A Lightweight and High-Accuracy Deep Learning Method for Grassland Grazing Livestock Detection Using UAV Imagery

A Lightweight and High-Accuracy Deep Learning Method for Grassland Grazing Livestock Detection Using UAV Imagery

Unregulated livestock breeding and grazing can degrade grasslands and damage the ecological environment. The combination of remote sensing and artificial intelligence techniques is a more convenient and powerful means to acquire livestock information in a large area than traditional manual ground in...

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Bibliographic Details
Published in:Remote sensing (Basel, Switzerland) Vol. 15; no. 6; p. 1593
Main Authors: Wang, Yuhang, Ma, Lingling, Wang, Qi, Wang, Ning, Wang, Dongliang, Wang, Xinhong, Zheng, Qingchuan, Hou, Xiaoxin, Ouyang, Guangzhou
Format: Journal Article
Language:English
Published: Basel MDPI AG 01-03-2023
Subjects:
Accuracy
Aerial photography
Aircraft
Algorithms
Alliances
Animals
Artificial intelligence
Cattle
Comparative analysis
Datasets
Deep learning
Drone aircraft
Efficiency
Environmental aspects
Food and nutrition
Fuzzy logic
grassland grazing livestock
Grasslands
Grazing
Horses
Identification and classification
Image enhancement
Image processing
Image resolution
Lightweight
Livestock
Livestock breeding
Machine learning
Model accuracy
National parks
Neural networks
object detection
Object recognition
Pasture
Photography, Aerial
Protection and preservation
Remote sensing
remote sensing image
Sheep
unmanned aerial vehicle (UAV)
Unmanned aerial vehicles
China
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Summary:Unregulated livestock breeding and grazing can degrade grasslands and damage the ecological environment. The combination of remote sensing and artificial intelligence techniques is a more convenient and powerful means to acquire livestock information in a large area than traditional manual ground investigation. As a mainstream remote sensing platform, unmanned aerial vehicles (UAVs) can obtain high-resolution optical images to detect grazing livestock in grassland. However, grazing livestock objects in UAV images usually occupy very few pixels and tend to gather together, which makes them difficult to detect and count automatically. This paper proposes the GLDM (grazing livestock detection model), a lightweight and high-accuracy deep-learning model, for detecting grazing livestock in UAV images. The enhanced CSPDarknet (ECSP) and weighted aggregate feature re-extraction pyramid modules (WAFR) are constructed to improve the performance based on the YOLOX-nano network scheme. The dataset of different grazing livestock (12,901 instances) for deep learning was made from UAV images in the Hadatu Pasture of Hulunbuir, Inner Mongolia, China. The results show that the proposed method achieves a higher comprehensive detection precision than mainstream object detection models and has an advantage in model size. The mAP of the proposed method is 86.47%, with the model parameter 5.7 M. The average recall and average precision can be above 85% at the same time. The counting accuracy of grazing livestock in the testing dataset, when converted to a unified sheep unit, reached 99%. The scale applicability of the model is also discussed, and the GLDM could perform well with the image resolution varying from 2.5 to 10 cm. The proposed method, the GLDM, was better for detecting grassland grazing livestock in UAV images, combining remote sensing, AI, and grassland ecological applications with broad application prospects.
ISSN:2072-4292
2072-4292
DOI:10.3390/rs15061593