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Paper detail

Optimal designs for multi-response generalized linear models with applications in thermal spraying

We consider the problem of designing experiments for investigating particle in-flight properties in thermal spraying. Observations are available on an extensive design for an initial day and thereafter in limited number for any particular day. Generalized linear models including additional day effects are used for analyzing the process, where the models vary with respect to different responses. We construct robust D-optimal designs to collect additional data on any current day, which are efficient for the estimation of the parameters in all models under consideration. These designs improve a reference fractional factorial design substantially. We also investigate designs, which maximize the power of the test for an additional day effect. The results are used to design additional experiments of the thermal spraying process and a comparison of the statistical analysis based on a reference design as well as on a selected D-optimal design is performed.

preprint2013arXivOpen access
Holger DetteLaura HoydenSonja KuhntKirsten Schorning
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Holger DetteLaura HoydenSonja KuhntKirsten Schorning

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