Muhammad Iqbal Habibie, T. Ahamed, R. Noguchi, S. Matsushita
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引用次数: 14
摘要
气候变化对全球主要作物产生了影响。印度尼西亚是一个发达国家,面临着气候变化的重大威胁。本研究使用Landsat 8 OLI获得的归一化差水指数(NDWI)来定义研究区域的缺水程度。本研究提出了一种基于cnn的YOLO模型,该模型可以检测玉米生长发育阶段的干旱。这项研究是在2018年进行的。基于生长季节的深度学习干旱检测方法在干旱易发地区的IoU、Precision、Recall、F1-Score、mean Average Precision (mAP)分别为83.4%、98%、99%、98%、96%。该模型可以结合遥感技术,以可接受的精度实时检测目标。
Deep Learning Algorithms to determine Drought prone Areas Using Remote Sensing and GIS
Climate change has had a global effect on staple crops. Indonesia is a developed country facing a significant threat to climate change. The study uses the Normalized Difference Water Index (NDWI) obtained from Landsat 8 OLI to define the water scarcity in the study area. This research proposes a CNN-based YOLO model that can detect Drought in growing maize development stages. The study was observed in 2018. The detection drought based on the growing season using deep learning was found IoU, Precision, Recall, F1-Score, mean Average Precision (mAP), 83.4%, 98%, 99%, 98%, 96% in the drought-prone areas. The model allows combining remote sensing technology to detect object detection in real-time with acceptable accuracy.
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