Advancing primate surveillance with image recognition techniques from unmanned aerial vehicles.

IF 2 3区 生物学 Q1 ZOOLOGY
Gang He, Xiao Zhang, Jie Wang, Pengfei Xu, Xiduo Hou, Wei Dong, Yinghu Lei, Xuelin Jin, Weifeng Wang, Wenyong Tian, Yan Huang, Desheng Li, Tianyu Qin, Jing Wang, Ruliang Pan, Baoguo Li, Songtao Guo
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引用次数: 0

Abstract

Using unmanned aerial vehicles (UAVs) for surveys on thermostatic animals has gained prominence due to their ability to provide practical and precise dynamic censuses, contributing to developing and refining conservation strategies. However, the practical application of UAVs for animal monitoring necessitates the automation of image interpretation to enhance their effectiveness. Based on our past experiences, we present the Sichuan snub-nosed monkey (Rhinopithecus roxellana) as a case study to illustrate the effective use of thermal cameras mounted on UAVs for monitoring monkey populations in Qinling, a region characterized by magnificent biodiversity. We used the local contrast method for a small infrared target detection algorithm to collect the total population size. Through the experimental group, we determined the average optimal grayscale threshold, while the validation group confirmed that this threshold enables automatic detection and counting of target animals in similar datasets. The precision rate obtained from the experiments ranged from 85.14% to 97.60%. Our findings reveal a negative correlation between the minimum average distance between thermal spots and the count of detected individuals, indicating higher interference in images with closer thermal spots. We propose a formula for adjusting primate population estimates based on detection rates obtained from UAV surveys. Our results demonstrate the practical application of UAV-based thermal imagery and automated detection algorithms for primate monitoring, albeit with consideration of environmental factors and the need for data preprocessing. This study contributes to advancing the application of UAV technology in wildlife monitoring, with implications for conservation management and research.

Abstract Image

利用无人飞行器的图像识别技术推进灵长类动物监控。
使用无人驾驶飞行器(UAVs)对恒温动物进行调查,因其能够提供实用而精确的动态普查,有助于制定和完善保护战略,因而日益受到重视。然而,无人机在动物监测方面的实际应用要求图像判读自动化,以提高其有效性。根据以往的经验,我们以川金丝猴(Rhinopithecus roxellana)为案例,说明在生物多样性丰富的秦岭地区,如何有效利用无人机上的热像仪监测猴群。我们使用局部对比法的小型红外目标检测算法来收集种群的总数量。通过实验组,我们确定了平均最佳灰度阈值,而验证组则确认了该阈值能够在类似数据集中自动检测和计数目标动物。实验获得的精确率从 85.14% 到 97.60% 不等。我们的研究结果表明,热斑之间的最小平均距离与检测到的个体数量之间存在负相关关系,这表明在热斑距离较近的图像中干扰较高。我们提出了一个公式,用于根据无人机调查获得的探测率调整灵长类种群估计值。我们的研究结果表明,尽管需要考虑环境因素和数据预处理的需要,但基于无人机的热图像和自动检测算法在灵长类动物监测中的实际应用是可行的。这项研究有助于推动无人机技术在野生动物监测中的应用,并对保护管理和研究产生影响。
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来源期刊
CiteScore
4.50
自引率
8.30%
发文量
103
审稿时长
4-8 weeks
期刊介绍: The objective of the American Journal of Primatology is to provide a forum for the exchange of ideas and findings among primatologists and to convey our increasing understanding of this order of animals to specialists and interested readers alike. Primatology is an unusual science in that its practitioners work in a wide variety of departments and institutions, live in countries throughout the world, and carry out a vast range of research procedures. Whether we are anthropologists, psychologists, biologists, or medical researchers, whether we live in Japan, Kenya, Brazil, or the United States, whether we conduct naturalistic observations in the field or experiments in the lab, we are united in our goal of better understanding primates. Our studies of nonhuman primates are of interest to scientists in many other disciplines ranging from entomology to sociology.
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