Islamic Azad University, Central Tehran BranchInternational Journal of Mathematical Modelling & Computations2228-6225113 (SUMMER)20210901On D-efficiency of Reduced Models for Central Composite Experimental Designs Within a Split-plot Structure68481810.30495/ijm2c.2021.684818ENYisaYakubuDepartment of Statistics, Federal University of Technology, Minna, Niger State, NigeriaAngela UnnaChukwuDepartment of Statistics, University of Ibadan, NigeriaSule ShehuAhmedDepartment of Mathematics and Statistics, School of Natural Sciences, Niger State Polytechnic, Zungeru, Nigeria.Journal Article20201010Choosing a response surface design to fit certain kinds of models is a difficult task. Extensive research comprising a collection of efficient second-order response surface designs from which a researcher may choose to best fit his/her needs has been conducted, which are based solely on a widely-accepted assumption of a completely randomized error structure of statistically-designed experiments. However, this assumption is not feasible in industrial experiments, which are often split-plot in nature and for which randomization of some factors have to be restricted due to certain constraints. The performance of such experimental designs depends strongly on the relative magnitude (d) of the whole-plot and sub-plot error variances. This work focuses on reduced second-order models having one, two, or all of their quadratic and/or interaction terms removed from the full models of some chosen candidate split-plot central composite designs (CCDs). It investigates the effects of model reduction on efficiency of these designs by computing the relative D-efficiencies for the formulated reduced models with respect to their corresponding full designs and assessing the efficiency losses under specific values of d. The study revealed a significant loss of D-efficiency in these designs, which depend strongly on the removed term(s) and increases, across all values of d, as the number of whole-plot factors increases.