会议论文详细信息
International Symposium on Arboriculture in the Tropics: Securing Ecosystem Functions in Urban Landscape 2017
Temporal prediction of carbon monoxide using the Elman Recurrent Neural Network
农业科学;生态环境科学
Tantriawan, H.^1 ; Sitanggang, I.S.^2 ; Syaufina, L.^3 ; Harsa, H.^4
Department of Science, Informatic Engineering, Institut Teknologi Sumatera, Lampung
35365, Indonesia^1
Department of Computer Science, Bogor Agricultural University, Meranti Street IPB Dramaga, West Java, Bogor
16680, Indonesia^2
Department of Silviculture, Bogor Agricultural University, Lingkar Akademik Street IPB Dramaga, West Java, Bogor
16680, Indonesia^3
Research and Development Center, Indonesia Climatology and Geophysics Agency, Angkasa Street I No. 2 Kemayoran, Jakarta
10720, Indonesia^4
关键词: Air pollution index;    Data preprocessing;    Elman recurrent neural network;    Meteorological data;    Model development;    Pollutant concentration;    Temporal prediction;    Weight determination;   
Others  :  https://iopscience.iop.org/article/10.1088/1755-1315/203/1/012009/pdf
DOI  :  10.1088/1755-1315/203/1/012009
来源: IOP
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【 摘 要 】

Peatland fires in Indonesia are considered as regional disasters which occur periodically. These negative impacts, especially on our health, continue to threaten the society across the region. The objective of this study was to create a temporal model for predicting the pollutant concentration from peatland fires using the Elman Recurrent Neural Network (ERNN) and training by gathering data from fires which have been occurred recently in Sumatera, Indonesia. The data describing the haze from the peatland fires were generated using the HYSPLIT model with the input of hotspot sequences and meteorological data from NOAA. The stages of the model development consisted of data pre-processing, pollutant concentrations generating using HYSPLIT, pollutant concentration analysis, network architecture formation, weight determination, model training, and the prediction of the model evaluation. Experimental results indicated that the calculation of the ISPU (standard air pollution index) using the GDAS data of 20.5 g / m3 obtained an ISPU value of 221. This value indicated that the air in the South Sumatera Province was very unhealthy. Similar to the calculation of ISPU using the WRF-Chem data of 26 g / m3 obtained an ISPU value of 253. This value indicated that air in the South Sumatera Province was very unhealthy.

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