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A Deep Reinforcement Learning Approach for Improving Age of Information in Mission-Critical IoT

Hossam Farag, Mikael Gidlund, Čedomir Stefanović

202112 citationsDOI

Abstract

The emerging mission-critical Internet of Things (IoT) play a vital role in remote healthcare, haptic interaction, and industrial automation, where timely delivery of status updates is crucial. The Age of Information (AoI) is an effective metric to capture and evaluate information freshness at the destination. A system design based solely on the optimization of the average AoI might not be adequate to capture the requirements of mission-critical applications, since averaging eliminates the effects of extreme events. In this paper, we introduce a Deep Reinforcement Learning (DRL)-based algorithm to improve AoI in mission-critical IoT applications. The objective is to minimize an AoI-based metric consisting of the weighted sum of the average AoI and the probability of exceeding an AoI threshold. We utilize the actor-critic method to train the algorithm to achieve optimized scheduling policy to solve the formulated problem. The performance of our proposed method is evaluated in a simulated setup and the results show a significant improvement in terms of the average AoI and the AoI violation probability compared to the related-work.

Topics & Concepts

Reinforcement learningComputer scienceScheduling (production processes)Metric (unit)Internet of ThingsAutomationInformation AgeJob shop schedulingPerformance metricHaptic technologyReal-time computingArtificial intelligenceMathematical optimizationEmbedded systemEngineeringEconomicsMechanical engineeringRouting (electronic design automation)MathematicsManagementEconomyOperations managementAge of Information OptimizationIoT Networks and ProtocolsIoT and Edge/Fog Computing