AbstractUsing the language of dynamical systems theory, a general theoretical framework for the synthesis and analysis of autonomous agents is sketched. In this framework, an agent and its environment are modeled as two coupled dynamical systems whose mutual interaction is in general jointly responsible for the agent's behavior. In addition, the adaptive fit between an agent and its environment is characterized in terms of the satisfaction of a given constraint on the trajectories of the coupled agent-environment system. The utility of this framework is demonstrated by using it to first synthesize and then analyze a walking behavior for a legged agent
The analysis of embodied and situated agents form a dynamical system perspective is often limited t...
This paper presents our approach towards realizing a robot which can bootstrap itself towards higher...
Theoretical discussions and computational models of bio-inspired embodied and situated agents are p...
AbstractUsing the language of dynamical systems theory, a general theoretical framework for the synt...
How might one account for the organization in behavior without attributing it to an internal control...
How might one account for the organization in behavior without attributing it to an internal control...
A situated agent is not only embedded within its environmental system, but forms an integral and ac...
Introduction Autonomous mobile robots for human environments must cope with the main problems that a...
This paper gives an overview of the bottom-up approach to artificial intelligence (AI), commonly ref...
Autonomous systems are the result of self-sustaining processes of constitution of an identity under ...
It is becoming widely accepted that neither purely reactive nor purely deliberative control techniqu...
In this paper, the agent-oriented modeling perspective to cope with biological complexity is discuss...
This paper presents a new architecture for controlling autonomous agents in dynamic multi-agent worl...
It is becoming widely accepted that neither purely reactive nor purely deliberative control techniqu...
Recently architects have been inspired by Thompsonis Cartesian deformations and Waddingtonis flexibl...
The analysis of embodied and situated agents form a dynamical system perspective is often limited t...
This paper presents our approach towards realizing a robot which can bootstrap itself towards higher...
Theoretical discussions and computational models of bio-inspired embodied and situated agents are p...
AbstractUsing the language of dynamical systems theory, a general theoretical framework for the synt...
How might one account for the organization in behavior without attributing it to an internal control...
How might one account for the organization in behavior without attributing it to an internal control...
A situated agent is not only embedded within its environmental system, but forms an integral and ac...
Introduction Autonomous mobile robots for human environments must cope with the main problems that a...
This paper gives an overview of the bottom-up approach to artificial intelligence (AI), commonly ref...
Autonomous systems are the result of self-sustaining processes of constitution of an identity under ...
It is becoming widely accepted that neither purely reactive nor purely deliberative control techniqu...
In this paper, the agent-oriented modeling perspective to cope with biological complexity is discuss...
This paper presents a new architecture for controlling autonomous agents in dynamic multi-agent worl...
It is becoming widely accepted that neither purely reactive nor purely deliberative control techniqu...
Recently architects have been inspired by Thompsonis Cartesian deformations and Waddingtonis flexibl...
The analysis of embodied and situated agents form a dynamical system perspective is often limited t...
This paper presents our approach towards realizing a robot which can bootstrap itself towards higher...
Theoretical discussions and computational models of bio-inspired embodied and situated agents are p...