Centrala begrepp
The SFB algorithm is asymptotically optimal for finding equilibrium points in decision-dependent problems.
Sammanfattning
The article discusses stochastic approximation algorithms for decision-dependent distributions, focusing on performative prediction. It analyzes the convergence properties of the Stochastic Forward-Backward (SFB) method and establishes its asymptotic optimality. The key results include the existence and uniqueness of equilibrium points, convergence to these points almost surely, and the asymptotic normality of average iterates. Assumptions on Lipschitz continuity, strong monotonicity, variance bounds, interiority, and Lindeberg’s condition are crucial for proving these results. Theorems 1.1 and 1.2 provide theoretical foundations for practical applications of SFB in optimization problems.
Statistik
The deviation between the average iterate of the algorithm and the solution is asymptotically normal.
The covariance matrix for the Gaussian distribution is given by ∇R(x⋆)−1 · Σ · ∇R(x⋆)−⊤.
Equilibrium points exist under specific assumptions such as Lipschitz continuity and strong monotonicity.
Citat
"The goal of a learning system is to find a classifier that generalizes well under the response distribution."
"Equilibrium points have a clear intuitive meaning: a learning system that deploys an equilibrium point has no incentive to deviate based only on data drawn from that point."
"Asymptotic uncertainty of SFB is quantified with optimally narrow confidence regions among all methods."