人工神经网络得出的每日最高地面臭氧浓度趋势

Artificial neural network-derived trends in daily maximum surface ozone concentrations.

作者信息

Gardner M, Dorling S

机构信息

School of Environmental Sciences, University of East Anglia, Norwich, United Kingdom.

出版信息

J Air Waste Manag Assoc. 2001 Aug;51(8):1202-10. doi: 10.1080/10473289.2001.10464338.

DOI:10.1080/10473289.2001.10464338

PMID:11518294

Abstract

Interannual variability in meteorological conditions can confound attempts to identify changes in ozone concentrations driven by reduced precursor emissions. In this paper, a technique is described that attempts to maximize the removal of meteorological variability from a daily maximum ozone time series, thereby revealing longer term changes in ozone concentrations with increased confidence. The technique employs artificial neural network [multilayer perceptron (MLP)] models, and is shown to remove more of the meteorological variability from U.S. ozone data than does a Kolmogorov-Zurbenko (KZ) filter and conventional regression-based technique.

摘要

气象条件的年际变化可能会干扰人们识别由前体排放减少所驱动的臭氧浓度变化的尝试。本文描述了一种技术，该技术试图最大限度地消除日最大臭氧时间序列中的气象变化，从而更有把握地揭示臭氧浓度的长期变化。该技术采用人工神经网络[多层感知器（MLP）]模型，并且与Kolmogorov-Zurbenko（KZ）滤波器和传统的基于回归的技术相比，它能从美国臭氧数据中消除更多的气象变化。

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人工神经网络得出的每日最高地面臭氧浓度趋势

Artificial neural network-derived trends in daily maximum surface ozone concentrations.

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