Current peripheral execution approaches for intermittently powered systems require full access to the internal hardware state for checkpointing or rely on application-level energy …
J Choi, H Joe, Y Kim, C Jung - 2019 IEEE Real-Time and …, 2019 - ieeexplore.ieee.org
This paper presents ELASTIN, a stagnation-free intermittent computing system for energy- harvesting devices that ensures forward progress in the presence of frequent power outages …
For decades, the design of untethered devices has been focused on delivering a fixed quality of service with minimum power consumption, to enable battery-powered devices with …
Networked robotics are a typical cyber–physical system (CPS). This paper presents the cyber physical interaction model to perform formation control and tracking in the presence of …
WM Chen, PC Hsiu, TW Kuo - Proceedings of the 56th Annual Design …, 2019 - dl.acm.org
Self-powered intermittent systems enable accumulative execution in unstable power environments, where checkpointing is often adopted as a means to achieve data …
Wearable devices gain increasing popularity since they can collect important information for healthcare and well-being purposes. Compared with battery, energy harvesting is a better …
WM Chen, TW Kuo, PC Hsiu - IEEE Transactions on Computer …, 2020 - ieeexplore.ieee.org
Self-powered intermittent systems typically adopt runtime checkpointing as a means to accumulate computation progress across power cycles and recover system status from …
Concurrency control allows multiple tasks that share data objects to be concurrently executed in a serializable order, thus significantly improving computation progress …
Intermittent systems enable batteryless devices to operate through energy harvesting by leveraging the complementary characteristics of volatile (VM) and non-volatile memory …