Litcius/Paper detail

Real-Time Task Scheduling on Intermittently Powered Batteryless Devices

Mohsen Karimi, Hyunjong Choi, Yidi Wang, Yecheng Xiang, Hyoseung Kim

2021IEEE Internet of Things Journal25 citationsDOI

Abstract

Intermittently powered devices (IPDs) have gained much interest in recent years. However, scheduling real-time tasks while supporting data consistency, timekeeping, and schedulability guarantees on these devices still remains a challenge. Many sensing tasks need long indivisible sensor reading operations, but most prior work has limited their focus to the forward progress of computation-only tasks. In this article, we propose a scheduling framework to execute real-time periodic tasks with atomic sensing operations. Our proposed method keeps track of time progress and ensures the periodic execution of sensing tasks while efficiently utilizing intermittent power sources. We provide schedulability analysis to determine if a taskset is schedulable under a given charging condition. As a proof-of-concept, we design a custom programmable RFID tag device, called R'tag, and demonstrate the effectiveness of our framework in a realistic sensing application. Evaluation results show that the proposed method satisfies the real-time task execution requirements on IPDs in terms of task scheduling, timekeeping, and periodic sensing while significantly outperforming prior work.

Topics & Concepts

Computer scienceScheduling (production processes)Embedded systemComputationExecution timeReal-time computingTask (project management)Distributed computingAlgorithmEconomicsManagementOperations managementReal-Time Systems SchedulingGreen IT and SustainabilityEnergy Harvesting in Wireless Networks
Real-Time Task Scheduling on Intermittently Powered Batteryless Devices | Litcius