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Medientyp: E-Artikel Titel: Regularization for Continuously Observed Ordinal Response Variables with Piecewise‐constant Functional Covariates Beteiligte: Avery, Matthew; Orndorff, Mark; Robinson, Timothy; Freeman, Laura Erschienen: Wiley, 2016 Erschienen in: Quality and Reliability Engineering International Sprache: Englisch DOI: 10.1002/qre.2037 ISSN: 0748-8017; 1099-1638 Schlagwörter: Management Science and Operations Research ; Safety, Risk, Reliability and Quality Entstehung: Anmerkungen: Beschreibung: <jats:p>This paper investigates regularization for continuously observed covariates that resemble step functions. The motivating examples come from operational test data from a recent US Department of Defense test of the Shadow Tactical Unmanned Aircraft system. The response variable, quality of video provided by the Shadow to friendly ground units, was measured on an ordinal scale continuously over time. Functional covariates, altitude and distance, can be well approximated by step functions. Two approaches for regularizing these covariates are considered, including a thinning approach commonly used within the Department of Defense to address autocorrelated time series data, and a novel ‘smoothing’ approach, which first approximates the covariates as step functions and then treats each ‘step’ as a uniquely observed data point. Datasets resulting from both approaches are fit using a mixed model cumulative logistic regression, and we compare their results. While the thinning approach identifies altitude as having a significant impact on video quality, the smoothing approach finds no evidence of an effect. This difference is attributable to the larger effective sample size produced by thinning. System characteristics make it unlikely that video quality would degrade at higher altitudes, suggesting that the thinning approach has produced a Type 1 error. By accounting for the functional characteristics of the covariates, the novel smoothing approach has produced a more accurate characterization of the Shadow's ability to provide full motion video to supported units. Copyright © 2016 John Wiley & Sons, Ltd.</jats:p>