Autonomous Real-Time Monitoring of Crops in Controlled Environment Agriculture

IF 1 Q4 AUTOMATION & CONTROL SYSTEMS Mechatronic Systems and Control Pub Date : 2019-11-26 DOI:10.1115/dscc2019-9176
S. Faryadi, Mohammadreza Davoodi, J. M. Velni
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Abstract

In this work, we develop a system that can be used for real-time monitoring of multiple important areas in controlled environment agriculture (and in particular greenhouses) using an autonomous ground vehicle (AGV). To model the greenhouse layout, as well as the tasks that should be accomplished by the AGV, we generate two weighted directed graphs. Based on those graphs, an algorithm is then proposed for finding the optimal (in the sense of traveled distance) trajectory of the vehicle with the goal of precisely monitoring important areas in the greenhouse. Furthermore, a data collection system and image processing algorithm is proposed and implemented so that the vehicle: (i) can capture images and detect changes that have occurred on the crops in real time, and (ii) construct (if needed) a map of the plant rows, when arriving at each one of the important areas. Based on this work, the images can either be stitched onboard the vehicle and then sent to a server or be sent directly to the server and then processed (stitched) there. Both simulation and experimental results are provided to demonstrate the effectiveness and performance of the proposed system.
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受控环境农业中作物的自主实时监测
在这项工作中,我们开发了一个系统,该系统可用于使用自主地面车辆(AGV)实时监测受控环境农业(特别是温室)中的多个重要区域。为了模拟温室布局,以及AGV应该完成的任务,我们生成了两个加权有向图。基于这些图,然后提出了一种算法,用于寻找车辆的最佳(在行驶距离的意义上)轨迹,目标是精确监控温室中的重要区域。此外,提出并实施了数据收集系统和图像处理算法,以便车辆:(i)可以捕获图像并实时检测作物上发生的变化,以及(ii)在到达每个重要区域时(如果需要)构建植物行图。基于这项工作,图像既可以在车上缝合,然后发送到服务器,也可以直接发送到服务器,然后在那里进行处理(缝合)。仿真和实验结果验证了该系统的有效性和性能。
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来源期刊
Mechatronic Systems and Control
Mechatronic Systems and Control AUTOMATION & CONTROL SYSTEMS-
CiteScore
1.40
自引率
66.70%
发文量
27
期刊介绍: This international journal publishes both theoretical and application-oriented papers on various aspects of mechatronic systems, modelling, design, conventional and intelligent control, and intelligent systems. Application areas of mechatronics may include robotics, transportation, energy systems, manufacturing, sensors, actuators, and automation. Techniques of artificial intelligence may include soft computing (fuzzy logic, neural networks, genetic algorithms/evolutionary computing, probabilistic methods, etc.). Techniques may cover frequency and time domains, linear and nonlinear systems, and deterministic and stochastic processes. Hybrid techniques of mechatronics that combine conventional and intelligent methods are also included. First published in 1972, this journal originated with an emphasis on conventional control systems and computer-based applications. Subsequently, with rapid advances in the field and in view of the widespread interest and application of soft computing in control systems, this latter aspect was integrated into the journal. Now the area of mechatronics is included as the main focus. A unique feature of the journal is its pioneering role in bridging the gap between conventional systems and intelligent systems, with an equal emphasis on theory and practical applications, including system modelling, design and instrumentation. It appears four times per year.
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