Cem P. Cetinkaya scite author profile

This paper aims to present the information-based technologies used for water management in a test basin within the scope of the EU-sponsored SMART and OPTIMA projects. The study uses a dynamic simulation model with its associated databases and a water resources planning and optimization system, established through a web-based client-server implementation to support distributed use and easy access for multi-criteria optimization and decision support. The results clearly illustrate how a consistent and well-integrated set of advanced but practical Decision Support System (DSS) tools can be used for efficient "optimal" water management strategies and policies of use, designed for a participatory public decision-making process.

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An Extension to the Revised Approach in the Assessment of Informational Entropy

Baran

Harmancioğlu

Cetinkaya

et al. 2017

Entropy

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This study attempts to extend the prevailing definition of informational entropy, where entropy relates to the amount of reduction of uncertainty or, indirectly, to the amount of information gained through measurements of a random variable. The approach adopted herein describes informational entropy not as an absolute measure of information, but as a measure of the variation of information. This makes it possible to obtain a single value for informational entropy, instead of several values that vary with the selection of the discretizing interval, when discrete probabilities of hydrological events are estimated through relative class frequencies and discretizing intervals. Furthermore, the present work introduces confidence limits for the informational entropy function, which facilitates a comparison between the uncertainties of various hydrological processes with different scales of magnitude and different probability structures. The work addresses hydrologists and environmental engineers more than it does mathematicians and statisticians. In particular, it is intended to help solve information-related problems in hydrological monitoring design and assessment. This paper first considers the selection of probability distributions of best fit to hydrological data, using generated synthetic time series. Next, it attempts to assess hydrometric monitoring duration in a netwrok, this time using observed runoff data series. In both applications, it focuses, basically, on the theoretical background for the extended definition of informational entropy. The methodology is shown to give valid results in each case.

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Assessment of Water Quality Sampling Sites by a Dynamic Programming Approach

Cetinkaya

Harmancioğlu

2012

J. Hydrol. Eng.

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Multi-Criteria Analysis of Water Allocation Scenarios in a Water Scarce Basin

Cetinkaya

Gunacti

2018

Water Resour Manage

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Cem P. Cetinkaya

Sustainability Issues in Water Management

Optimization methods applied for sustainable management of water-scarce basins

An Extension to the Revised Approach in the Assessment of Informational Entropy

Assessment of Water Quality Sampling Sites by a Dynamic Programming Approach

Multi-Criteria Analysis of Water Allocation Scenarios in a Water Scarce Basin

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