Browsing by Author "Ikughur, J. A."

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    Development of alternative linear estimators in complex surveys
    (2011-11) Ikughur, J. A.
    The estimation of multiple characteristics using Probability Proportional to Size (PPS) sampling scheme has introduced some complexities in sample surveys. It requires transformation of auxiliary information into probability measures and the utilization of correlation coefficient between study variables y and measure of size x. Existing estimators of finite population characteristics are rigidly specified by a fixed order of positive correlation between y and x and are assumed efficient for all populations. However, the assumptions break down when the study variables are negatively correlated with measure of size. In this study, a linear class of estimators that are functions of moments in positive and negative correlation coefficients were proposed. Using laws of proportions and probability measure theory, a class of alternative linear estimators〖 τ ̂〗_(g,c) were developed for use in PPS sampling schemes. Using linear regression model with slope β and well-behaved error term ε, the expectation of cth standardized moment of the study variable given by E((y-μ_y)/σ_y )^c=E[β((x-μ_x)/σ_y )+((ε-μ_ε)/σ_y ) ]^c,c=1,2,3,4 with β^c=(ρ^2 (σ_y^2)/(σ_x^2 ))^(c/2) provided a link between moments in correlation coefficient and distribution of the target population, where ρ is the correlation coefficient, 〖μ_y,μ〗_x,μ_ε and σ_(y,)^2 σ_x^2 ,σ_ε^2 are means and variances of y,x ε respectively. The minimum variance was used as optimality criterion for comparing the performance of 〖 τ ̂〗_(g,c) with the conventional estimator namely, Hansen and Hurwitz’s estimator〖 τ ̂〗_HH, and other existing alternative estimators namely, Amahia-Chaubey-Rao’s estimator (τ ̂_ACR), Grewal’s estimator (τ ̂_G), Rao’s estimator (τ ̂_R) and Ekaette’s estimator (τ ̂_E) under the PPS sampling design. Using the general super-population model with parameter g, the expected Mean Square Error (MSE) was derived for the estimators and their relative efficiencies were then computed. Empirical studies with samples drawn from four populations, namely; Population I,II,III and IV having correlation coefficients, ρ=0.16,0.39,-0.32 and-0.775 respectively were conducted. The derived transformation for generalized selection probabilities defining the class of linear estimators is p_(i,g)^*=(1-ρ^c)/N+ρ^c p_i; c=1,2,3,4 where p_i=x_i/X,X=∑_i^N▒x_i or p_i=z_i/Z,Z=∑_i^N▒z_i ,z_i=1/x_i for positive and negative correlations respectively. Provided that 〖CV〗_x<〖CV〗_y,γ_y 〖<γ〗_x,K_y