A Selection Premium Decomposition for the Expected Maximum of Random Walks

Abstract

When K models are evaluated on the same validation set of size n, the selected winner's apparent performance is biased upward. Suppose K models are evaluated on a shared sequence of i.i.d. observations X1,…, Xn, where model k achieves response fk(Xi) with mean μk = E[fk(X)]. Writing Yi,k = fk(Xi)-μk for the centered increment and Sn,k = Σi=1n Yi,k for the centered cumulative score, the expected maximum satisfies 0 E[k Sn,k] = Σi=1n E[K(Si-1)] where K(u) = E[k(uk + Yk)] - k uk, u∈ RK, is the selection premium function. This formula corresponds to the null hypothesis case (all models are equal in the sense that they have the same mean), which clarifies that the bias arises from selection. While this decomposition follows from elementary conditioning and telescoping, we develop the analytical consequences in five directions. (i) structural properties of K; (ii) extension to stopping times, recovering Wald's equation at K=1; (iii) a winner's curse decomposition for heterogeneous means; (iv) a universal bias concentration law showing that the first α-fraction of observations generates a α-fraction of total bias.