Thermal Image Based Navigation System for Skid-Steering Mobile Robots in Sugarcane Crops*

M. Xaud, A. C. Leite, P. From
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引用次数: 9

Abstract

This work proposes a new strategy for autonomous navigation of mobile robots in sugarcane plantations based on thermal imaging. Unlike ordinary agricultural fields, sugarcane farms are generally vast and accommodates numerous arrangements of row crop tunnels, which are very tall, dense and hard-to-access. Moreover, sugarcane crops lie in harsh regions, which hinder the logistics for employing staff and heavy machinery for mapping, monitoring, and sampling. One solution for this problem is TIBA (Tankette for Intelligent BioEnergy Agriculture), a low-cost skid-steering mobile robot capable of infiltrating the crop tunnels with several sensing/sampling systems. The project concept is to reduce the product cost for making the deployment of a robot swarm feasible over a larger area. A prototype was built and tested in a bioenergy farm in order to improve the understanding of the environment and bring about the challenges for the next development steps. The major problem is the navigation through the crop tunnels, since most of the developed systems are suitable for open field operations and employ laser scanners and/or GPS/IMU, which in general are expensive technologies. In this context, we propose a low-cost solution based on infrared (IR) thermal imaging. IR cameras are simple and inexpensive devices, which do not pose risks to the user health, unlike laser-based sensors. This idea was highly motivated by the data collected in the field, which have shown a significant temperature difference between the ground and the crop. From the image analysis, it is possible to clearly visualize a distinguishable corridor and, consequently, generate a straight path for the robot to follow by using computationally efficient approaches. A rigorous analysis of the collected thermal data, numerical simulations and preliminary experiments in the real environment were included to illustrate the efficiency and feasibility of the proposed navigation methodology.
基于热图像的甘蔗滑动转向移动机器人导航系统*
本文提出了一种基于热成像的甘蔗种植园移动机器人自主导航新策略。与普通农田不同的是,甘蔗农场一般都很大,并且有许多排作物隧道,这些隧道很高、很密,很难进入。此外,甘蔗作物生长在恶劣的地区,这阻碍了后勤工作,无法雇用人员和重型机械进行制图、监测和抽样。这个问题的一个解决方案是TIBA(智能生物能源农业Tankette),一种低成本的滑动转向移动机器人,能够通过几个传感/采样系统渗透到作物隧道中。该项目的概念是降低产品成本,使机器人群的部署在更大的区域内可行。为了提高对环境的了解,并为下一步的开发步骤带来挑战,在一个生物能源农场建造了一个原型并进行了测试。主要问题是通过作物隧道的导航,因为大多数已开发的系统适用于露天作业,并使用激光扫描仪和/或GPS/IMU,这些通常是昂贵的技术。在此背景下,我们提出了一种基于红外热成像的低成本解决方案。红外摄像机是一种简单而廉价的设备,与基于激光的传感器不同,它不会对用户的健康构成风险。这个想法很大程度上是由在田间收集的数据激发的,这些数据显示地面和作物之间存在显著的温差。从图像分析中,可以清晰地看到一个可区分的走廊,因此,通过使用高效的计算方法,为机器人生成一条直线路径。通过对所收集的热数据、数值模拟和实际环境下的初步实验进行了严格的分析,证明了所提出的导航方法的有效性和可行性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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