Publications by James V. Zidek FRSC, O.C.
2010
. Modeling hourly ozone concentration fields. The Annals of Applied Statistics. Institute of Mathematical Statistics; 2010;4:1183–1213.
. Model selection for the binary dichotomized temperature processes. Vancouver, BC: Department of Statistics, University of British Columbia; 2010.
. Air Pollution and Cancer. Chronic Diseases in Canada. 2010;29.
. Uncertainty and the conditional variance. Statistics and probability letters. Elsevier; 2010;80:1764–1770.
2009
. r-th order categorical Markov chains. Vancouver, BC: Department of Statistics, University of British Columbia; 2009.
. An analysis of Alberta's climate. Part i: Nonhomogenized data. Vancouver, BC: Department of Statistics, University of British Columbia; 2009.
. Bayesian Empirical Orthogonal Functions. Vancouver, BC: Department of Statistics, University of British Columbia; 2009.
. Temporal prediction with a Bayesian spatial predictor: an application to ozone fields. Vancouver, BC: Department of Statistics, University of British Columbia; 2009.
. Application of an entropy-based Bayesian optimization technique to the redesign of an existing monitoring network for single air pollutants. Journal of environmental management. Elsevier; 2009;90:2715–2729.
2008
. Recalibrating ozone chemical transport models. Vancouver, BC: Department of Statistics, University of British Columbia; 2008.
. Combining measurements and physical model outputs for the spatial prediction of hourly ozone space-time fields. Vancouver, BC: Department of Statistics, University of British Columbia; 2008.
. Estimating exposure response functions using ambient pollution concentrations. The Annals of Applied Statistics. Institute of Mathematical Statistics; 2008;2:1249–1270.
2007
. A dynamic linear model for hourly ozone concentrations. Department of Statistics, University of British Columbia; 2007.
. An appraisal of bayesian melding for physical-statistical modeling. Vancouver, BC: Department of Statistics, University of British Columbia; 2007.
. A framework for predicting personal exposures to environmental hazards. Environmental and Ecological Statistics. Springer; 2007;14:411–431.
. Designing environmental monitoring networks to measure extremes. Environmental and Ecological Statistics. Springer; 2007;14:301–321.
. Calibrating deterministic modeling output with application of ozone fields. Department of Statistics, The University of British Columbia; 2007.
. A Dynamic Linear Model for Hourly Ozone Concentrations. Vancouver, BC: Department of Statistics, University of British Columbia; 2007.
2006
. Using estimated personal exposures to assess the short-term effects of air pollution on health. University of Bath, Department of Mathematical Sciecnes Technical Report. 2006;.
. Editorial:(Post-normal) statistical science. Journal of the Royal Statistical Society: Series A (Statistics in Society). Wiley Online Library; 2006;169:1–4.
. The matrix-t distribution and its applications in predictive inference. Journal of Multivariate Analysis. Elsevier; 2006;97:785–795.
. Statistical analysis of environmental space-time processes. Springer Science and Business Media; 2006.
2005
. Multi-agent predictors of an exponential interevent time. Vancouver, BC: Department of Statistics, University of British Columbia; 2005.
. Selecting likelihood weights by cross-validation. The Annals of Statistics. Institute of Mathematical Statistics; 2005;33:463–500.
. Derivation of mixture distributions and weighted likelihood function as minimizers of KL-divergence subject to constraints. Annals of the Institute of Statistical Mathematics. Springer; 2005;57:687–701.
. Using a probabilistic model (pCNEM) to estimate personal exposure to air pollution. Environmetrics. Wiley Online Library; 2005;16:481–493.
2004
. Forecasting NBA basketball playoff outcomes using the weighted likelihood. Lecture Notes-Monograph Series. 2004;:385–395.
. [Statistical Issues in Studies of the Long-Term Effects of Air Pollution: The Southern California Children's Health Study]: Comment. Statistical Science. 2004;19:442–443.
. Weighted Likelihoods for the NEF-QVF Family with Application. Can Jour Statist. Citeseer; 2004;32:139-157.
. Bayesian nonparametric subset selection procedures with Weibull components. Vancouver, BC: Department of Statistics, University of British Columbia.; 2004.
. Asymptotic properties of maximum weighted likelihood estimators. Journal of Statistical Planning and Inference. Elsevier; 2004;119:37–54.
. Combining the data from two normal populations to estimate the mean of one when their means difference is bounded. Journal of Multivariate Analysis. Elsevier; 2004;88:19–46.
2003
. Designing networks for monitoring multivariate environmental fields using data with monotone pattern. Statistical and Applied Mathematical Sciences Institute, RTP, NC; 2003.
. Derivation of Mixture Distributions and Weighted Likelihood Function. Department of Statistics, University of British Columbia; 2003.
. A statistical characterization of a simulated Canadian annual maximum rainfall field. TR 2003-17, Statistical and Mathematical Sciences Institute, RTP, NC. North Carolina: Statistical and Applied Mathematical Sciences Institute; 2003.
. A computational model for estimating personal exposure to air pollutants with application to Londons PM10 in 1997. Department of Statistics, University of British Columbia. 2003.
. Uncertainty, entropy, variance and the effect of partial information. Lecture Notes-Monograph Series. 2003;:155–167.
. A Computational Model for Estimating Personal Exposure to Air Pollutants with Application to London's PM10 in 1997. Statistical and Applied Mathematical Sciences Institute; 2003.
. The weighted likelihood. Quality control and applied statistics. Executive Sciences Institute; 2003;48:545–546.
. Designing Networks for Monitoring Multivariate Environmental Fields Using Data with Monotone Pattern. North Carolina: Statistical and Applied Mathematical Sciences Institute; 2003.
2002
. Correction on Estimating one of two normal means when their difference is bounded. Statistics and Probability Letters. North-Holland; 2002;57:111.
. Bayesian spatial prediction of random space-time fields with application to mapping PM2. 5 exposure. Journal of the American Statistical Association. Taylor and Francis; 2002;97:112–124.
. Combining sample information in estimating ordered normal means. Sankhy\=a: The Indian Journal of Statistics, Series A. 2002;:588–610.
. The weighted likelihood. Canadian Journal of Statistics. Wiley Online Library; 2002;30:347–371.
2001
. Spatial prediction and temporal backcasting for environmental fields having monotone data patterns. Canadian Journal of Statistics. Wiley Online Library; 2001;29:529–554.
. The relevance weighted likelihood with applications. In Empirical Bayes and Likelihood Inference. Springer; 2001. pp. 211–235.
. Estimating one of two normal means when their difference is bounded. Statistics and probability letters. Elsevier; 2001;51:277–284.
2000
. Combining statistical and computer models for health risk assessment (exposure analysis). In Statistical Modelling, Proceedings of the 15th International Workshop on Statistical Modelling: New Trends in Statistical Modelling. Universidad del Pais Vasco, Bilbao. 2000. pp. 95–106.
. Interpolating Vancouver's daily ambient PM10 field. Environmetrics. Wiley Online Library; 2000;11:651–663.