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Entropy Applications in Environmental and Water Engineering

dc.contributor.authorCui, Huijuan*
dc.contributor.authorSivakumar, Bellie*
dc.contributor.authorSingh, Vijay P.*
dc.date.accessioned2021-02-11T12:41:58Z
dc.date.available2021-02-11T12:41:58Z
dc.date.issued2019*
dc.date.submitted2019-03-21 15:50:41*
dc.identifier32592*
dc.identifier.urihttps://directory.doabooks.org/handle/20.500.12854/46556
dc.description.abstractEntropy theory has wide applications to a range of problems in the fields of environmental and water engineering, including river hydraulic geometry, fluvial hydraulics, water monitoring network design, river flow forecasting, floods and droughts, river network analysis, infiltration, soil moisture, sediment transport, surface water and groundwater quality modeling, ecosystems modeling, water distribution networks, environmental and water resources management, and parameter estimation. Such applications have used several different entropy formulations, such as Shannon, Tsallis, Reacutenyi Burg, Kolmogorov, Kapur, configurational, and relative entropies, which can be derived in time, space, or frequency domains. More recently, entropy-based concepts have been coupled with other theories, including copula and wavelets, to study various issues associated with environmental and water resources systems. Recent studies indicate the enormous scope and potential of entropy theory in advancing research in the fields of environmental and water engineering, including establishing and explaining physical connections between theory and reality. The objective of this Special Issue is to provide a platform for compiling important recent and current research on the applications of entropy theory in environmental and water engineering. The contributions to this Special Issue have addressed many aspects associated with entropy theory applications and have shown the enormous scope and potential of entropy theory in advancing research in the fields of environmental and water engineering.*
dc.languageEnglish*
dc.subjectTA1-2040*
dc.subjectT1-995*
dc.subjectTA170-171*
dc.subject.classificationthema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBX History of engineering and technologyen_US
dc.subject.otherhydrological risk analysis*
dc.subject.othermodeling*
dc.subject.otherwater level*
dc.subject.otherPoyang Lake basin*
dc.subject.othertrend*
dc.subject.othercomposite multiscale sample entropy*
dc.subject.otherflood frequency analysis*
dc.subject.othercanopy flow*
dc.subject.otherprecipitation*
dc.subject.otherwater resources*
dc.subject.othercomplex systems*
dc.subject.otherfrequency analysis*
dc.subject.otheroptimization*
dc.subject.othercombined forecast*
dc.subject.otherneural network forecast*
dc.subject.otherentropy spectral analysis time series analysis*
dc.subject.otherenvironmental engineering*
dc.subject.otherhydrometric network*
dc.subject.othersea surface temperature*
dc.subject.otherkernel density estimation*
dc.subject.otherrobustness*
dc.subject.otherturbulent flow*
dc.subject.otherentropy production*
dc.subject.otherconnection entropy*
dc.subject.otherflux concentration relation*
dc.subject.otherturbulence*
dc.subject.othertropical rainfall*
dc.subject.othergeneralized gamma (GG) distribution*
dc.subject.othermulti-events*
dc.subject.otherEl Niño*
dc.subject.otherjoint entropy*
dc.subject.otherentropy weighting method*
dc.subject.otherAnhui Province*
dc.subject.otherchanging environment*
dc.subject.othercomplexity*
dc.subject.othermultiplicative cascades*
dc.subject.otherTsallis entropy*
dc.subject.otherHexi corridor*
dc.subject.othercoherent structures*
dc.subject.otherwater resources vulnerability*
dc.subject.otheruncertainty*
dc.subject.othervariability*
dc.subject.otherflow entropy*
dc.subject.otherHei River basin*
dc.subject.otherfuzzy analytic hierarchy process*
dc.subject.othersubstitute*
dc.subject.othercrop yield*
dc.subject.otherconditional entropy production*
dc.subject.otherentropy*
dc.subject.otherflow duration curve*
dc.subject.othermean annual runoff*
dc.subject.othertemperature*
dc.subject.otherhydrometeorological extremes*
dc.subject.otherresilience*
dc.subject.otherLoess Plateau*
dc.subject.otherinformation entropy*
dc.subject.otherscaling*
dc.subject.otherwater distribution networks*
dc.subject.othercross entropy*
dc.subject.otherrandomness*
dc.subject.otherforewarning model*
dc.subject.otherentropy applications*
dc.subject.otherquaternary catchment*
dc.subject.otherspatio-temporal variability*
dc.subject.otherprobability distribution function*
dc.subject.otherant colony fuzzy clustering*
dc.subject.otherradar*
dc.subject.othercontinuous probability distribution functions*
dc.subject.otherShannon entropy*
dc.subject.otherinformational entropy*
dc.subject.otherinformation*
dc.subject.otherconfidence intervals*
dc.subject.othermarginal entropy*
dc.subject.otherrainfall forecast*
dc.subject.otherentropy of information*
dc.subject.otherstreamflow*
dc.subject.otherpower laws*
dc.subject.otherbootstrap aggregating*
dc.subject.othermaximum entropy-copula method*
dc.subject.otherspatial and dynamics characteristic*
dc.subject.otherprojection pursuit*
dc.subject.otherset pair analysis*
dc.subject.otherentropy theory*
dc.subject.otherwater resource carrying capacity*
dc.subject.otherentropy parameter*
dc.subject.otherprecipitation frequency analysis*
dc.subject.otherprinciple of maximum entropy*
dc.subject.otherinformation theory*
dc.subject.otherstochastic processes*
dc.subject.othernetwork design*
dc.subject.othercomplement*
dc.subject.othercross elasticity*
dc.subject.otherclimacogram*
dc.subject.othermethods of moments*
dc.subject.otherhydrology*
dc.subject.otherbagging*
dc.subject.otherprinciple of maximum entropy (POME)*
dc.subject.otherrainfall network*
dc.subject.otherentropy ensemble filter*
dc.subject.otherensemble model simulation criterion*
dc.subject.otherLagrangian function*
dc.subject.otherBeta-Lognormal model*
dc.subject.othercross-entropy minimization*
dc.subject.otherANN*
dc.subject.otherconfigurational entropy*
dc.subject.othervariation of information*
dc.subject.otherstatistical scaling*
dc.subject.otherEEF method*
dc.subject.otherwater monitoring*
dc.subject.othermaximum likelihood estimation*
dc.subject.otherGB2 distribution*
dc.subject.otherNDVI*
dc.subject.otherfour-parameter exponential gamma distribution*
dc.subject.otherhydraulics*
dc.subject.otherspatial optimization*
dc.subject.otherKolmogorov complexity*
dc.subject.otherbootstrap neural networks*
dc.subject.othermutual information*
dc.subject.otheraccelerating genetic algorithm*
dc.subject.othergroundwater depth*
dc.subject.otherrainfall*
dc.subject.othertropical Pacific*
dc.subject.otherwater engineering*
dc.subject.othermonthly streamflow forecasting*
dc.subject.otherENSO*
dc.subject.othernonlinear relation*
dc.subject.otherBayesian technique*
dc.subject.othernon-point source pollution*
dc.subject.otherBurg entropy*
dc.subject.otherdata-scarce*
dc.subject.otherscaling laws*
dc.subject.othersoil water content*
dc.subject.otherarid region*
dc.subject.otherland suitability evaluation*
dc.subject.otherinformation transfer*
dc.titleEntropy Applications in Environmental and Water Engineering*
dc.typebook
oapen.identifier.doi10.3390/books978-3-03897-223-5*
oapen.relation.isPublishedBy46cabcaa-dd94-4bfe-87b4-55023c1b36d0*
oapen.relation.isbn9783038972228*
oapen.pages512*
oapen.edition1st*


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