Active Perception With Initial-State Uncertainty: A Policy Gradient Method

Chongyang Shi; Shuo Han; Michael R. Dorothy; Jie Fu

Active Perception With Initial-State Uncertainty: A Policy Gradient Method

Chongyang Shi, Shuo Han, Michael R. Dorothy, Jie Fu

Published: 01 Jan 2024, Last Modified: 16 May 2025IEEE Control. Syst. Lett. 2024EveryoneRevisionsBibTeXCC BY-SA 4.0

Abstract: This letter studies the synthesis of an active perception policy that maximizes the information leakage of the initial state in a stochastic system modeled as a hidden Markov model (HMM). Specifically, the emission function of the HMM is controllable with a set of perception or sensor query actions. Given the goal is to infer the initial state from partial observations in the HMM, we use Shannon conditional entropy as the planning objective and develop a novel policy gradient method with convergence guarantees. By leveraging a variant of observable operators in HMMs, we prove several important properties of the gradient of the conditional entropy with respect to the policy parameters, which allow efficient computation of the policy gradient and stable and fast convergence. We demonstrate the effectiveness of our solution by applying it to an inference problem in a stochastic grid world environment.

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