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In Causal Bayesian Optimization (CBO), an agent intervenes on a structural causal model with known graph but unknown mechanisms to maximize a downstream reward variable. In this paper, we consider the generalization where other agents or external events also intervene on the system, which is key for enabling adaptiveness to non-stationarities such as weather changes, market forces, or adversaries. We formalize this generalization of CBO as Adversarial Causal Bayesian Optimization (ACBO) and introduce the first algorithm for ACBO with bounded regret: Causal Bayesian Optimization with Multiplicative Weights (CBO-MW). Our approach combines a classical online learning strategy with causal modeling of the rewards. To achieve this, it computes optimistic counterfactual reward estimates by propagating uncertainty through the causal graph. We derive regret bounds for CBO-MW that naturally depend on graph-related quantities. We further propose a scalable implementation for the case of combinatorial interventions and submodular rewards. Empirically, CBO-MW outperforms non-causal and non-adversarial Bayesian optimization methods on synthetic environments and environments based on real-word data. Our experiments include a realistic demonstration of how CBO-MW can be used to learn users' demand patterns in a shared mobility system and reposition vehicles in strategic areas.
Adversarial Causal Bayesian Optimization S. Sussex, P. G. Sessa, A. Makarova, A. KrauseIn International Conference on Learning Representations (ICLR), 2024
Bibtex Entry:
	author = {Sussex, Scott and Sessa, Pier Giuseppe and Makarova, Anastasiia and Krause, Andreas},
	booktitle = {International Conference on Learning Representations (ICLR)},
	month = {May},
	title = {Adversarial Causal Bayesian Optimization},
	year = {2024}}