亚马逊雨林的森林变化检测

Tanisha Agrawal, Aarti Karandikar, Avinash Agrawal
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引用次数: 1

摘要

遥感在森林覆盖预测中有着广泛的应用。森林在生态系统的平衡中起着重要作用。它有助于维持气候之间的平衡。我们在很大程度上依赖森林提供木材、氧气,以及控制土壤侵蚀。因此,维护地球上的森林覆盖是我们的责任。遥感图像为我们提供了许多关于不同地形和物质的信息。它也被用来预测自然灾害,如森林火灾、洪水等。归一化植被指数是一种简单的图形指标,用于分析遥感测量结果,例如:空间平台)预测目标是否是活的绿色植被。然而,我们发现它不能用于准确预测森林土地覆盖。借助亚马逊森林的时间序列数据,可以观察到NDVI指数无法确定地形的一些重要变化。为了纠正这个问题,深度学习模型被用来给出100%的准确率。深度学习模型给出了与观测结果相似的结果,因此使其成为预测森林覆盖的最佳首选方法。在多光谱数据分析的帮助下,深度学习模型在红波段和近红外波段得到了最好的结果。
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Forest Change Detection in the Amazon Rainforest
Remote sensing is widely used in the prediction of forest cover. Forest plays an important role in the balance of the ecosystem. It helps to maintain the balance between climate. We depend a lot on forests for wood, oxygen, and also for the control of soil erosion. Hence it is our duty to maintain the forest cover on earth. Remote sensing images provide us with lots of information regarding the different landforms and materials. It is also used to predict natural disasters like forest fires, floods, etc. The normalized difference vegetation index is a simple graphical indicator that is used to analyze remote sensing measurements,(eg. space platform) predicting whether the target is live green vegetation or not. However, we have found out that it cannot be used for accurate prediction of forest land cover. With the help of time series data on the Amazon forest, it has been observed that the NDVI index fails to determine some of the important changes in the landform. To rectify this problem, the deep learning model was used to give an accuracy of 100 percent. The deep learning model gives similar results as observed results, hence making it the best-preferred method for predicting forest cover. With the help of multispectral analysis of the data, the deep learning model gives the best results for the red band, and near-infrared bands.
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来源期刊
International Journal of Next-Generation Computing
International Journal of Next-Generation Computing COMPUTER SCIENCE, THEORY & METHODS-
自引率
66.70%
发文量
60
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