We present an attractor based dynamics that autonomously generates temporally discrete movements and temporally coordinated movements for two vehicles, stably adapted to changing online sensory information. Movement termination is entirely sensor driven. We build on a previously proposed solution in which timed trajectories and sequences of movements were generated as attractor solutions of dynamic systems. We present a novel system composed of two coupled dynamical architectures that temporally coordinate the solutions of these dynamical systems. The coupled dynamics enable synchronization of the different components providing an independence relatively to the specification of their individual parameters. We apply this architecture to g...
We show how non-linear attractor dynamics can be used to implement robot formations in unknown envir...
Dynamical systems theory is used as a theoretical language and tool to design a distributed control...
Trajectory modulation and generation are two fundamental issues in the path planning problem in aut...
We present an attractor based dynamics that autonomously generates temporally discrete movements and...
The timing of movements and of action sequences is important when particular events must be achieved...
The timing of movements and of action sequences is difficult when on-line coupling to sensory inform...
We present an attractor based dynamics that autonomously generates trajectories with stable timing ...
Dynamical systems theory is used here as a theoretical language and tool to design a distributed co...
Abstract — We present an attractor based dynamics that au-tonomously generates temporally discrete m...
The ability to generate discrete movement with distinct and stable time courses is important for int...
We present an attractor based dynamics that autonomously generates temporally discrete movements an...
In this work, we address temporal stabilization of generated movements in autonomous robotics. We f...
In this paper dynamical systems theory is used as a theoretical language and tool to design a distri...
Abstract In this paper we show how non-linear attractor dynamics can be used as a framework to contr...
We develop a dynamical systems approach to prioritizing multiple tasks in the context of a mobile ro...
We show how non-linear attractor dynamics can be used to implement robot formations in unknown envir...
Dynamical systems theory is used as a theoretical language and tool to design a distributed control...
Trajectory modulation and generation are two fundamental issues in the path planning problem in aut...
We present an attractor based dynamics that autonomously generates temporally discrete movements and...
The timing of movements and of action sequences is important when particular events must be achieved...
The timing of movements and of action sequences is difficult when on-line coupling to sensory inform...
We present an attractor based dynamics that autonomously generates trajectories with stable timing ...
Dynamical systems theory is used here as a theoretical language and tool to design a distributed co...
Abstract — We present an attractor based dynamics that au-tonomously generates temporally discrete m...
The ability to generate discrete movement with distinct and stable time courses is important for int...
We present an attractor based dynamics that autonomously generates temporally discrete movements an...
In this work, we address temporal stabilization of generated movements in autonomous robotics. We f...
In this paper dynamical systems theory is used as a theoretical language and tool to design a distri...
Abstract In this paper we show how non-linear attractor dynamics can be used as a framework to contr...
We develop a dynamical systems approach to prioritizing multiple tasks in the context of a mobile ro...
We show how non-linear attractor dynamics can be used to implement robot formations in unknown envir...
Dynamical systems theory is used as a theoretical language and tool to design a distributed control...
Trajectory modulation and generation are two fundamental issues in the path planning problem in aut...