Add to ORKGIn this paper we use symmetry methods to study networks of coupled cells, which are models for central pattern generators (CPGs). In these models the cells obey identical systems of differential equations and the network specifies how cells are coupled. Previously, Collins and Stewart showed that the phase relations of many of the standard gaits of quadrupeds and hexapods can be obtained naturally via Hopf bifurcation in small networks. For example, the networks they used to study quadrupeds all had four cells, with the understanding that each cell determined the phase of the motion of one leg. However, in their work it seemed necessary to employ several different four-oscillator networks to obtain all of the standard quadrupedal gaits. W...
Detailed neural network models of animal locomotion are important means to understand the underlying...
Proceedings of the 10th Conference on Dynamical Systems Theory and ApplicationsThere has been an inc...
Animal locomotion is a complex process, involving the central pattern generators (neural networks, l...
In this paper we use symmetry methods to study networks of coupled cells, which are models for centr...
Animal locomotion is controlled, in part, by a central pattern generator (CPG), which is an intraspi...
Animal locomotion typically employs several distinct periodic patterns of leg movements, known as ga...
Abstract. The general, model-independent features of different networks of six symmetrically coupled...
The generation and control of animal locomotion is believed to involve central pattern generators - ...
As an engine of almost all life phenomena, the motor information generated by the central nervous sy...
The timing patterns of animal gaits are produced by a network of spinal neurons called a Central Pat...
As the engine behind many life phenomena, motor information generated by the central nervous system ...
Locomotion has been a major research issue in the last few years. Many models for the locomotion rhy...
This paper is concerned with a method for design and analysis of specific neuronal networks, called ...
Central pattern generators (CPGs) are relatively small neural networks that play a fundamental role ...
Detailed neural network models of animal locomotion are important means to understand the underlying...
Detailed neural network models of animal locomotion are important means to understand the underlying...
Proceedings of the 10th Conference on Dynamical Systems Theory and ApplicationsThere has been an inc...
Animal locomotion is a complex process, involving the central pattern generators (neural networks, l...
In this paper we use symmetry methods to study networks of coupled cells, which are models for centr...
Animal locomotion is controlled, in part, by a central pattern generator (CPG), which is an intraspi...
Animal locomotion typically employs several distinct periodic patterns of leg movements, known as ga...
Abstract. The general, model-independent features of different networks of six symmetrically coupled...
The generation and control of animal locomotion is believed to involve central pattern generators - ...
As an engine of almost all life phenomena, the motor information generated by the central nervous sy...
The timing patterns of animal gaits are produced by a network of spinal neurons called a Central Pat...
As the engine behind many life phenomena, motor information generated by the central nervous system ...
Locomotion has been a major research issue in the last few years. Many models for the locomotion rhy...
This paper is concerned with a method for design and analysis of specific neuronal networks, called ...
Central pattern generators (CPGs) are relatively small neural networks that play a fundamental role ...
Detailed neural network models of animal locomotion are important means to understand the underlying...
Detailed neural network models of animal locomotion are important means to understand the underlying...
Proceedings of the 10th Conference on Dynamical Systems Theory and ApplicationsThere has been an inc...
Animal locomotion is a complex process, involving the central pattern generators (neural networks, l...