Machine learning for cave entrance detection in a Maya archaeological area

IF 1.1 4区 地球科学 Q4 ENVIRONMENTAL SCIENCES
L.D. Character, T. Beach, S Luzzadder-Beach, D. Cook, C. Schank, F. Valdez, M. Mallner
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引用次数: 0

Abstract

ABSTRACTMachine learning can offer an efficient method to identify and map caves, sinkholes, and other cave-like features (i.e. sinkholes, rockshelters, voids) using remotely sensed imagery. While there exists a body of work applying machine learning for sinkhole identification, little work exists for caves. In the densely forested and rugged Maya Lowlands, developing such a methodology can help archaeologists to identify previously unknown caves that may contain important archaeological materials. Here, we introduce a proof-of-concept project that uses random forest and lidar-derived landscape morphometrics to map caves and other cave-like features in northwest Belize. Several undocumented caves and cave-like features were identified in our study area based on model results. Next steps towards making a more robust version of this model include the addition of more training data and integration of a larger number of morphologic parameters. Based on the results described here as well as those in cited works focused on caves, we proposed machine learning as a first step in cave and cave-like feature identification, followed then by fieldwork and ground-truthing.KEYWORDS: Machine learningMayacaveslidarGISRemote sensing AcknowledgmentsWe would like to thank the Sewanee Landscape Analysis Lab and the Lab Manager, Dr. Christopher Van de Ven, for providing the Sewanee dataset. We would like to thank the Sewanee Outing Program and John Benson for sharing his knowledge of Sewanee caves.Disclosure statementNo potential conflict of interest was reported by the author(s).Data availability statementThe code that supports the findings of this study is available from the corresponding author, Leila Character, upon reasonable request: since caves can contain artifacts and sometimes are protected in and of themselves, the authors have chosen to not to make the code freely available. The availability of the lidar data would require further conversations and appropriate permissions from all parties involved in data collection.
玛雅考古区域洞穴入口检测的机器学习
摘要机器学习可以提供一种有效的方法,利用遥感图像来识别和绘制洞穴、天坑和其他类似洞穴的特征(如天坑、岩洞、空洞)。虽然有大量的工作将机器学习应用于天坑识别,但对洞穴的研究却很少。在茂密的森林和崎岖的玛雅低地,发展这样的方法可以帮助考古学家识别以前未知的洞穴,这些洞穴可能包含重要的考古材料。在这里,我们介绍了一个概念验证项目,该项目使用随机森林和激光雷达衍生的景观形态计量学来绘制伯利兹西北部的洞穴和其他类似洞穴的特征。根据模型结果,在我们的研究区域确定了几个未记录的洞穴和类洞穴特征。下一步要做一个更健壮的模型,包括增加更多的训练数据和整合更多的形态学参数。基于本文描述的结果以及引用的关于洞穴的研究成果,我们建议将机器学习作为洞穴和类洞穴特征识别的第一步,然后是实地调查和地面真相调查。我们要感谢Sewanee景观分析实验室和实验室经理Christopher Van de Ven博士提供的Sewanee数据集。我们要感谢塞瓦尼探险计划和约翰·本森分享他对塞瓦尼洞穴的了解。披露声明作者未报告潜在的利益冲突。数据可用性声明支持本研究结果的代码可根据合理要求从通讯作者Leila Character处获得:由于洞穴可能包含文物,有时它们本身受到保护,因此作者选择不免费提供代码。激光雷达数据的可用性需要进一步的对话和数据收集各方的适当许可。
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
Physical Geography
Physical Geography 地学-地球科学综合
CiteScore
3.60
自引率
0.00%
发文量
18
审稿时长
6 months
期刊介绍: Physical Geography disseminates significant research in the environmental sciences, including research that integrates environmental processes and human activities. It publishes original papers devoted to research in climatology, geomorphology, hydrology, biogeography, soil science, human-environment interactions, and research methods in physical geography, and welcomes original contributions on topics at the intersection of two or more of these categories.
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