ตัวแบบผสมอารีมา-ซัพพอร์ตเวกเตอร์แมชชีนเน้นองค์ประกอบเชิงบวกสำหรับการพยากรณ์ปริมาณฝุ่นละอองขนาดไม่เกิน 10 ไมครอน

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Published: Apr 19, 2019
Keywords:
combined model air pollution forecasting ARIMA support vector machine particulate matter

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ธรณินทร์ สัจวิริยทรัพย์

Abstract

Abstract


In this research, a hybrid model of ARIMA and SVM is developed and proposed for PM10 forecasting in Na Phra Lan sub-district, Chaloem Phra Kiat district, Saraburi province based on an assumption of additive components. In this regard, the ARIMA model, which has dominated in linear forecasting problems, is used to predict linear components of the PM10 time series. Whilst, the SVM model is a well-known approach with superior performance of nonlinear forecasting model, which is used to formulate nonlinear and complex function in order to predict nonlinear components of the PM10 time series. In addition, the developed model is compared to both ARIMA model and SVM model based on six accuracy measures. The empirical results revealed that the SVM model based on radial kernel function slightly outperforms ARIMA model. In contrast, the developed hybrid model can provide lower errors than both ARIMA and SVM models. The comparison between ARIMA model and SVM model indicated that the PM10 time series may not be explicit linear or nonlinear patterns. Subsequently, the developed hybrid model can reduce a risk of using improper forecasting model. Consequently, the hybrid ARIMA-SVM model can be a promising tool for PM10 forecasting in other area in order to provide useful information to monitor and make a critical decision on air quality that is not only a very challenging task but also a public concerned problem for human health. 


Keywords: combined model; air pollution forecasting; ARIMA; support vector machine; particulate matter

Article Details

Issue
Vol.27 No.3 (May - June 2019)
Section
Engineering and Architecture
Author Biography

ธรณินทร์ สัจวิริยทรัพย์

สาขาวิศวกรรมโลจิสติกส์ คณะวิศวกรรมศาสตร์ มหาวิทยาลัยหอการค้าไทย แขวงรัชดาภิเษก เขตดินแดง กรุงเทพมหานคร 10400

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