NDVI time series and Markov chains to model the change of fuzzy vegetative drought classes

2011 6th International Workshop on the Analysis of Multi-temporal Remote Sensing Images (Multi-Temp) Pub Date : 2011-07-12 DOI:10.1109/MULTI-TEMP.2011.6005083

S. Ding, C. M. Rulinda, A. Stein, W. Bijker

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引用次数: 3

Abstract

The objective of this study is to explore the potential of using Markov chains to model the changes of vegetative drought classes. NOAA-AVHRR dekadal NDVI images and fuzzy functions are used to characterize the drought classes while capturing the gradual transition between them. The transition probabilities are estimated using the maximum class membership values at a location. The Markov transition probability matrix is then used to model the changes of vegetative drought classes at selected locations. Future vegetative drought classes are predicted using the estimated transition matrix, then compared with actual data. Twenty pixel locations clustered in four regions of the two main agricultural type in Kenya are selected to implement this approach. Half of the pixels are predicted correctly. 5 of them are predicted either one class higher or lower and 2 of them, two classes higher. We can conclude that Markov chains applied to fuzzy numbers have the potential to model the changes of of vegetative drought classes at a pixel, hence provide a benefit for early warning systems.

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NDVI时间序列和马尔可夫链对模糊植被干旱类型变化的模拟

本研究的目的是探索利用马尔可夫链来模拟植被干旱类型变化的潜力。利用NOAA-AVHRR的年代际NDVI图像和模糊函数来描述干旱类别，同时捕捉它们之间的逐渐过渡。使用某个位置的最大类隶属度值估计转移概率。然后利用马尔可夫转移概率矩阵对选定地点的植被干旱等级变化进行建模。利用估计的过渡矩阵预测未来的植被干旱等级，然后与实际数据进行比较。选择聚集在肯尼亚两种主要农业类型的四个地区的20个像素点来实施这种方法。一半的像素被正确预测。其中5个预测高或低一个等级，2个预测高两个等级。结果表明，将马尔可夫链应用于模糊数有可能在像素上模拟植被干旱等级的变化，从而为预警系统提供了有利条件。

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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2011 6th International Workshop on the Analysis of Multi-temporal Remote Sensing Images (Multi-Temp)

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