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An Improved Markov Chain Model Based on Autocorrelation and Entropy Techniques and Its Application to State Prediction of Water Resources

ZHOU Ping ZHOU Yuliang JIN Juliang et al

ZHOU Ping, ZHOU Yuliang, JIN Juliang, et al. An Improved Markov Chain Model Based on Autocorrelation and Entropy Techniques and Its Application to State Prediction of Water Resources[J]. 中国地理科学, 2011, 21(2): 176-184.
引用本文: ZHOU Ping, ZHOU Yuliang, JIN Juliang, et al. An Improved Markov Chain Model Based on Autocorrelation and Entropy Techniques and Its Application to State Prediction of Water Resources[J]. 中国地理科学, 2011, 21(2): 176-184.
ZHOU Ping, ZHOU Yuliang, JIN Juliang, et al. An Improved Markov Chain Model Based on Autocorrelation and Entropy Techniques and Its Application to State Prediction of Water Resources[J]. Chinese Geographical Science, 2011, 21(2): 176-184.
Citation: ZHOU Ping, ZHOU Yuliang, JIN Juliang, et al. An Improved Markov Chain Model Based on Autocorrelation and Entropy Techniques and Its Application to State Prediction of Water Resources[J]. Chinese Geographical Science, 2011, 21(2): 176-184.

An Improved Markov Chain Model Based on Autocorrelation and Entropy Techniques and Its Application to State Prediction of Water Resources

An Improved Markov Chain Model Based on Autocorrelation and Entropy Techniques and Its Application to State Prediction of Water Resources

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出版历程
  • 刊出日期:  2011-03-24

An Improved Markov Chain Model Based on Autocorrelation and Entropy Techniques and Its Application to State Prediction of Water Resources

摘要: According to the relationships among state transition probability matrixes with different step lengths, an improved Markov chain model based on autocorrelation and entropy techniques was introduced. In the improved Markov chain model, the state transition probability matrixes can be adjusted. The steps of the historical state of the event, which was significantly related to the future state of the event, were determined by the autocorrelation technique, and the impact weights of the event historical state on the event future state were determined by the entropy technique. The presented model was applied to predicting annual precipitation and annual runoff states, showing that the improved model is of higher precision than those existing Markov chain models, and the determination of the state transition probability matrixes and the weights is more reasonable. The physical concepts of the improved model are distinct, and its computation process is simple and direct, thus, the presented model is sufficiently general to be applicable to the prediction problems in hydrology and water resources.

English Abstract

ZHOU Ping, ZHOU Yuliang, JIN Juliang, et al. An Improved Markov Chain Model Based on Autocorrelation and Entropy Techniques and Its Application to State Prediction of Water Resources[J]. 中国地理科学, 2011, 21(2): 176-184.
引用本文: ZHOU Ping, ZHOU Yuliang, JIN Juliang, et al. An Improved Markov Chain Model Based on Autocorrelation and Entropy Techniques and Its Application to State Prediction of Water Resources[J]. 中国地理科学, 2011, 21(2): 176-184.
ZHOU Ping, ZHOU Yuliang, JIN Juliang, et al. An Improved Markov Chain Model Based on Autocorrelation and Entropy Techniques and Its Application to State Prediction of Water Resources[J]. Chinese Geographical Science, 2011, 21(2): 176-184.
Citation: ZHOU Ping, ZHOU Yuliang, JIN Juliang, et al. An Improved Markov Chain Model Based on Autocorrelation and Entropy Techniques and Its Application to State Prediction of Water Resources[J]. Chinese Geographical Science, 2011, 21(2): 176-184.

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