The work focuses on pattern classification via analog systems that exploit tunable chaos in 3rd-order memristor-based Chua's circuits obtained by replacing the nonlinear resistor with an ideal flux-controlled memristor. Recently, complex dynamics and synchronization phenomena have been investigated via manifolds which are positively invariant for the nonlinear dynamics. Moreover, on each manifold the network obeys a different reduced-order dynamics in the flux-charge domain. These basic properties imply that two main types of bifurcations can occur, i.e., standard bifurcations on a fixed invariant manifold induced by changing the circuit parameters and bifurcations due to the variation of initial conditions and invariant manifold, but for f...
Goal of the paper is to investigate the analogue computational capabilities of dynamic networks with...
The paper studies bifurcations and complex dynamics in a class of nonautonomous oscillatory circuits...
A novel approach to the physical memristor’s behavior of the KNOWM is presented in this work. The KN...
The key intent of the work is to analyze complex dynamics and synchronization phenomena in a 1-D arr...
The paper considers a relevant class of networks containing memristors and (possibly) nonlinear capa...
Recent articles introduced a new method, named flux-charge analysis method (FCAM), for studying nonl...
Abstract The article shows that transient chaos phenomena can be observed in a generalized memristor...
A well-known feature of memristors is that they makes the circuit dynamics much richer than that gen...
International audienceMultistability phenomena and complex nonlinear dynamics in memristor oscillato...
Nonlinear dynamic memory elements, as memristors, memcapacitors, and meminductors (also known as mem...
The paper studies nonlinear dynamics and bifurcations of a class of memristor oscillatory circuits o...
This paper considers a large class of memristor circuits of arbitrary order, and containing an arbit...
One of the most interesting aspects of complexity is that it occurs at different levels. It may occu...
In this paper, we build a simple chaotic circuit by introducing a new magnetic flux-controlled memri...
Goal of the paper is to investigate the analogue computational capabilities of dynamic networks with...
The paper studies bifurcations and complex dynamics in a class of nonautonomous oscillatory circuits...
A novel approach to the physical memristor’s behavior of the KNOWM is presented in this work. The KN...
The key intent of the work is to analyze complex dynamics and synchronization phenomena in a 1-D arr...
The paper considers a relevant class of networks containing memristors and (possibly) nonlinear capa...
Recent articles introduced a new method, named flux-charge analysis method (FCAM), for studying nonl...
Abstract The article shows that transient chaos phenomena can be observed in a generalized memristor...
A well-known feature of memristors is that they makes the circuit dynamics much richer than that gen...
International audienceMultistability phenomena and complex nonlinear dynamics in memristor oscillato...
Nonlinear dynamic memory elements, as memristors, memcapacitors, and meminductors (also known as mem...
The paper studies nonlinear dynamics and bifurcations of a class of memristor oscillatory circuits o...
This paper considers a large class of memristor circuits of arbitrary order, and containing an arbit...
One of the most interesting aspects of complexity is that it occurs at different levels. It may occu...
In this paper, we build a simple chaotic circuit by introducing a new magnetic flux-controlled memri...
Goal of the paper is to investigate the analogue computational capabilities of dynamic networks with...
The paper studies bifurcations and complex dynamics in a class of nonautonomous oscillatory circuits...
A novel approach to the physical memristor’s behavior of the KNOWM is presented in this work. The KN...