Tracking of Multiple Static and Dynamic Targets for 4D Automotive Millimeter-Wave Radar Point Cloud in Urban Environments

Tan, Bin; Ma, Zewei; Zhu, Xichan; Li, Sen; Zheng, Lianqing; Huang, Libo; Bai, Jie

doi:10.3390/rs15112923

Cited by 5 publications

(3 citation statements)

References 27 publications

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“…There are two baseline methods for the quantitative evaluation. The first baseline method is a traditional MMW radar-based tracking method SRT (Tan et al, 2023) which adopts a Kalman tracker. As the LiDAR-based tracking method LSTM (Yao et al, 2023) shows great performance, we also choose it as the baseline method.…”

Section: Quantitative Evaluationmentioning

confidence: 99%

ROTracker: a novel MMW radar-based object tracking method for unmanned surface vehicle in offshore environments

Xu,

Zhang,

et al. 2024

Front. Mar. Sci.

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Unmanned surface vehicles (USVs) offer significant value through their capability to undertake hazardous and time-consuming missions across water surfaces. Recently, as the application of USVs has been extended to nearshore waterways, object tracking is vital to the safe navigation of USVs in offshore scenes. However, existing tracking systems for USVs are mainly based on cameras or LiDAR sensors, which suffer from drawbacks such as lack of depth perception or high deployment costs. In contrast, millimeter-wave (MMW) radar offers advantages in terms of low cost and robustness in all weather and lighting conditions. In this work, to construct a robust and low-cost tracking system for USVs in complex offshore scenes, we propose a novel MMW radar-based object tracking method (ROTracker). The proposed ROTracker combines the physical properties of MMW radar with traditional tracking systems. Specifically, we introduce the radar Doppler velocity and a designed motion discriminator to improve the robustness of the tracking system toward low-speed targets. Moreover, we conducted real-world experiments to validate the efficacy of the proposed ROTracker. Compared to other baseline methods, ROTracker achieves excellent multiple object tracking accuracy in terms of 91.9% in our collected dataset. The experimental results demonstrated that the proposed ROTracker has significant application potential in both accuracy and efficiency for USVs, addressing the challenges posed by complex nearshore environments.

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Section: Quantitative Evaluationmentioning

confidence: 99%

ROTracker: a novel MMW radar-based object tracking method for unmanned surface vehicle in offshore environments

Xu,

Zhang,

et al. 2024

Front. Mar. Sci.

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“…Clustering, often employed as an unsupervised learning technique, is a cornerstone for point cloud data processing in object detection. In the current research, researchers focused on improving the performance of density-based spatial clustering of applications with the noise (DBSCAN) algorithm and combined it with other data aggregation algorithms to enhance object detection accuracy and speed [23,24]. Typically, Wang [25] incorporated DBSCAN into merged data and introduced frame order features to mitigate multipath noise and distinguish target points from noise.…”

Section: Mmw Radar-based Object Detectionmentioning

confidence: 99%

“…Xie [26] utilized a multi-frame merging strategy to bolster single-frame clustering accuracy while leveraging frame sequence attributes to address multi-target noise. However, traditional MMW radar has several limitations, including its incapacity to capture height information [24], inability to detect stationary objects, and limited resolution. Therefore, these constraints render it ill-suited for autonomous driving and traffic perception.…”

Section: Mmw Radar-based Object Detectionmentioning

confidence: 99%

Louvain-Based Traffic Object Detection for Roadside 4D Millimeter-Wave Radar

Gong,

Sun,

Lin

et al. 2024

Remote Sensing

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Object detection is the fundamental task of vision-based sensors in environmental perception and sensing. To leverage the full potential of roadside 4D MMW radars, an innovative traffic detection method is proposed based on their distinctive data characteristics. First, velocity-based filtering and region of interest (ROI) extraction were employed to filter and associate point data by merging the point cloud frames to enhance the point relationship. Then, the Louvain algorithm was used to divide the graph into modularity by converting the point cloud data into graph structure and amplifying the differences with the Gaussian kernel function. Finally, a detection augmentation method is introduced to address the problems of over-clustering and under-clustering based on the object ID characteristics of 4D MMW radar data. The experimental results showed that the proposed method obtained the highest average precision and F1 score: 98.15% and 98.58%, respectively. In addition, the proposed method showcased the lowest over-clustering and under-clustering errors in various traffic scenarios compared with the other detection methods.

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