Add to ORKGThe memory elements, memristor being the best known of them, driven by a periodical waveform exhibit the well-known pinched hysteresis loops. The hysteresis is caused by a memory effect which results in a nonzero area closed within the loop. This paper presents an analytical formula for the loop area. This formula is then applied to memory elements whose parameter-vs.-state maps are modeled in the polynomial form. The TiO2 memristor, a special subset of the above elements, is analyzed as a demonstration example
This article investigates the frequency-related fingerprints of the meminductor/capacitors and their...
Titanium dioxide sol-gel memristors have two different modes of operation, believed to be dependent ...
This paper classifies all memristors into three classes called Ideal, Generic, or Extended memristor...
The classical fingerprint of the ideal memristor with differentiable constitutive relation has recen...
The hysteresis loops pinched in the v-i origin belong to well-known fingerprints of memristive eleme...
In this study, a graphical modelling approach of the pinched hysteresis loops exhibited by memristor...
A fractional-order current-controlled memristor pinched hysteresis loop area is calculated in this s...
Large attention has recently been given to a novel technology named memristor, for having the potent...
Large attention has recently been given to a novel technology named memristor, for having the potent...
The width of the electrodes is not included in the current phenomenological models of memristance, b...
Memristors have pinched hysteresis loops in the V-I plane. Ideal memristors are everywhere non-linea...
The paper refers to problems of modeling and computer simulation of generic memristors caused by the...
The memristor and selector devices are the most promising candidates in the research of emerging mem...
When studying circuit theory, we learn that there are threefundamental circuit elements: the resisto...
poster abstractThe memristor, postulated in the 1970’s, was recently realized in a tita-nium dioxide...
This article investigates the frequency-related fingerprints of the meminductor/capacitors and their...
Titanium dioxide sol-gel memristors have two different modes of operation, believed to be dependent ...
This paper classifies all memristors into three classes called Ideal, Generic, or Extended memristor...
The classical fingerprint of the ideal memristor with differentiable constitutive relation has recen...
The hysteresis loops pinched in the v-i origin belong to well-known fingerprints of memristive eleme...
In this study, a graphical modelling approach of the pinched hysteresis loops exhibited by memristor...
A fractional-order current-controlled memristor pinched hysteresis loop area is calculated in this s...
Large attention has recently been given to a novel technology named memristor, for having the potent...
Large attention has recently been given to a novel technology named memristor, for having the potent...
The width of the electrodes is not included in the current phenomenological models of memristance, b...
Memristors have pinched hysteresis loops in the V-I plane. Ideal memristors are everywhere non-linea...
The paper refers to problems of modeling and computer simulation of generic memristors caused by the...
The memristor and selector devices are the most promising candidates in the research of emerging mem...
When studying circuit theory, we learn that there are threefundamental circuit elements: the resisto...
poster abstractThe memristor, postulated in the 1970’s, was recently realized in a tita-nium dioxide...
This article investigates the frequency-related fingerprints of the meminductor/capacitors and their...
Titanium dioxide sol-gel memristors have two different modes of operation, believed to be dependent ...
This paper classifies all memristors into three classes called Ideal, Generic, or Extended memristor...