A Dynamic Kalman Filtering Method for Multi-Object Fruit Tracking and Counting in Complex Orchards

A Dynamic Kalman Filtering Method for Multi-Object Fruit Tracking and Counting in Complex Orchards

With the rapid development of agricultural intelligence in recent years, automatic fruit detection and counting technologies have become increasingly significant for optimizing orchard management and advancing precision agriculture. However, existing deep learning-based models are primarily designed...

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Bibliographic Details
Main Authors: Yaning Zhai, Ling Zhang, Xin Hu, Fanghu Yang, Yang Huang
Format: Article
Language:English
Published: MDPI AG 2025-07-01
Series:Sensors
Subjects:
target detection
multi-object tracking
Kalman filtering
fruit counting
intelligent orchard
Online Access:https://www.mdpi.com/1424-8220/25/13/4138
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Summary:With the rapid development of agricultural intelligence in recent years, automatic fruit detection and counting technologies have become increasingly significant for optimizing orchard management and advancing precision agriculture. However, existing deep learning-based models are primarily designed to process static and single-frame images, thereby failing to meet the large-scale detection and counting demands in the dynamically changing scenes of modern orchards. To address these challenges, this paper proposes a multi-object fruit tracking and counting method, which integrates an improved YOLO-based object detection algorithm with a dynamically optimized Kalman filter. By optimizing the network structure, the improved YOLO detection model provides high-quality detection results for subsequent tracking tasks. Then a modified Kalman filter with a variable forgetting factor is integrated to dynamically adjust the weighting of historical data, enabling the model to adapt to changes in observation and motion noise. Moreover, fruit targets are associated using a combined strategy based on Intersection over Union (IoU) and Re-Identification (Re-ID) features, improving the accuracy and stability of object matching. Consequently, the continuous tracking and precise counting of fruits in video sequences are achieved. Experimental results with image frames of fruits in video sequence are demonstrated, showing that the proposed method performs robust and continuous tracking (<i>MOTA</i> of 95.0% and <i>HOTA</i> of 82.4%). For fruit counting, the method attains a high coefficient-of-determination of 0.85 and a low root-mean-square error (RMSE) of 1.57, exhibiting high accuracy and stability of fruit detection, tracking and counting in video sequences under complex orchard environments.
ISSN:1424-8220

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