A neural network-based approach for the prediction of urban SO&lt;SUB align=right&gt;2 concentrations in the Istanbul metropolitan area

Akkoyunlu, Atilla; Yetilmezsoy, Kaan; Ertürk, Ferruh; Öztemel, Ercan

doi:10.1504/ijep.2010.031752

Cited by 32 publications

(24 citation statements)

References 27 publications

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“…Finally, in order to describe the overall performance of the proposed models, results were assessed with various descriptive statistics such as coefficient of determination (R 2 ), correlation coefficient (R), mean-absolute error (MAE), root mean-square error (RMSE), systematic and unsystematic RMSE (RMSE S and RMSE U , respectively), index of agreement (IA), mean bias (MB), fractional bias (FB), the factor of two (FA2), fractional variance (FV), intercept (a) and slope (b) of the adjusted line between observed and predicted values, and proportion of systematic error (PSE). Detailed definitions and calculations of these estimators can be found in several studies [19,26,[81][82][83][84]. The obtained results are summarized in Table 5.…”

Section: Tablementioning

confidence: 99%

“…Because of their speed and capability of learning, robustness, predictive capabilities and non-linear characteristics, several artificial intelligence-based modeling techniques, such as artificial neural networks [23][24][25][26], fuzzy-logic [27,28], adaptive neuro-fuzzy inference systems [19,29], have recently been conducted in the modeling of various real-life processes in environmental engineering field. Among these methods, fuzzy-logic methodology has been successfully applied in a variety of ecological and environmental applications, ranging from mapping to modeling, evaluation and prediction tasks [30].…”

Section: Introductionmentioning

confidence: 99%

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A fuzzy-logic-based model to predict biogas and methane production rates in a pilot-scale mesophilic UASB reactor treating molasses wastewater

Turkdogan-Aydınol¹,

Yetilmezsoy²

2010

Journal of Hazardous Materials

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126

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Section: Tablementioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

A fuzzy-logic-based model to predict biogas and methane production rates in a pilot-scale mesophilic UASB reactor treating molasses wastewater

Turkdogan-Aydınol¹,

Yetilmezsoy²

2010

Journal of Hazardous Materials

Self Cite

126

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“…Considering the complicated inter-relationships among a number of system factors in the dispersion and transport of atmospheric pollutants under several meteorological conditions, mathematical models have become essential tools to develop early-warning and control strategies, as well as to investigate future emission scenarios. Although statistical models may be able to establish a relationship between the input and the output variables without detailing the causes and effects in the formation of pollutants, however, they are not capable of capturing the inherent non-linear nature of the problem and forecasting short-term pollution levels (Agirre-Basurko et al, 2006;Barai et al, 2007;Akkoyunlu et al, 2010). Since the number of meteorological and pollution parameters implies highdimensional input space and high computational capacity, it is believed that artificial intelligence-based techniques may provide a good alternative to traditional techniques due to their speed, robustness and non-linear characteristics (Yetilmezsoy and Sapci-Zengin, 2009;Akkoyunlu et al, 2010).…”

Section: Introductionmentioning

confidence: 99%

“…Because of their non-parametric regression capabilities, generalization properties and easiness of working with high-dimensional data, several artificial intelligence-based methods, such as artificial neural networks (Abdul-Wahab and Al-Alawi, 2002;Yetilmezsoy, 2006;Yetilmezsoy and Saral, 2007;Akkoyunlu et al, 2010) and fuzzy-logic/neurofuzzy (Nunnari et al, 2004;Yildirim and Bayramoglu, 2006;Carnevale et al, 2009;Noori et al, 2010) methodology, have recently been utilized in the modeling of various reallife problems in air pollution field. There have also been other specific studies reporting the advantages and adaptability properties of artificial intelligence-based models for the prediction of daily and/or hourly particulate matter (PM 2.5 and PM 10 ) emissions in many urban and residential areas (Chaloulakou et al, 2003;Chelani, 2005;Grivas and Chaloulakou, 2006;Karaca et al, 2009).…”

Section: Introductionmentioning

confidence: 99%

A Prognostic Approach Based on Fuzzy-Logic Methodology to Forecast PM10 Levels in Khaldiya Residential Area, Kuwait

Yetilmezsoy

Abdul‐Wahab

2012

Aerosol Air Qual. Res.

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A prognostic approach is proposed based on a fuzzy-logic model to estimate suspended dust concentrations, related to PM 10 , in a specific residential area in Kuwait with high traffic and industrial influences. Seven input variables, including four important meteorological parameters (wind speed, wind direction, relative humidity and solar radiation) and the ambient concentrations of three gaseous pollutants (methane, carbon monoxide and ozone) were fuzzified using a sytem with a graphical user interface (GUI) and an artificial intelligence-based approach. Trapezoidal membership functions with ten and fifteen levels were employed for the fuzzy subsets of each model variable. A Mamdani-type fuzzy inference system (FIS) was developed to introduce a total of 146 rules in the IF-THEN format. The product (prod) and the centre of gravity (centroid) methods were performed as the inference operator and defuzzification methods, respectively, for the proposed FIS. The results obtained using uzzy-logic were compared with the outputs of an exponential regression model. The predictive performances of the models were compared based on various descriptive statistical indicators, and the proposed method was tested against additional observed data. The prognostic model presented in this work produced very small deviations from the actual results, and showed better predictive performance than the other model with regard to forecasting PM 10 levels, with a very high determination coefficient of over 0.99.

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“…Fuzzy logic, developed by Zadeh, has some advantages over mathematical models where complicated equations are used [33]. Artificial intelligence-based tools are a suitable substitute to conventional methods such as curve fitting due to their speed, robustness, and nonlinear characteristics [34]. Due to its high precision ability and flexibility in use, fuzzy logic has been applied in many of the environmental engineering problems from air pollution to water treatment systems.…”

Section: Introductionmentioning

confidence: 99%

Determination of Biological Treatability Processes of Textile Wastewater and Implementation of a Fuzzy Logic Model

Kabuk

Avşar

Kuzu

et al. 2015

International Journal of Photoenergy

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This study investigated the biological treatability of textile wastewater. For this purpose, a membrane bioreactor (MBR) was utilized for biological treatment after the ozonation process. Due to the refractory organic contents of textile wastewater that has a low biodegradability capacity, ozonation was implemented as an advanced oxidation process prior to the MBR system to increase the biodegradability of the wastewater. Textile wastewater, oxidized by ozonation, was fed to the MBR at different hydraulic retention times (HRT). During the process, color, chemical oxygen demand (COD), and biochemical oxygen demand (BOD) removal efficiencies were monitored for 24-hour, 12-hour, 6-hour, and 3-hour retention times. Under these conditions, 94% color, 65% COD, and 55% BOD removal efficiencies were obtained in the MBR system. The experimental outputs were modeled with multiple linear regressions (MLR) and fuzzy logic. MLR results suggested that color removal is more related to COD removal relative to BOD removal. A surface map of this issue was prepared with a fuzzy logic model. Furthermore, fuzzy logic was employed to the whole modeling of the biological system treatment. Determination coefficients for COD, BOD, and color removal efficiencies were 0.96, 0.97, and 0.92, respectively.

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A neural network-based approach for the prediction of urban SO<SUB align=right>2 concentrations in the Istanbul metropolitan area

Cited by 32 publications

References 27 publications

A fuzzy-logic-based model to predict biogas and methane production rates in a pilot-scale mesophilic UASB reactor treating molasses wastewater

A fuzzy-logic-based model to predict biogas and methane production rates in a pilot-scale mesophilic UASB reactor treating molasses wastewater

A Prognostic Approach Based on Fuzzy-Logic Methodology to Forecast PM10 Levels in Khaldiya Residential Area, Kuwait

Determination of Biological Treatability Processes of Textile Wastewater and Implementation of a Fuzzy Logic Model

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