Efficient Learning-based Scheduling for Information Freshness in Wireless Networks
Abstract
Motivated by the recent trend of integrating artificial intelligence into the Internet-of-Things (IoT), we consider the problem of scheduling packets from multiple sensing sources to a central controller over a wireless network. Here, packets from different sensing sources have different values or degrees of importance to the central controller for intelligent decision making. In such a setup, it is critical to provide timely and valuable information for the central controller. In this paper, we develop a parameterized maximum-weight type scheduling policy that combines both the AoI metrics and Upper Confidence Bound (UCB) estimates in its weight measure with parameter . Here, UCB estimates balance the tradeoff between exploration and exploitation in learning and are critical for yielding a small cumulative regret. We show that our proposed algorithm yields the running average total age at most by . We also prove that our proposed algorithm achieves the cumulative regret over time horizon at most by . This reveals a tradeoff between the cumulative regret and the running average total age: when increasing , the cumulative regret becomes smaller, but is at the cost of increasing running average total age. Simulation results are provided to evaluate the efficiency of our proposed algorithm.
Cite
@article{arxiv.2101.00257,
title = {Efficient Learning-based Scheduling for Information Freshness in Wireless Networks},
author = {Bin Li},
journal= {arXiv preprint arXiv:2101.00257},
year = {2021}
}
Comments
This paper has been accepted by IEEE INFOCOM 2021