利用图像分割模型分析高分辨率地球观测数据:监测变化环境中疾病风险的新工具。

IF 3 2区 医学 Q2 PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH
Fedra Trujillano, Gabriel Jimenez, Edgar Manrique, Najat F Kahamba, Fredros Okumu, Nombre Apollinaire, Gabriel Carrasco-Escobar, Brian Barrett, Kimberly Fornace
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引用次数: 0

摘要

背景:在不久的将来,由于气候变化引起的气温和降雨模式的变化,蚊媒疾病的发病率可能会扩大到新的地方。因此,有必要利用最新的技术进步来改进病媒监测方法。无人驾驶飞行器(UAV),通常被称为无人机,已被用于收集高分辨率图像,以绘制蚊子栖息地的详细信息,并将控制措施导向特定区域。监督分类方法在很大程度上被用于自动检测病媒栖息地。然而,人工标注数据进行模型训练限制了其在快速反应中的使用。Meta AI Segment Anything Model (SAM) 等开放源码基础模型可促进高分辨率图像的人工数字化。这种预先训练好的模型可以帮助提取各种图像中的相关特征。在此,我们通过 Samgeo 软件包(基于 Python 的地理空间数据封装器)对 SAM 的性能进行了评估,因为该软件包尚未应用于流行病学研究的遥感图像分析:我们使用无人机获取的非洲、南美洲和东南亚五个疟疾流行地区的不同图像,测试了两种相关土地覆被类别的识别:水体和人类住区。我们使用人工放置的点提示和与特定兴趣类别相关的文本提示来指导图像分割,并评估了在不同地理环境下的性能。使用点提示对建筑物进行分割的平均 Dice 系数值为 0.67,对水体进行分割的平均 Dice 系数值为 0.73。在使用文本提示时,建筑物和水体的 Dice 系数分别达到 0.72 和 0.70。然而,性能与每个对象、景观特征和所选词语密切相关,导致性能参差不齐:结论:SAM 等最新模型可协助矢量控制程序对图像进行人工数字化,在勘测感兴趣的区域时快速识别关键特征。然而,精确的分割仍然需要用户提供人工提示和修正,以获得精确的分割。有必要进行进一步的评估,尤其是在农村地区的应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Using image segmentation models to analyse high-resolution earth observation data: new tools to monitor disease risks in changing environments.

Background: In the near future, the incidence of mosquito-borne diseases may expand to new sites due to changes in temperature and rainfall patterns caused by climate change. Therefore, there is a need to use recent technological advances to improve vector surveillance methodologies. Unoccupied Aerial Vehicles (UAVs), often called drones, have been used to collect high-resolution imagery to map detailed information on mosquito habitats and direct control measures to specific areas. Supervised classification approaches have been largely used to automatically detect vector habitats. However, manual data labelling for model training limits their use for rapid responses. Open-source foundation models such as the Meta AI Segment Anything Model (SAM) can facilitate the manual digitalization of high-resolution images. This pre-trained model can assist in extracting features of interest in a diverse range of images. Here, we evaluated the performance of SAM through the Samgeo package, a Python-based wrapper for geospatial data, as it has not been applied to analyse remote sensing images for epidemiological studies.

Results: We tested the identification of two land cover classes of interest: water bodies and human settlements, using different UAV acquired imagery across five malaria-endemic areas in Africa, South America, and Southeast Asia. We employed manually placed point prompts and text prompts associated with specific classes of interest to guide the image segmentation and assessed the performance in the different geographic contexts. An average Dice coefficient value of 0.67 was obtained for buildings segmentation and 0.73 for water bodies using point prompts. Regarding the use of text prompts, the highest Dice coefficient value reached 0.72 for buildings and 0.70 for water bodies. Nevertheless, the performance was closely dependent on each object, landscape characteristics and selected words, resulting in varying performance.

Conclusions: Recent models such as SAM can potentially assist manual digitalization of imagery by vector control programs, quickly identifying key features when surveying an area of interest. However, accurate segmentation still requires user-provided manual prompts and corrections to obtain precise segmentation. Further evaluations are necessary, especially for applications in rural areas.

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来源期刊
International Journal of Health Geographics
International Journal of Health Geographics PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH -
CiteScore
10.20
自引率
2.00%
发文量
17
审稿时长
12 weeks
期刊介绍: A leader among the field, International Journal of Health Geographics is an interdisciplinary, open access journal publishing internationally significant studies of geospatial information systems and science applications in health and healthcare. With an exceptional author satisfaction rate and a quick time to first decision, the journal caters to readers across an array of healthcare disciplines globally. International Journal of Health Geographics welcomes novel studies in the health and healthcare context spanning from spatial data infrastructure and Web geospatial interoperability research, to research into real-time Geographic Information Systems (GIS)-enabled surveillance services, remote sensing applications, spatial epidemiology, spatio-temporal statistics, internet GIS and cyberspace mapping, participatory GIS and citizen sensing, geospatial big data, healthy smart cities and regions, and geospatial Internet of Things and blockchain.
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