Machine vision-based detection method for key phenotypic information of shiitake mushroom stipes
Jiuxiao Zhao, Mingfei Wang, Zuolin Li, Qiuxiao Song, Cheng Chen, Guoqiang Guo, Jing Dong, Feifei Shan, Ruixue Xu, Wei Liu, Xin Zhang, Wengang Zheng

TL;DR
This paper introduces a machine vision system to accurately detect key traits of shiitake mushroom stipes, improving breeding efficiency and quality.
Contribution
A novel detection method combining image processing and deep learning models for precise shiitake mushroom stipe trait measurement.
Findings
The ACmix-ADown-YOLOv11n model achieved 93.7% accuracy and 23.97 ms detection speed.
The CoTAttention-YOLOv11n-Ghost-pose algorithm reached 97.2% accuracy with high recall and fast speed.
High R² values (up to 0.992) indicate strong correlation between predicted and actual stipe lengths.
Abstract
In the field of shiitake mushroom breeding, the difficulty and inaccuracy in measuring key stipe traits severely limit improvements in breeding efficiency and product quality. This study aims to address this technical challenge. A key trait detection method for mushroom stipes based on integrated image processing technology was proposed: 1) Developed the ACmix-ADown-YOLOv11n stipe detection model; 2) Input the detection bounding box into the EfficientSAM network for precise segmentation,then used OpenCV-based techniques to calculate 12 key phenotypic features; 3) Constructed the CoTAttention-YOLOv11n-Ghost-pose algorithm to predict the stipe centerline. The ACmix-ADown-YOLOv11n model achieved an AP of 93.7% and a detection speed of 23.97 ms; the CoTAttention-YOLOv11n-Ghost-pose algorithm achieved an AP of 97.2%, a recall rate of 96.1%, and a detection speed of 22.09 ms. For different…
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Taxonomy
TopicsSmart Agriculture and AI · Spectroscopy and Chemometric Analyses · Plant Disease Management Techniques
