In a variety of applications, an agents success depends on the knowledge that an adversarial observer has or can gather about the agents decisions. It is therefore desirable for the agent to achieve a task while reducing the ability of an observer to infer the agents policy. We consider the task of the agent as a reachability problem in a Markov decision process and study the synthesis of policies that minimize the observers ability to infer the transition probabilities of the agent between the states of the Markov decision process. We introduce a metric that is based on the Fisher information as a proxy for the information leaked to the observer and using this metric formulate a problem that minimizes expected total information subject to the reachability constraint. We proceed to solve the problem using convex optimization methods. To verify the proposed method, we analyze the relationship between the expected total information and the estimation error of the observer, and show that, for a particular class of Markov decision processes, these two values are inversely proportional.
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