Automatic extraction of canopy and artificial reference temperatures for determination of crop water stress indices by using thermal imaging technique and a fuzzy-based image-processing algorithm

IF 3.7 3区 工程技术 Q1 INSTRUMENTS & INSTRUMENTATION
Pedram Shoa, A. Hemmat, R. Amirfattahi, M. Gheysari
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引用次数: 5

Abstract

ABSTRACT Thermal stress indicators are one of the most accurate indices for sensing plant water status that can be remotely measured by the means of infrared thermography. In addition to the canopy temperature, these indices need to access the wet and dry reference temperatures which refer to the temperatures of the canopy at well-watered and fully stressed conditions, respectively. The main goal of this study is to measure the canopy as well as reference temperatures automatically by the means of a single thermal image, captured from an olive tree. The temperatures of artificial reference surfaces were extracted by the means of an object detection method based on the edge detection and morphological processes. The temperatures of sunlit and shaded canopy portions were also detected, using a Fuzzy C-means clustering of thermal images with the wet and dry reference temperatures as thresholds. The algorithm was successfully detected the references in 90% of the images and the automatic extracted canopy temperatures were significantly correlated with the manual ones.
利用热成像技术和基于模糊的图像处理算法自动提取冠层和人工参考温度,确定作物水分胁迫指标
热应力指标是利用红外热像仪远程测量植物水分状态的最准确指标之一。除了冠层温度外,这些指标还需要获得湿参考温度和干参考温度,这两个参考温度分别是指在充足水分和充分应力条件下冠层的温度。本研究的主要目标是通过从橄榄树上捕获的单个热图像自动测量树冠和参考温度。采用基于边缘检测和形态学处理的目标检测方法提取人工参考曲面的温度。利用以干湿参考温度为阈值的热图像模糊c均值聚类方法,对光照和遮荫的冠层部分进行了温度检测。该算法成功检测了90%的参考文献,自动提取的冠层温度与人工提取的冠层温度具有显著的相关性。
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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来源期刊
Quantitative Infrared Thermography Journal
Quantitative Infrared Thermography Journal Physics and Astronomy-Instrumentation
CiteScore
6.80
自引率
12.00%
发文量
17
审稿时长
>12 weeks
期刊介绍: The Quantitative InfraRed Thermography Journal (QIRT) provides a forum for industry and academia to discuss the latest developments of instrumentation, theoretical and experimental practices, data reduction, and image processing related to infrared thermography.
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