A method for nighttime tomato fruit detection and occlusion judgment based on deep learning and image processing

Nighttime detection and harvesting are key issues for achieving all-day operation of tomato-picking robots. Currently, most general detection algorithms are limited to natural daylight conditions, with significantly reduced performance in nighttime environments. To address the issues of low accuracy...

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Published inProceedings of SPIE, the international society for optical engineering Vol. 13509; pp. 135090Y - 135090Y-6
Main Authors Lin, Zhonglong, Zhang, Caihong, Liang, Zhi, Zou, Xiangjun, Li, Xiaojuan
Format Conference Proceeding
LanguageEnglish
Published SPIE 05.02.2025
Online AccessGet full text
ISBN9781510688100
1510688102
ISSN0277-786X
DOI10.1117/12.3059119

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Abstract Nighttime detection and harvesting are key issues for achieving all-day operation of tomato-picking robots. Currently, most general detection algorithms are limited to natural daylight conditions, with significantly reduced performance in nighttime environments. To address the issues of low accuracy and poor robustness of nighttime tomato detection algorithms, a high-precision nighttime tomato detection method based on the integration of deep learning and image processing is proposed. This study designed multiple sets of nighttime RGB lighting experiments to calculate the HSV color distance between ripe tomatoes and the background under each lighting condition, determining the optimal lighting color to enhance the contrast between tomatoes and the background. Under the optimal lighting conditions, an RGB image dataset of nighttime tomatoes was constructed, and an YOLOv8-based nighttime detection model was trained to achieve precise detection and localization of nighttime tomato targets. Within the detected target frames of ripe tomatoes, image processing methods such as OTSU, Hough detection, and connected component analysis were used to judge and analyze the occlusion situation of tomatoes, distinguishing between occlusion types (leaves or branches), and providing guidance for optimizing the robot's picking strategy. Finally, this study verifies the effectiveness of the algorithm through multiple sets of experiments. The algorithm has an overall accuracy rate of 84% and can be deployed on edge devices to achieve efficient real-time detection tasks while ensuring performance.
AbstractList Nighttime detection and harvesting are key issues for achieving all-day operation of tomato-picking robots. Currently, most general detection algorithms are limited to natural daylight conditions, with significantly reduced performance in nighttime environments. To address the issues of low accuracy and poor robustness of nighttime tomato detection algorithms, a high-precision nighttime tomato detection method based on the integration of deep learning and image processing is proposed. This study designed multiple sets of nighttime RGB lighting experiments to calculate the HSV color distance between ripe tomatoes and the background under each lighting condition, determining the optimal lighting color to enhance the contrast between tomatoes and the background. Under the optimal lighting conditions, an RGB image dataset of nighttime tomatoes was constructed, and an YOLOv8-based nighttime detection model was trained to achieve precise detection and localization of nighttime tomato targets. Within the detected target frames of ripe tomatoes, image processing methods such as OTSU, Hough detection, and connected component analysis were used to judge and analyze the occlusion situation of tomatoes, distinguishing between occlusion types (leaves or branches), and providing guidance for optimizing the robot's picking strategy. Finally, this study verifies the effectiveness of the algorithm through multiple sets of experiments. The algorithm has an overall accuracy rate of 84% and can be deployed on edge devices to achieve efficient real-time detection tasks while ensuring performance.
Author Li, Xiaojuan
Zou, Xiangjun
Lin, Zhonglong
Zhang, Caihong
Liang, Zhi
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  organization: Nanjing Univ. of Science and Technology (China)
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Notes Conference Date: 2024-11-15|2024-11-18
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Snippet Nighttime detection and harvesting are key issues for achieving all-day operation of tomato-picking robots. Currently, most general detection algorithms are...
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