In this article, an approximation-based adaptive fractional sliding-mode control (SMC)
scheme is proposed for a microgyroscope, where a double-loop recurrent fuzzy neural …

Disturbances are inevitably found in almost every system and, if not rejected, they could
jeopardize the effectiveness of control methods. Thereby, employing state-of-the-art …

Modeling and analysis of financial systems have been interesting topics among researchers.
The more precisely we know dynamic of systems, the better we can deal with them. This …

In the present paper, for the first time, we propose a variable-order hyperchaotic system for
information security. Firstly, we study the dynamical behaviors of a memristor oscillator …

Recently, intelligent control techniques have received considerable attention. In most
studies, the systems' model is assumed to be without any delay, and the effects of faults and …

Supply chains face various uncertainties due to the dynamic and unstable nature of today's
worldwide market. Introducing these uncertainties to both the upstream and downstream …

This paper designs and implements a chattering-free terminal sliding mode control
approach for a class of chaotic systems with unknown uncertainties. It considers sliding …

Economic systems, due to their substantial effects on any society, are interesting research
subject for a large family of researchers. Despite all attempts to study economic and financial …

Control of transport of energy by means of external force effects is one of the most important
problems in modern applied mathematics. Magnetic force has an influence on heat transport …

We develop a new robust control scheme for a non-holonomic spherical robot. To this end,
the mathematical model of a pendulum driven non-holonomic spherical robot is first …