气和光照条件的影响,毫米波雷达是一个引人注目且有价值的应用案例。
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来源期刊
International Journal of Robotics Research
International Journal of Robotics Research 工程技术-机器人学
CiteScore
22.20
自引率
0.00%
发文量
34
审稿时长
6-12 weeks
期刊介绍: The International Journal of Robotics Research (IJRR) has been a leading peer-reviewed publication in the field for over two decades. It holds the distinction of being the first scholarly journal dedicated to robotics research. IJRR presents cutting-edge and thought-provoking original research papers, articles, and reviews that delve into groundbreaking trends, technical advancements, and theoretical developments in robotics. Renowned scholars and practitioners contribute to its content, offering their expertise and insights. This journal covers a wide range of topics, going beyond narrow technical advancements to encompass various aspects of robotics. The primary aim of IJRR is to publish work that has lasting value for the scientific and technological advancement of the field. Only original, robust, and practical research that can serve as a foundation for further progress is considered for publication. The focus is on producing content that will remain valuable and relevant over time. In summary, IJRR stands as a prestigious publication that drives innovation and knowledge in robotics research.
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