The behavior and skills of living systems depend on the distributed control provided by specialized and highly recurrent neural networks. Learning and memory in these systems is mediated by a set of adaptation mechanisms, known collectively as neuronal plasticity. Translating principles of recurrent neural control and plasticity to artificial agents has seen major strides, but is usually hampered by the complex interactions between the agent's body and its environment. One of the important standing issues is for the agent to support multiple stable states of behavior, so that its behavioral repertoire matches the requirements imposed by these interactions. The agent also must have the capacity to switch between these states in time scales t...
International audienceThis paper introduces our ongoing work consisting of evolving bio-inspired pla...
The mechanisms underlying the dynamics of movement-related neural activity are not known. In this is...
Fundamental aspects of biologically-inspired regulatory mechanisms are considered in a robotics cont...
Robustness and adaptivity are important behavioural properties observed in biological systems, which...
A local learning rule for recurrent neural networks is derived by introducing neurons as self-regula...
International audienceThis paper presents a behavioral ontogeny for artificial agents based on the i...
The degree by which a species can adapt to the demands of its changing environment defines how well ...
Self-organized adaptation of a simple neural circuit enables complex robot behaviour Silke Steingrub...
The proposed architecture applies the principle of predictive coding and deep learning in a brain-in...
Designing controllers for autonomous robots is not an exact science, and there are few guiding princ...
This case study demonstrates how the synthesis and the analysis of minimal recurrent neural robot co...
This selective review explores biologically inspired learning as a model for intelligent robot contr...
During the last two decades, analysis of 1/ƒ noise in cognitive science has led to a consider- able ...
The ability to quantify temporal information on the scale of hundreds of milliseconds is critical to...
Among the more important applications of evolutionary neurocontrollers is the development of systems...
International audienceThis paper introduces our ongoing work consisting of evolving bio-inspired pla...
The mechanisms underlying the dynamics of movement-related neural activity are not known. In this is...
Fundamental aspects of biologically-inspired regulatory mechanisms are considered in a robotics cont...
Robustness and adaptivity are important behavioural properties observed in biological systems, which...
A local learning rule for recurrent neural networks is derived by introducing neurons as self-regula...
International audienceThis paper presents a behavioral ontogeny for artificial agents based on the i...
The degree by which a species can adapt to the demands of its changing environment defines how well ...
Self-organized adaptation of a simple neural circuit enables complex robot behaviour Silke Steingrub...
The proposed architecture applies the principle of predictive coding and deep learning in a brain-in...
Designing controllers for autonomous robots is not an exact science, and there are few guiding princ...
This case study demonstrates how the synthesis and the analysis of minimal recurrent neural robot co...
This selective review explores biologically inspired learning as a model for intelligent robot contr...
During the last two decades, analysis of 1/ƒ noise in cognitive science has led to a consider- able ...
The ability to quantify temporal information on the scale of hundreds of milliseconds is critical to...
Among the more important applications of evolutionary neurocontrollers is the development of systems...
International audienceThis paper introduces our ongoing work consisting of evolving bio-inspired pla...
The mechanisms underlying the dynamics of movement-related neural activity are not known. In this is...
Fundamental aspects of biologically-inspired regulatory mechanisms are considered in a robotics cont...