Minimizing the Age of Incorrect Information for Real-time Tracking of Markov Remote Sources
Résumé
The age of Incorrect Information (AoII) has been introduced to address the shortcomings of the standard Age of information metric (AoI) in real-time monitoring applications. In this paper, we consider the problem of monitoring the states of remote sources that evolve according to a Markovian Process. A central scheduler selects at each time slot which sources should send their updates in such a way to minimize the Mean Age of Incorrect Information (MAoII). The difficulty of the problem lies in the fact that the scheduler cannot know if the information at side of the monitor is correct or not before receiving the updates and it has then to estimate it. We show that the problem can be modeled as a partially Observable Markov Decision Process Problem framework. We develop a new scheduling scheme based on Whittles index policy. The scheduling decision is made by updating a belief value of the states of the sources, which is to the best of our knowledge has not been considered before in the Age of Information area. To that extent, we proceed by using the Lagrangian Relaxation Approach, and prove that the dual problem has an optimal threshold policy. Building on that, we show that the problem is indexable and compute the expressions of the Whittles indices. Finally, we provide some numerical results to highlight the performance of our derived policy compared to the classical AoI metric.
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