The authors present a charge/flux formulation of the equations of memristive circuits, which seemingly show that the memristor should not be considered as a dynamic circuit element. Here, is shown that this approach implicitly reduces the dynamic analysis to a certain subset of the state space in such a way that the dynamic contribution of memristors is hidden. This reduction might entail a substantial loss of information, regarding e.g. the local stability properties of the circuit. Two examples illustrate this. It is concluded that the memristor, even with its unconventional features, must be considered as a dynamic element
Leon O. Chua introduced the memristor as the fourth circuit element to complete the set of fundament...
Memristor-based circuits are widely exploited to realize analog and/or digital systems for a broad s...
Memristors are an electronic device whose resistance depends on the voltage history that has been ap...
The authors present a charge/flux formulation of the equations of memristive circuits, which seeming...
We provide an introduction to a very specific toy model of memristive networks, for which an exact d...
The paper proposes a novel input–output approach to characterize the dynamical properties of a class...
Memristors are the predicted fourth fundamental passive element of circuits, connecting a previously...
The recent design of a nanoscale device with a memristive characteristic has had a great impact in n...
In 2008, researchers at the Hewlett–Packard (HP) laboratories published a paper in Nature reporting ...
Ideal memristor is a resistor with a memory, which adds dynamics to its behavior. The most usual cha...
When studying circuit theory, we learn that there are threefundamental circuit elements: the resisto...
We present both an overview and a perspective of recent experimental advances and proposed new appro...
A generalized approach for the implementation of memristive two-terminal circuits with piesewise-smo...
The present manuscript relies on the companion paper entitled ''Memristor Circuits: Flux-Charge Anal...
In this paper, we revisit the memristor concept within circuit theory. We start from the definition ...
Leon O. Chua introduced the memristor as the fourth circuit element to complete the set of fundament...
Memristor-based circuits are widely exploited to realize analog and/or digital systems for a broad s...
Memristors are an electronic device whose resistance depends on the voltage history that has been ap...
The authors present a charge/flux formulation of the equations of memristive circuits, which seeming...
We provide an introduction to a very specific toy model of memristive networks, for which an exact d...
The paper proposes a novel input–output approach to characterize the dynamical properties of a class...
Memristors are the predicted fourth fundamental passive element of circuits, connecting a previously...
The recent design of a nanoscale device with a memristive characteristic has had a great impact in n...
In 2008, researchers at the Hewlett–Packard (HP) laboratories published a paper in Nature reporting ...
Ideal memristor is a resistor with a memory, which adds dynamics to its behavior. The most usual cha...
When studying circuit theory, we learn that there are threefundamental circuit elements: the resisto...
We present both an overview and a perspective of recent experimental advances and proposed new appro...
A generalized approach for the implementation of memristive two-terminal circuits with piesewise-smo...
The present manuscript relies on the companion paper entitled ''Memristor Circuits: Flux-Charge Anal...
In this paper, we revisit the memristor concept within circuit theory. We start from the definition ...
Leon O. Chua introduced the memristor as the fourth circuit element to complete the set of fundament...
Memristor-based circuits are widely exploited to realize analog and/or digital systems for a broad s...
Memristors are an electronic device whose resistance depends on the voltage history that has been ap...