Theoretical discussions and computational models of bio-inspired embodied and situated agents are introduced in this article capturing in simplified form the dynamical essence of robust, yet adaptive behavior. This article analyzes the general problem of how the dynamical coupling between internal control (brain), body and environment is used in the generation of specific behaviors. Based on the Evolutionary Robotics (ER) paradigm, four computational models are described to support discussions including descriptions on performance after a series of structural, sensorimotor or mutational perturbations, or are developed in the absence of them. Experimental results suggest that ‘dynamic determinacy’ – i.e. the continuous presence of a unique d...
We use genetic algorithms to evolve behavioral properties of simulated autonomous vehicles. The trai...
This case study demonstrates how the synthesis and the analysis of minimal recurrent neural robot co...
The core principles of the evolutionary theories of emotions declare that affective states represent...
Theoretical discussions and computational models of bio-inspired embodied and situated agents are p...
There is a growing trend in the cognitive sciences to conceive of cognitive behavior as being distri...
A current challenge in neuroscience and systems biology is to better understand properties that allo...
Neurodynamics is the application of dynamical systems theory (DST) to the analysis of the structure ...
The interaction of brain, body, and environment can result incomplex behavior with rich dynamics, ev...
The interaction of brain, body and environment can result in complex behavior with rich dynamics eve...
In this thesis, the evolution of adaptive behaviour in artificial agents is studied. More specifical...
A preference is not located anywhere in the agent’s cognitive architecture, but it is rather a const...
Abstract Background Evolutionary autonomous agents ar...
This paper explores current developments in evolutionary and bio-inspired approaches to autonomous r...
Autonomous systems are the result of self-sustaining processes of constitution of an identity under ...
We discuss the methodological foundations for our work on the development of cognitive architectures...
We use genetic algorithms to evolve behavioral properties of simulated autonomous vehicles. The trai...
This case study demonstrates how the synthesis and the analysis of minimal recurrent neural robot co...
The core principles of the evolutionary theories of emotions declare that affective states represent...
Theoretical discussions and computational models of bio-inspired embodied and situated agents are p...
There is a growing trend in the cognitive sciences to conceive of cognitive behavior as being distri...
A current challenge in neuroscience and systems biology is to better understand properties that allo...
Neurodynamics is the application of dynamical systems theory (DST) to the analysis of the structure ...
The interaction of brain, body, and environment can result incomplex behavior with rich dynamics, ev...
The interaction of brain, body and environment can result in complex behavior with rich dynamics eve...
In this thesis, the evolution of adaptive behaviour in artificial agents is studied. More specifical...
A preference is not located anywhere in the agent’s cognitive architecture, but it is rather a const...
Abstract Background Evolutionary autonomous agents ar...
This paper explores current developments in evolutionary and bio-inspired approaches to autonomous r...
Autonomous systems are the result of self-sustaining processes of constitution of an identity under ...
We discuss the methodological foundations for our work on the development of cognitive architectures...
We use genetic algorithms to evolve behavioral properties of simulated autonomous vehicles. The trai...
This case study demonstrates how the synthesis and the analysis of minimal recurrent neural robot co...
The core principles of the evolutionary theories of emotions declare that affective states represent...