Analysis of PM10 air pollution in Brno based on a GLM with strongly rank-deficient design matrix
Authors | |
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Year of publication | 2007 |
Type | Article in Proceedings |
Conference | Book of Abstracts TIES 2007, August 16-20, 2007, 18th annual meeting of the International Environmetrics Society |
MU Faculty or unit | |
Citation | |
Field | Applied statistics, operation research |
Keywords | Air Pollution; Dust Aerosols PM10; Generalized autoregressive linear model; sparse estimator; Basis Pursuit Algorithm |
Description | A family of complex (generalized) linear models has been suggested exhibiting strong rank-deficiency in the design matrix to allow for more precise modeling involving identification of significant air pollution sources, among others. From each of them the parameter estimates were obtained using both standard estimation procedure and a new sparse parameter estimation technique based on BPA4 - a four-step modification of the Basis Pursuit Algorithm originally suggested in [Chen {S. S.}, Donoho {D. L.}, Saunders {M. A.}. Atomic decomposition by basis pursuit.SIAM J. Sci. Comput., 20(1):33-61,1998.] for time-scale analysis of digital signals. The goal of the analysis was to identify the model and algorithm yielding most precise one-day forecasts of the level of pollution by PM10 with regard to the meteorological and seasonal covariates. |
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