Sequential online subsampling for thinning experimental designs

04/02/2020
by   Luc Pronzato, et al.
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We consider a design problem where experimental conditions (design points X_i) are presented in the form of a sequence of i.i.d. random variables, generated with an unknown probability measure μ, and only a given proportion α∈(0,1) can be selected. The objective is to select good candidates X_i on the fly and maximize a concave function Φ of the corresponding information matrix. The optimal solution corresponds to the construction of an optimal bounded design measure ξ_α^*≤μ/α, with the difficulty that μ is unknown and ξ_α^* must be constructed online. The construction proposed relies on the definition of a threshold τ on the directional derivative of Φ at the current information matrix, the value of τ being fixed by a certain quantile of the distribution of this directional derivative. Combination with recursive quantile estimation yields a nonlinear two-time-scale stochastic approximation method. It can be applied to very long design sequences since only the current information matrix and estimated quantile need to be stored. Convergence to an optimum design is proved. Various illustrative examples are presented.

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