The significant advancements within the electronics miniaturization field have shifted the
scientific interest towards a new class of precision devices, namely microelectromechanical …

With the development of artificial intelligence and the broad application of sensors, human
activity recognition (HAR) technologies based on noninvasive environmental sensors have …

With the deep research of the fractional-order (FO) calculus theory, it has been found that the
FO model can more realistically depict electromechanical devices with viscoelastic …

Microelectromechanical systems (MEMS) are a technology that allows engineers to create
small, integrated devices with electrical and mechanical components to perform tasks …

Abstract A Lypunov‐based Adaptive Backstep** Control (ABSC) approach is designed for
a power Buck converter. This strategy is an advanced version of the Backstep** method …

This paper investigates an adaptive backstep** funnel control scheme with an event-
triggered mechanism for a chaotic dual-mass Micro-Electro-Mechanical Systems (MEMS) …

Croup and pertussis are major illnesses that result in human fatality, especially in pediatric
patients. Timely and accurate diagnosis of these diseases is crucial to reducing mortality …

This article mainly investigates the model design, field programmable gate array (FPGA)
implementation, and prescribed-time fault-tolerant control of a fractional-order (FO) …

Managing cardiac disease and abnormal heart rate variability is a challenging problem with
its psychological impact on lifesaving intervention. The research presents a novel machine …

This paper explores the dynamic behaviors and control method of weakly coupled micro-
electro-mechanical system (MEMS) resonators with fractional-order (FO) dynamics. In the …