最大熵原理在水文水资源科学中的应用

王栋; 朱元甡

最大熵原理在水文水资源科学中的应用

王栋,
朱元甡

河海大学水文水资源与环境学院, 江苏南京210098

详细信息

作者简介:
王栋(1972- ),男,山东沂水人,河海大学水文水资源与环境学院博士研究生,主要从事水文水资源及水环境领域的风险分析、系统优化、非线性建模等研究.

中图分类号: TV211;O236

Principle of Maximum Entropy and Its Application in Hydrology and Water Resources

College of Hydrology, Water Resources and Environment, Hohai University, Nanjing 210098, China

摘要: 简介最大熵原理的基本概念、理论和该原理在水文水资源科学领域中应用研究的进展,综述水文频串分析中推导概率分布和参数估计,时间序列最大熵谱分析等方面的研究成果,展望今后的研究趋向和应用前景。
- 最大熵原理 /
- 水文 /
- 水资源
Abstract: The objective of this study is to introduce briefly the concept and theory of the principle of maximum entropy,and to review the state-of-the-art of its application in hydrology and water resources.
- principle of maximum entropy /
- hydrology /
- water resources

[1]	Jaynes E T.Information theory and statistical mechanics[J].Phys Rev,1957,106:620-630; 108:171-190.
[2]	Singh V P.The use of entropy in hydrology and water resources[J].Hydrological Processes,1997,(11):587-626.
[3]	Sonuga J O.Principle of maximum entropy in hydrologic frequency analysis[J].J Hydrol,1972,17:177-191.
[4]	Sonuga J O.Entropy principle applied to the rainfall-runoff process[J].J Hydrol,1976,30:81-94.
[5]	Jowitt P W.The extreme-value type-Ⅰ distribution and the principle of maximum entropy[J].J Hydrol,1979,42:23-38.
[6]	Singh V P,Singh K.Derivation of the gamma distribution by using the principle of maximum entropy (POME) [J].Water Resour Bulletin,1985,21(6):941-952.
[7]	Singh V P,Singh K.Derivation of the person type (PT) Ⅲ distribution by using the principle of maximum entropy[J].JHydrol,1985,80:197-214.
[8]	李元章,丛树铮.熵及其在水文频率计算中的应用[J].水文,1985,(1):22-26.
[9]	Sogawa N,Araki M,Imai T.Studies on multivariate conditional maximum entropy distribution and its characteristics[J].J Hydrosci Hydrau Engr,1986,4(1):79-97.
[10]	Singh V P.On the log-Gumbel (LG) distribution[J].Hydrol,1986,8(4):34-42.
[11]	Singh V P.On application of the Weibull distribution in hydrology[J].Water Resour Managt.1987,1 (1):33-43.
[12]	Singh.V P.On the extreme value (EV) type Ⅲ distribution for low flows[J].Hydrological Sciences J,1987,32(4):521-533.
[13]	Singh V P,Singh K.Parameter estimation for TPLN distribution for flood frequency analysis[J].Water Resour Bulletin,1987,23(6):1 185-1 192.
[14]	Singh V P,Singh K.Parameter estimation for log-Pearson type Ⅲ distribution by POME[J].J Hydrau Engr,1988,114(1):112-122.
[15]	徐宗学.熵极大识别准则及其应用[J].武汉水利电力学院学报,1987,20(6):60-70.
[16]	Krstanovic P F,Singh V P.A multivariate stochastic flood analysis using entropy[A].(Ed) Singh V P.Hydrologic Frequency Modeling[C].D Reidel.Publishing Company,Dordrecht,The Netherlands,1987,515-539.
[17]	Lind N H,Chen X.Consistent distribution parameter estimation for reliability analysis[J].Struct Safety,1987,4:141-149.
[18]	马力,张学文.最大熵原理与概率分布函数[J].数理统计与应用概率,1993,8(4):78-84.
[19]	Singh V P,Guo H,Yu F X.Parameter estimation for 3-parameter log-logistic distribution (LLD3) by POME[J].Stocha Hydrol Hydrau,1993,7(3):163-177.
[20]	Singh V P,Guo H.Parameter estimations for 2-parameter Pareto distribution by POME[J].Water Resour Magt,1995,9:811-893.
[21]	Singh V P,Guo H.Parameter estimations for 3-parameter generalized Pareto distribution by the principle of maximum entropy (POME) [J].Hydrol Sci J,1995,4:165-181.
[22]	Singh V P,Guo H.Parameters estimation for 2-parameter log-logistic distribution (LLD2) by maximum entropy[J].Civil Engr.Systems,1995,12:343-357.
[23]	Singh V P,Guo H.Parameter estimation for 2-parameter generalized Pareto distribution by POME[J].Stocha Hydrol Hydrau,1997,11(3):211-227.
[24]	张明.最大信息熵理论在地貌瞬时单位线中的应用[J].水文,2000,20(3):13-14,62.
[25]	Jain D,Singh V P.Estimating parameters of EV1 distribution for flood frequency analysis[J].Water Resour Bulletin,1986,22(1):59-72.
[26]	Arora K,Singh V P.On statistical intercomparison of EV1 estimators by Monte Carlo simulation[J].Advances in Water Resour,1987,10(2):87-107.
[27]	Arora K,Singh V P.A comparative evaluation of the estimators of log-Pearson type (LP) 3 distribution[J].J Hydrol.,1989,105:19-37.
[28]	Singh V P,Rajagopal A K.A New method of parameter estimation for hydrologic frequency analysis[J].Hydrol Sci and Tech,1987,2(3):33-40.
[29]	Fiorentiao M,Arora K,Singh V P.The two-component extreme-value distribution for flood frequency analysis:Another look and derivation of a new estimation method[J].Stocha Hydrol Hydrau,1987,(1):199-208
[30]	Singh V P,Cruise J F,Ma M.A comparative evaluation of the estimators of the three-parameter lognormal distribution by Monte Carlo simulation[J].Computational Statistics and Data Analysis,1990,10:71-85.
[31]	Singh V P,Cruise J F,Ma M.A comparative evaluation of the estimators of the Weibull distribution by Monte Carlo simulation[J].J Statistical Computation and Simulation,1990,36:229-241.
[32]	Burg J P.Maximum entropy spectral analysis[A] presented at the 37^th Ann Iht Meet Soc.Explor Geophys [C].Oklahoma City,OK,Oct.31,1967.
[33]	Jaynes E T.On the rationale of maximum entropy methods[J].Proc TEEE 1982,70:939-952.
[34]	Rao A R,Padmanahan G,Kashyap R L.Comparison of recently developed methods of spectral analysis[A].Proc Third Int Symposium on Stochastic Hydraulics[C].Tokyo,Japan,1980,165-175.
[35]	黄忠恕.波谱分析方法在水文上的应用[J].水文,1983,(3):13-20.
[36]	Eilbert R F,Christensen R A.Performance of the entropy minimax hydrological forecasts for California,water years 1948-1977[J].J Climate Appl Meteorol,1983,22:1 654-1 657.
[37]	Pena H G.On the stability of the moments of the maximum entropy wind wave spectrum[J].Ocean Engr,1983,10(2):79-86.
[38]	Padmanabhan G,Rao A R.Maximum entropy spectra of some rainfall and river flow time series from southern and central India[J].Theo Appl Climatol,1986,37:63-73.
[39]	Padmanabhan G,Rao A R.Maximum entropy spectral analysis of hydrologic data[J].Water Resour Res,1988,24 (9):1 519-1 533.
[40]	Krstanovic P F,Singh V P.An univariate model for long-term streamflow forecasting:Ⅰ.Development[J].Stocha Hydrol Hydraul,1991,5(3):173-188.
[41]	Krstanovic P F,Singh V P.An univariate model for long-term streamflow forecasting:Ⅱ.Application[J].Stocha Hydrol Hydraul,1991,5(3):189-205.
[42]	Krstanovic P F,Singh V P.A real-time flood-forecasting model based on maximum entropy spectral analysis:Ⅰ.development[J].Water Resour Magt,1993,7:109-129.
[43]	Krstanovic P F,Singh V P.A real-time flood-forecasting model based on maximum entropy spectral analysis:Ⅱ.application[J].Water Resour Magt,1993,7:131-151.
[44]	Dalezios N R,Tyraskis P A.Maximum entropy spectra for regional precipitation analysis and forecasting[J].J Hydrol,1989,109:25-42.
[45]	许金殿,李立,等.大亚湾水温波动的最大熵谱分析[J].海洋学报,1992,14(5):26-33.
[46]	Singh V P,Krstanovic P F.A stochastic model for sediment yield using the principle of maximum entropy[J].Water Resour Res,1987,23(5):781-793.
[47]	Singh V P,Krstanovic P F.A stochastic model for water quality constituents[A] Proc.6th APD-IAHR Congress[C].Kyoto,Japan.
[48]	Jowitt P W.A maximum entropy view of probability-distributed catchment models[J].Hydrol.Sci.J.,1991,36(2):123-134.
[49]	Kusmulyono A,Goulter I.Entropy principles in the prediction of water quality values at discontinued monitoring stations[J].Stocha Hydrol Hydraul,1994,8(4):301-317.
[50]	Kusmulyono A,Coulter I.Computational aspects in use of entropy theory in predicting water quality levels at discontinued stations[J].Stocha Hydrol Hydraul,1995,9(3):215-237.
[51]	Barbe D E,Cruise J F,Singh V F.Derivation of a distribution for the piezometric head in groundwater flow using stochastic and statistical methods[A] (Ed) Hipel K W,Hydrol and Environ Engr.[C].Vol.2,151-161,Kluwer Academic Pub.,Dordrecht.
[52]	张成科.基于熵的水质模糊评价模型及应用[J].系统工程理论与实践,1998,(6):80-85.

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最大熵原理在水文水资源科学中的应用

作者简介:
王栋(1972- ),男,山东沂水人,河海大学水文水资源与环境学院博士研究生,主要从事水文水资源及水环境领域的风险分析、系统优化、非线性建模等研究.

Principle of Maximum Entropy and Its Application in Hydrology and Water Resources

计量

最大熵原理在水文水资源科学中的应用

河海大学水文水资源与环境学院, 江苏南京210098

作者简介:
王栋(1972- ),男,山东沂水人,河海大学水文水资源与环境学院博士研究生,主要从事水文水资源及水环境领域的风险分析、系统优化、非线性建模等研究.

English Abstract

Principle of Maximum Entropy and Its Application in Hydrology and Water Resources

College of Hydrology, Water Resources and Environment, Hohai University, Nanjing 210098, China

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留言板

最大熵原理在水文水资源科学中的应用

作者简介: 王栋(1972- ),男,山东沂水人,河海大学水文水资源与环境学院博士研究生,主要从事水文水资源及水环境领域的风险分析、系统优化、非线性建模等研究.

Principle of Maximum Entropy and Its Application in Hydrology and Water Resources

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出版历程

最大熵原理在水文水资源科学中的应用

河海大学水文水资源与环境学院, 江苏南京210098

作者简介: 王栋(1972- ),男,山东沂水人,河海大学水文水资源与环境学院博士研究生,主要从事水文水资源及水环境领域的风险分析、系统优化、非线性建模等研究.

English Abstract

Principle of Maximum Entropy and Its Application in Hydrology and Water Resources

College of Hydrology, Water Resources and Environment, Hohai University, Nanjing 210098, China

全文HTML

目录

作者简介:
王栋(1972- ),男,山东沂水人,河海大学水文水资源与环境学院博士研究生,主要从事水文水资源及水环境领域的风险分析、系统优化、非线性建模等研究.

作者简介:
王栋(1972- ),男,山东沂水人,河海大学水文水资源与环境学院博士研究生,主要从事水文水资源及水环境领域的风险分析、系统优化、非线性建模等研究.