As the engine behind many life phenomena, motor information generated by the central nervous system (CNS) plays a critical role in the activities of all animals. In this work, a novel, macroscopic and model-independent approach is presented for creating different patterns of coupled neural oscillations observed in biological central pattern generators (CPG) during the control of legged locomotion. Based on a simple distributed state machine, which consists of two nodes sharing pre-defined number of resources, the concept of oscillatory building blocks (OBBs) is summarised for the production of elaborated rhythmic patterns. Various types of OBBs can be designed to construct a motion joint of one degree-of-freedom (DOF) with adjustable oscill...
This paper is concerned with a method for design and analysis of specific neuronal networks, called ...
International audienceResearch in robot locomotion can be separated into few groups. The dominated r...
Hoinville T, Schilling M, Cruse H. Control of rhythmic behavior: Central and Peripheral Influences t...
As an engine of almost all life phenomena, the motor information generated by the central nervous sy...
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...
This paper presents a novel approach to the emulation of locomotor central pattern generators (CPGs)...
The central pattern generators network (CPGs) plays an important role in motion control which enable...
This work presents the mimicking of the main rhythmic gait patterns of a quadrupedal animal as an il...
The problem of controlling locomotion is an area in which neuroscience and robotics can fruitfully i...
In this work, a generalized central pattern generator (CPG) model is formulated to generate a full r...
In this work, a generalised central pattern generator (CPG) model is formulated to generate a full r...
Legged robots have gained an increased attention these past decades since they offer a promising tec...
Central pattern generators (CPGs) are relatively small neural networks that play a fundamental role ...
In vertebrates, the central nervous system processes sensorial input from surroundings and in most o...
This paper is concerned with a method for design and analysis of specific neuronal networks, called ...
International audienceResearch in robot locomotion can be separated into few groups. The dominated r...
Hoinville T, Schilling M, Cruse H. Control of rhythmic behavior: Central and Peripheral Influences t...
As an engine of almost all life phenomena, the motor information generated by the central nervous sy...
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...
This paper presents a novel approach to the emulation of locomotor central pattern generators (CPGs)...
The central pattern generators network (CPGs) plays an important role in motion control which enable...
This work presents the mimicking of the main rhythmic gait patterns of a quadrupedal animal as an il...
The problem of controlling locomotion is an area in which neuroscience and robotics can fruitfully i...
In this work, a generalized central pattern generator (CPG) model is formulated to generate a full r...
In this work, a generalised central pattern generator (CPG) model is formulated to generate a full r...
Legged robots have gained an increased attention these past decades since they offer a promising tec...
Central pattern generators (CPGs) are relatively small neural networks that play a fundamental role ...
In vertebrates, the central nervous system processes sensorial input from surroundings and in most o...
This paper is concerned with a method for design and analysis of specific neuronal networks, called ...
International audienceResearch in robot locomotion can be separated into few groups. The dominated r...
Hoinville T, Schilling M, Cruse H. Control of rhythmic behavior: Central and Peripheral Influences t...