Abstract
In this paper, a hyperchaotic memristor oscillator system is introduced. A new type of synchronization design is proposed to achieve combination synchronization among three different memristor oscillator systems. This all-new control technique can be applied to the general nonlinear systems. The theoretical analysis is verified with numerical simulations showing excellent agreement.
Highlights
In recent years, lots of memristor oscillator systems have been used with the purpose of generating signals which are found in radio, satellite communications, switching power supply, etc. [ – ]
This paper will make a contribution in the context of hyperchaotic memristor oscillator system
A natural and interesting question is whether we can design some novel synchronization schemes between multi-drive systems and one response system, or between multi-drive systems and multi-response systems? And no matter what the theories say, or what the actual engineering aspects are, these questions are definitely worth exploring. For this reason, based on the combination synchronization in [, ], our other objective in this paper is to study the hyperchaos synchronization between two drive memristor oscillator systems and one response memristor oscillator system
Summary
Lots of memristor oscillator systems have been used with the purpose of generating signals which are found in radio, satellite communications, switching power supply, etc. [ – ]. A fourth-order hyperchaotic memristor oscillator system is systematically illustrated. For this reason, based on the combination synchronization in [ , ], our other objective in this paper is to study the hyperchaos synchronization between two drive memristor oscillator systems and one response memristor oscillator system.
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