Automated region of interest-based data augmentation for fallen person detection in off-road autonomous agricultural vehicles

Baek, Hwapyeong; Yu, Seunghyun; Son, Seungwook; Seo, Jongwoong; Chung, Yongwha

doi:10.3390/s24072371

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Journal Article

Automated region of interest-based data augmentation for fallen person detection in off-road autonomous agricultural vehicles
Citation	Baek H, Yu S, Son S, Seo J, Chung Y. Sensors (Basel) 2024; 24(7): e2371.
Copyright	(Copyright © 2024, MDPI: Multidisciplinary Digital Publishing Institute)
DOI	10.3390/s24072371
PMID	38610583
Abstract	Due to the global population increase and the recovery of agricultural demand after the COVID-19 pandemic, the importance of agricultural automation and autonomous agricultural vehicles is growing. Fallen person detection is critical to preventing fatal accidents during autonomous agricultural vehicle operations. However, there is a challenge due to the relatively limited dataset for fallen persons in off-road environments compared to on-road pedestrian datasets. To enhance the generalization performance of fallen person detection off-road using object detection technology, data augmentation is necessary. This paper proposes a data augmentation technique called Automated Region of Interest Copy-Paste (ARCP) to address the issue of data scarcity. The technique involves copying real fallen person objects obtained from public source datasets and then pasting the objects onto a background off-road dataset. Segmentation annotations for these objects are generated using YOLOv8x-seg and Grounded-Segment-Anything, respectively. The proposed algorithm is then applied to automatically produce augmented data based on the generated segmentation annotations. The technique encompasses segmentation annotation generation, Intersection over Union-based segment setting, and Region of Interest configuration. When the ARCP technique is applied, significant improvements in detection accuracy are observed for two state-of-the-art object detectors: anchor-based YOLOv7x and anchor-free YOLOv8x, showing an increase of 17.8% (from 77.8% to 95.6%) and 12.4% (from 83.8% to 96.2%), respectively. This suggests high applicability for addressing the challenges of limited datasets in off-road environments and is expected to have a significant impact on the advancement of object detection technology in the agricultural industry. Language: en
Keywords	automated region of interest; autonomous agricultural vehicles; data augmentation; fallen person detection