The time average expected age of information (AoI) is studied for status updates sent from an energy-harvesting transmitter with a finite-capacity battery. The optimal scheduling policy is first studied under different feedback mechanisms when the channel and energy harvesting statistics are known. For the case of unknown environments, an average-cost reinforcement learning algorithm is proposed that learns the system parameters and the status update policy in real time. The effectiveness of the proposed methods is verified through numerical results
Scheduling the transmission of status updates over an error-prone communication channel is studied i...
International audienceEnergy management in low power IoT is a difficult problem. Modeling the consum...
Scheduling the transmission of status updates over an error-prone communication channel is studied i...
The time average expected age of information (AoI) is studied for status updates sent from an energy...
Abstract We consider an IoT sensing network with multiple users, multiple energy harvesting sensors...
Age of Information is a measure of the freshness of status updates in monitoring applications and up...
Information freshness is crucial for time-critical IoT applications, e.g., monitoring and control. W...
In this paper, we study a real-time monitoring system in which multiple source nodes are responsible...
Abstract Information freshness is crucial for time-critical IoT applications, e.g., monitoring and ...
We consider an energy harvesting source equipped with a finite battery, which needs to send timely s...
Scheduling the transmission of status updates over an error-prone communication channel is studied i...
We consider managing the freshness of status updates sent from a source (such as a sensor) to a moni...
Abstract Age of Information (AoI) measures the freshness of the information at a remote location. A...
13 pagesInterest in remote monitoring has grown thanks to recent advancements in Internet-of-Things ...
In this paper, we consider a power allocation optimization technique for a time-varying fading broad...
Scheduling the transmission of status updates over an error-prone communication channel is studied i...
International audienceEnergy management in low power IoT is a difficult problem. Modeling the consum...
Scheduling the transmission of status updates over an error-prone communication channel is studied i...
The time average expected age of information (AoI) is studied for status updates sent from an energy...
Abstract We consider an IoT sensing network with multiple users, multiple energy harvesting sensors...
Age of Information is a measure of the freshness of status updates in monitoring applications and up...
Information freshness is crucial for time-critical IoT applications, e.g., monitoring and control. W...
In this paper, we study a real-time monitoring system in which multiple source nodes are responsible...
Abstract Information freshness is crucial for time-critical IoT applications, e.g., monitoring and ...
We consider an energy harvesting source equipped with a finite battery, which needs to send timely s...
Scheduling the transmission of status updates over an error-prone communication channel is studied i...
We consider managing the freshness of status updates sent from a source (such as a sensor) to a moni...
Abstract Age of Information (AoI) measures the freshness of the information at a remote location. A...
13 pagesInterest in remote monitoring has grown thanks to recent advancements in Internet-of-Things ...
In this paper, we consider a power allocation optimization technique for a time-varying fading broad...
Scheduling the transmission of status updates over an error-prone communication channel is studied i...
International audienceEnergy management in low power IoT is a difficult problem. Modeling the consum...
Scheduling the transmission of status updates over an error-prone communication channel is studied i...