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Journal of the Air & Waste Management Association Volume 65, 2015 - Issue 7
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Technical Paper

Improving artificial neural network model predictions of daily average PM10 concentrations by applying principle component analysis and implementing seasonal models

Fatih TaşpınarDepartment of Environmental Engineering, The University of Düzce, Düzce, TurkeyCorrespondence[email protected]
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Pages 800-809 | Received 05 Nov 2014, Accepted 10 Feb 2015, Published online: 16 Jun 2015

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Brian S. Freeman, Graham Taylor, Bahram Gharabaghi & Jesse Thé. (2018) Forecasting air quality time series using deep learning. Journal of the Air & Waste Management Association 68:8, pages 866-886.
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Hülya Aykaç Özen & Hamdi Öbekcan. (2023) Short‐term estimations of PM 10 concentration in the Middle Black Sea region based on grey prediction models . CLEAN – Soil, Air, Water 51:10.
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Srinivas Soumitri Miriyala, Ravikiran Inapakurthi & Kishalay Mitra. 2023. Statistical Modeling in Machine Learning. Statistical Modeling in Machine Learning 307 326 .
Jian Peng, Haisheng Han, Yong Yi, Huimin Huang & Le Xie. (2022) Machine learning and deep learning modeling and simulation for predicting PM2.5 concentrations. Chemosphere 308, pages 136353.
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NurIzzah M. Hashim, Norazian Mohamed Noor, Ahmad Zia Ul-Saufie, Andrei Victor Sandu, Petrica Vizureanu, György Deák & Marwan Kheimi. (2022) Forecasting Daytime Ground-Level Ozone Concentration in Urbanized Areas of Malaysia Using Predictive Models. Sustainability 14:13, pages 7936.
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Begüm GÖKÇEK, Nuray ŞAŞA, Yeşim DOKUZ & Aslı BOZDAĞ. (2022) PM10 Parametresinin Makine Öğrenmesi Algoritmalari ile Mekânsal Analizi, Kayseri İli Örneği. Deu Muhendislik Fakultesi Fen ve Muhendislik 24:70, pages 65-80.
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Ravi Kiran Inapakurthi, Srinivas Soumitri Miriyala & Kishalay Mitra. (2021) Deep learning based dynamic behavior modelling and prediction of particulate matter in air. Chemical Engineering Journal 426, pages 131221.
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Krittakom Srijiranon, Narissara Eiamkanitchat, Sakgasit Ramingwong, Kenneth Cosh & Lachana Ramingwong. (2021) Investigation of PM 10 prediction utilizing data mining techniques: Analyze by topic . WIREs Data Mining and Knowledge Discovery 11:5.
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Krittakom Srijiranon & Narissara Eiamkanitchat. (2021) Neuro-fuzzy Model with Neighborhood Component Analysis for Air Quality Prediction. Neuro-fuzzy Model with Neighborhood Component Analysis for Air Quality Prediction.
Stanislaw Osowski. 2021. Advances in Computational Intelligence. Advances in Computational Intelligence 208 219 .
Jingyang Wang, Jiazheng Li, Xiaoxiao Wang, Jue Wang & Min Huang. (2020) Air quality prediction using CT-LSTM. Neural Computing and Applications.
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R. Nithya Shree, G. Santhiya & R. Bhargavi. (2020) Assessment Of Spatial Hazard And Impact Of PM10 Using Machine Learning. Assessment Of Spatial Hazard And Impact Of PM10 Using Machine Learning.
Weixin Zhai & Chengqi Cheng. (2020) A long short-term memory approach to predicting air quality based on social media data. Atmospheric Environment 237, pages 117411.
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Muhammad Muhitur Rahman, Md Shafiullah, Syed Masiur Rahman, Abu Nasser Khondaker, Abduljamiu Amao & Md. Hasan Zahir. (2020) Soft Computing Applications in Air Quality Modeling: Past, Present, and Future. Sustainability 12:10, pages 4045.
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Fhumulani Mathivha, Caston Sigauke, Hector Chikoore & John Odiyo. (2020) Short-Term and Medium-Term Drought Forecasting Using Generalized Additive Models. Sustainability 12:10, pages 4006.
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Aslı Bozdağ, Yeşim Dokuz & Öznur Begüm Gökçek. (2020) Spatial prediction of PM10 concentration using machine learning algorithms in Ankara, Turkey. Environmental Pollution, pages 114635.
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Carlos Hernán Hernán Fajardo-Toro, Andrés Lopez Astudillo, Paloma María Teresa Martínez Sánchez, Paola Andrea Sánchez Sánchez & Alvaro José Fajardo-Toro. 2020. Handbook of Research on Industrial Applications for Improved Supply Chain Performance. Handbook of Research on Industrial Applications for Improved Supply Chain Performance 353 374 .
Bahram Choubin, Mahsa Abdolshahnejad, Ehsan Moradi, Xavier Querol, Amir Mosavi, Shahaboddin Shamshirband & Pedram Ghamisi. (2020) Spatial hazard assessment of the PM10 using machine learning models in Barcelona, Spain. Science of The Total Environment 701, pages 134474.
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Ravi kiran Inapakurthi, Srinivas Soumitri Miriyala & Kishalay Mitra. (2020) Modelling of pollutants and particulate matter in air using auto-tuned deep recurrent networks. IFAC-PapersOnLine 53:1, pages 530-535.
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A. Nazif, N. I. Mohammed, A. Malakahmad & M. S. Abualqumboz. (2018) Multivariate analysis of monsoon seasonal variation and prediction of particulate matter episode using regression and hybrid models. International Journal of Environmental Science and Technology 16:6, pages 2587-2600.
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Priyanjali Gogikar, Bhishma Tyagi & A. K. Gorai. (2018) Seasonal prediction of particulate matter over the steel city of India using neural network models. Modeling Earth Systems and Environment 5:1, pages 227-243.
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A. Suleiman, M.R. Tight & A.D. Quinn. (2019) Applying machine learning methods in managing urban concentrations of traffic-related particulate matter (PM10 and PM2.5). Atmospheric Pollution Research 10:1, pages 134-144.
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Jadwiga Nidzgorska-Lencewicz. (2018) Application of Artificial Neural Networks in the Prediction of PM10 Levels in the Winter Months: A Case Study in the Tricity Agglomeration, Poland. Atmosphere 9:6, pages 203.
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Amina Nazif, Nurul Izma Mohammed, Amirhossein Malakahmad & Motasem S. Abualqumboz. (2017) Regression and multivariate models for predicting particulate matter concentration level. Environmental Science and Pollution Research 25:1, pages 283-289.
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A. Ghobakhlou, S. Zandi & P. Sallis. (2017) Modelling Climate Data Factors Influencing Fine-Particulate Matter Density in the Near-Ground Atmosphere. Modelling Climate Data Factors Influencing Fine-Particulate Matter Density in the Near-Ground Atmosphere.
A. Suleiman, M.R. Tight & A.D. Quinn. (2016) Assessment and prediction of the impact of road transport on ambient concentrations of particulate matter PM 10. Transportation Research Part D: Transport and Environment 49, pages 301-312.
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Amina Nazif, Nurul Izma Mohammed, Amirhossein Malakahmad & Motasem S. Abualqumboz. (2016) Application of Step Wise Regression Analysis in Predicting Future Particulate Matter Concentration Episode. Water, Air, & Soil Pollution 227:4.
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