Unlike traditional embedded systems only have one criticality level, mixed-criticality (MC)
systems integrate different types of applications or functionalities into a common and shared …

EDF-VD first focuses on the classic mixed-criticality task model in which all low-criticality
(LO) tasks are abandoned in the high-criticality mode, which is an effective dynamic priority …

Previous work focuses on the problem of energy for Imprecise Mixed-Criticality Systems on
multiprocessor platforms, which provides degraded services for low criticality tasks in the …

Integrating tasks with different functions and criticality levels onto the same hardware
platform forms mixed-criticality systems (MCSs). Semi-clairvoyant scheduling, in which the …

We consider partitioned scheduling of an imprecise mixed-criticality (IMC) taskset on a
uniform multiprocessor platform, with the earliest deadline first-virtual deadline (EDF-VD) as …

Energy-aware mixed-criticality (MC) real-time scheduling has attracted the attention of many
researchers. However, they only focus on the conventional MC task model, in which all low …

Both resource access protocols and real-time scheduling algorithms have been extensively
studied in classic embedded real-time systems. However, there has been relatively little …

The management of energy in mixed-criticality systems (MCS) has been widely
accomplished through Dynamic Voltage and Frequency Scaling (DVFS) techniques …

The classic Mixed-Criticality System (MCS) task model is a non-clairvoyance model in which
the change of the system behavior is based on the completion of high-criticality tasks while …

Previous studies focus on the classical mixed-criticality task model with preemptive dynamic
priority scheduling in which all low-criticality (LO) tasks are dropped in the high-criticality …