Abstract Nowadays, processing of data via neuromorphic non‐linear dynamics is a key element for brain‐inspired computers. In particular, an appropriate neuromorphic device is essential to emulate neuromorphic functions. In this brief, it is found that the Chua Corsage memristor has rich neuromorphic behaviours, which has potential values to realise the hardware construction for neuromorphic computing. The theory of local activity and edge of chaos are applied to analyse the neuromorphic dynamics of the second‐order Chua Corsage memristor based neuron model, and find that the periodic spikes (action potentials) appear either on or near the edge of chaos domain, which are excited by the subcritical Hopf bifurcation or the unstable state of th...
This study firstly presents (i) a novel general cellular mapping scheme for two dimensional neuromor...
The work focuses on pattern classification via analog systems that exploit tunable chaos in 3rd-orde...
Novel devices are being investigated as artificial synapse candidates for neuromorphic computing. Th...
Information processing in the brain takes place in a dense network of neurons connected through syna...
The distinctive switching spikes seen in single memristors are suppressed in networks of memristors....
Complexity is the undeniable part of the natural systems providing them with unique and wonderful ca...
Chaotic neural networks are able to reproduce chaotic dynamics observable in the brain of various li...
This paper proposes a modified Chua Corsage Memristor endowed with two symmetrical locally active do...
Memristors have been compared to neurons (usually specifically the synapses) since 1976 but no exper...
Inspired by rapid experimental development of diffusive memristors, we propose a computational model...
Second order memristors have shown to be able to mimic some specific features of neuron synapses, sp...
This study presents a cellular-based mapping for a special class of dynamical systems for embed-ding...
This study presents a cellular-based mapping for a special class of dynamical systems for embedding ...
The advancements in the field of Artificial Intelligence (AI) and technology has led to an evolution...
This paper deals with the problem of modelling the classical dynamics of cortical neurons by using m...
This study firstly presents (i) a novel general cellular mapping scheme for two dimensional neuromor...
The work focuses on pattern classification via analog systems that exploit tunable chaos in 3rd-orde...
Novel devices are being investigated as artificial synapse candidates for neuromorphic computing. Th...
Information processing in the brain takes place in a dense network of neurons connected through syna...
The distinctive switching spikes seen in single memristors are suppressed in networks of memristors....
Complexity is the undeniable part of the natural systems providing them with unique and wonderful ca...
Chaotic neural networks are able to reproduce chaotic dynamics observable in the brain of various li...
This paper proposes a modified Chua Corsage Memristor endowed with two symmetrical locally active do...
Memristors have been compared to neurons (usually specifically the synapses) since 1976 but no exper...
Inspired by rapid experimental development of diffusive memristors, we propose a computational model...
Second order memristors have shown to be able to mimic some specific features of neuron synapses, sp...
This study presents a cellular-based mapping for a special class of dynamical systems for embed-ding...
This study presents a cellular-based mapping for a special class of dynamical systems for embedding ...
The advancements in the field of Artificial Intelligence (AI) and technology has led to an evolution...
This paper deals with the problem of modelling the classical dynamics of cortical neurons by using m...
This study firstly presents (i) a novel general cellular mapping scheme for two dimensional neuromor...
The work focuses on pattern classification via analog systems that exploit tunable chaos in 3rd-orde...
Novel devices are being investigated as artificial synapse candidates for neuromorphic computing. Th...