Add to ORKGThis paper presents a novel approach to the emulation of locomotor central pattern generators (CPGs) of legged animals. Based on Scheduling by Multiple Edge Reversal (SMER), a simple but powerful distributed algorithm, it is shown how oscillatory building blocks (OBBs) can be created and how OBB-based networks can be implemented as asymmetric Hopfield-like neural networks for the generation of complicatedly coordinated rhythmic patterns observed among pairs of biological motor neurons working during different gait patterns. It is also presented how a generalized CPG model mapped into such Hopfield-like networks possess some charming properties on the retrieval of a whole range of different preprogrammed gait patterns
Central pattern generators (CPGs) are relatively small neural networks that play a fundamental role ...
In this work, a generalised central pattern generator (CPG) model is formulated to generate a full r...
Legged robots can potentially venture beyond the limits of wheeled vehicles. While creating controll...
This paper presents a novel approach to the emulation of locomotor central pattern generators (CPGs)...
Neural oscillation is one of the most extensively investigated topics of artificial neural networks....
Neural oscillation is one of the most extensively investigated topics of artificial neural networks....
As an engine of almost all life phenomena, the motor information generated by the central nervous sy...
As an engine of almost all life phenomena, the motor information generated by the central nervous sy...
This work presents the mimicking of the main rhythmic gait patterns of a quadrupedal animal as an il...
This work presents the mimicking of the main rhythmic gait patterns of a quadrupedal animal as an il...
As the engine behind many life phenomena, motor information generated by the central nervous system ...
As an engine of almost all life phenomena, the motor information generated by the central nervous sy...
As an engine of almost all life phenomena, the motor information generated by the central nervous sy...
The central pattern generators network (CPGs) plays an important role in motion control which enable...
In this work, a generalized central pattern generator (CPG) model is formulated to generate a full r...
Central pattern generators (CPGs) are relatively small neural networks that play a fundamental role ...
In this work, a generalised central pattern generator (CPG) model is formulated to generate a full r...
Legged robots can potentially venture beyond the limits of wheeled vehicles. While creating controll...
This paper presents a novel approach to the emulation of locomotor central pattern generators (CPGs)...
Neural oscillation is one of the most extensively investigated topics of artificial neural networks....
Neural oscillation is one of the most extensively investigated topics of artificial neural networks....
As an engine of almost all life phenomena, the motor information generated by the central nervous sy...
As an engine of almost all life phenomena, the motor information generated by the central nervous sy...
This work presents the mimicking of the main rhythmic gait patterns of a quadrupedal animal as an il...
This work presents the mimicking of the main rhythmic gait patterns of a quadrupedal animal as an il...
As the engine behind many life phenomena, motor information generated by the central nervous system ...
As an engine of almost all life phenomena, the motor information generated by the central nervous sy...
As an engine of almost all life phenomena, the motor information generated by the central nervous sy...
The central pattern generators network (CPGs) plays an important role in motion control which enable...
In this work, a generalized central pattern generator (CPG) model is formulated to generate a full r...
Central pattern generators (CPGs) are relatively small neural networks that play a fundamental role ...
In this work, a generalised central pattern generator (CPG) model is formulated to generate a full r...
Legged robots can potentially venture beyond the limits of wheeled vehicles. While creating controll...