Evaluation of UAV spraying quality based on 1D-CNN model and wireless multi-sensors system

IF 7.7 Q1 AGRICULTURE, MULTIDISCIPLINARY
Ziyuan Hao, Minzan Li, Wei Yang, Xinze Li
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引用次数: 0

Abstract

The droplet deposition is a key index to evaluate the quality of unmanned aerial vehicle (UAV) spraying. The detection of the droplet deposition is time-consuming and costly, therefore, it is difficult to achieve large-scale and rapid acquisition in the field. To solve the above problems, a droplet deposition acquisition system (DDAS) was developed. It was composed of the multiple sensors, processing units, remote server database and Android-based software. A droplet deposition prediction model based on field experimental data was established by using a one-dimensional convolutional neural network (1D-CNN) algorithm, and the effects of different inputs on the prediction ability of the model were analyzed. The results showed that adding temperature and humidity data to the inputs can achieve higher prediction accuracy than only using UAV spraying operation parameters and wind speed data as the inputs to the model. In addition, the prediction accuracy of the 1D-CNN model was the highest when compared with other models such as back propagation neural network, multiple correlation vector machine, and multiple linear regression. The 1D-CNN model was embedded into the DDAS, and the evaluation experiments were carried out in the field. The correlation analysis was conducted between two datasets of the droplet deposition obtained by the DDAS and water sensitive paper (WSP), respectively. The R2 was 0.924, and the RMSE was 0.026 μL/cm2. It is proved that the droplet deposition values obtained by the DDAS and WSP have high consistency, and the DDAS developed can provide an auxiliary solution for the intelligent evaluation of UAV spraying quality.

基于1D-CNN模型和无线多传感器系统的无人机喷涂质量评价
液滴沉积是评价无人机(UAV)喷洒质量的关键指标。液滴沉积的检测耗时长、成本高,因此很难在野外实现大规模快速采集。为了解决上述问题,我们开发了液滴沉积采集系统(DDAS)。该系统由多个传感器、处理单元、远程服务器数据库和基于 Android 的软件组成。利用一维卷积神经网络(1D-CNN)算法建立了基于现场实验数据的液滴沉积预测模型,并分析了不同输入对模型预测能力的影响。结果表明,与仅使用无人机喷洒作业参数和风速数据作为模型输入相比,在输入中加入温度和湿度数据可获得更高的预测精度。此外,与反向传播神经网络、多重相关向量机和多元线性回归等其他模型相比,1D-CNN 模型的预测精度最高。1D-CNN 模型被嵌入到 DDAS 中,并在现场进行了评估实验。分别对 DDAS 和水敏纸(WSP)获得的水滴沉积数据集进行了相关性分析。R2 为 0.924,RMSE 为 0.026 μL/cm2。实验证明,DDAS 和 WSP 得出的液滴沉积值具有较高的一致性,所开发的 DDAS 可为无人机喷洒质量的智能评估提供辅助解决方案。
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来源期刊
Information Processing in Agriculture
Information Processing in Agriculture Agricultural and Biological Sciences-Animal Science and Zoology
CiteScore
21.10
自引率
0.00%
发文量
80
期刊介绍: Information Processing in Agriculture (IPA) was established in 2013 and it encourages the development towards a science and technology of information processing in agriculture, through the following aims: • Promote the use of knowledge and methods from the information processing technologies in the agriculture; • Illustrate the experiences and publications of the institutes, universities and government, and also the profitable technologies on agriculture; • Provide opportunities and platform for exchanging knowledge, strategies and experiences among the researchers in information processing worldwide; • Promote and encourage interactions among agriculture Scientists, Meteorologists, Biologists (Pathologists/Entomologists) with IT Professionals and other stakeholders to develop and implement methods, techniques, tools, and issues related to information processing technology in agriculture; • Create and promote expert groups for development of agro-meteorological databases, crop and livestock modelling and applications for development of crop performance based decision support system. Topics of interest include, but are not limited to: • Smart Sensor and Wireless Sensor Network • Remote Sensing • Simulation, Optimization, Modeling and Automatic Control • Decision Support Systems, Intelligent Systems and Artificial Intelligence • Computer Vision and Image Processing • Inspection and Traceability for Food Quality • Precision Agriculture and Intelligent Instrument • The Internet of Things and Cloud Computing • Big Data and Data Mining
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