用于三维空间外校准的成像雷达和激光雷达图像转换

IF 2.3 4区 计算机科学 Q3 ROBOTICS Intelligent Service Robotics Pub Date : 2024-01-03 DOI:10.1007/s11370-023-00498-y
Sangwoo Jung, Hyesu Jang, Minwoo Jung, Ayoung Kim, Myung-Hwan Jeon
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摘要

在机器人技术领域,传感器数据的整合对于充分利用所使用的各种传感器至关重要。这种整合的一个关键方面是确定每个传感器之间的外在校准参数,如相对转换。使用雷达和激光雷达等互补传感器之间的数据融合可以带来显著的优势,尤其是在需要精确深度数据的恶劣环境中。然而,雷达传感器数据中包含的噪声会使外部校准的估算变得困难。为了解决这个问题,我们提出了一个新颖的雷达和激光雷达传感器外校准框架,利用 CycleGAN 作为图像到图像的转换方法。我们提出的方法采用将雷达鸟瞰图像转换为激光雷达式图像的方法来估算 3-DOF 外在参数。使用图像注册技术,以及基于传感器轨迹测量和 B 样条插值的纠偏技术,可以解决旋转传感器中常见的卷帘快门效应。与使用 MulRan 数据集的基于滤波器的方法相比,我们的方法在外差校准方面有显著改进。
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Imaging radar and LiDAR image translation for 3-DOF extrinsic calibration

The integration of sensor data is crucial in the field of robotics to take full advantage of the various sensors employed. One critical aspect of this integration is determining the extrinsic calibration parameters, such as the relative transformation, between each sensor. The use of data fusion between complementary sensors, such as radar and LiDAR, can provide significant benefits, particularly in harsh environments where accurate depth data is required. However, noise included in radar sensor data can make the estimation of extrinsic calibration challenging. To address this issue, we present a novel framework for the extrinsic calibration of radar and LiDAR sensors, utilizing CycleGAN as a method of image-to-image translation. Our proposed method employs translating radar bird-eye-view images into LiDAR-style images to estimate the 3-DOF extrinsic parameters. The use of image registration techniques, as well as deskewing based on sensor odometry and B-spline interpolation, is employed to address the rolling shutter effect commonly present in spinning sensors. Our method demonstrates a notable improvement in extrinsic calibration compared to filter-based methods using the MulRan dataset.

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来源期刊
CiteScore
5.70
自引率
4.00%
发文量
46
期刊介绍: The journal directs special attention to the emerging significance of integrating robotics with information technology and cognitive science (such as ubiquitous and adaptive computing,information integration in a distributed environment, and cognitive modelling for human-robot interaction), which spurs innovation toward a new multi-dimensional robotic service to humans. The journal intends to capture and archive this emerging yet significant advancement in the field of intelligent service robotics. The journal will publish original papers of innovative ideas and concepts, new discoveries and improvements, as well as novel applications and business models which are related to the field of intelligent service robotics described above and are proven to be of high quality. The areas that the Journal will cover include, but are not limited to: Intelligent robots serving humans in daily life or in a hazardous environment, such as home or personal service robots, entertainment robots, education robots, medical robots, healthcare and rehabilitation robots, and rescue robots (Service Robotics); Intelligent robotic functions in the form of embedded systems for applications to, for example, intelligent space, intelligent vehicles and transportation systems, intelligent manufacturing systems, and intelligent medical facilities (Embedded Robotics); The integration of robotics with network technologies, generating such services and solutions as distributed robots, distance robotic education-aides, and virtual laboratories or museums (Networked Robotics).
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