That BLUP is a Good Thing: The Estimation of Random Effects - Wikidata - awgldk - TriplyDB

That BLUP is a Good Thing: The Estimation of Random Effects

That BLUP is a Good Thing: The Estimation of Random Effects

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Analytical strategies in human growth research Genotype-based ancestral background consistently predicts efficacy and side effects across treatments in CATIE and STAR*D Individual patient data meta-analysis of time-to-event outcomes: one-stage versus two-stage approaches for estimating the hazard ratio under a random effects model.Seasonal time constraints reduce genetic variation in life-history traits along a latitudinal gradient.BUGS in the analysis of biodiversity experiments: species richness and composition are of similar importance for grassland productivity.Random Effects Model for Multiple Pathway Analysis with Applications to Type II Diabetes Microarray Data The Use of Propensity Scores for Nonrandomized Designs With Clustered Data.From Observation to Information: Data-Driven Understanding of on Farm Yield Variation Streamlined mean field variational Bayes for longitudinal and multilevel data analysis.Statistical inference for time course RNA-Seq data using a negative binomial mixed-effect model.Analysis of Heritability Using Genome-Wide Data Semiparametric modeling and analysis of longitudinal method comparison data.Mixed effects multivariate adaptive splines model for the analysis of longitudinal and growth curve data.Bayesian hierarchical spatially correlated functional data analysis with application to colon carcinogenesis.Measuring under-five mortality: validation of new low-cost methods.Multiple Trait Covariance Association Test Identifies Gene Ontology Categories Associated with Chill Coma Recovery Time in Drosophila melanogaster.Poly-omic prediction of complex traits: OmicKriging.Linear spline multilevel models for summarising childhood growth trajectories: A guide to their application using examples from five birth cohorts Long-term monitoring reveals an avian species credit in secondary forest patches of Costa Rica Explained variation in a fully specified model for data-grouped survival data.A statistical framework for biomarker discovery in metabolomic time course data.Predicting low dose effects for chemicals in high through-put studies.A commentary on 'common SNPs explain a large proportion of the heritability for human height' by Yang et al. (2010).On shrinkage and model extrapolation in the evaluation of clinical center performance Predictors of two forms of attrition in a longitudinal health study involving ageing participants: an analysis based on the Whitehall II study.Polygenic modeling with bayesian sparse linear mixed models.Incidence, distribution, seasonality, and demographic risk factors of Salmonella Enteritidis human infections in Ontario, Canada, 2007-2009.A family-based joint test for mean and variance heterogeneity for quantitative traits.Monitoring Hip and Elbow Dysplasia achieved modest genetic improvement of 74 dog breeds over 40 years in USA Comparison of adequate relief with symptom, global, and responder endpoints in linaclotide phase 3 trials in IBS-C.The quantitative-genetic and QTL architecture of trait integration and modularity in Brassica rapa across simulated seasonal settings.GWAS with longitudinal phenotypes: performance of approximate procedures.Comparing glaucoma progression on 24-2 and 10-2 visual field examinations.Plasma Proteome Biomarkers of Inflammation in School Aged Children in Nepal.Robust Optimization of Biological Protocols.Separating Timing, Movement Conditions and Individual Differences in the Analysis of Human Movement.Supplementation of a clinical trial by historical control data: is the prospect of dynamic borrowing an illusion?The basis function approach for modeling autocorrelation in ecological data.Biometrics and Policing: A Protocol for Multichannel Sensor Data Collection and Exploratory Analysis of Contextualized Psychophysiological Response During Law Enforcement Operations.Representational models: A common framework for understanding encoding, pattern-component, and representational-similarity analysis.

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That BLUP is a Good Thing: The Estimation of Random Effects

http://www.wikidata.org/entity/Q56907177

description

im Februar 1991 veröffentlichter wissenschaftlicher Artikel

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wetenschappelijk artikel

@nl

наукова стаття, опублікована в лютому 1991

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name

That BLUP is a Good Thing: The Estimation of Random Effects

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That BLUP is a Good Thing: The Estimation of Random Effects

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type

label

That BLUP is a Good Thing: The Estimation of Random Effects

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That BLUP is a Good Thing: The Estimation of Random Effects

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prefLabel

That BLUP is a Good Thing: The Estimation of Random Effects

@en

That BLUP is a Good Thing: The Estimation of Random Effects

@nl

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Statistical Science

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That BLUP is a Good Thing: The Estimation of Random Effects

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G. K. Robinson

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15-32

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scholarly article

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10.1214/SS/1177011926

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1

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6

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1991-02-01T00:00:00Z

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