Review article about Dynamic Field theory and applications in cognitive science and roboticseuCognition : the European Network for Advancement of Artificial Cognitive System
Van Gelder's specification of the dynamical hypothesis does not improve on previous notions. All thr...
This tutorial presents an architecture for autonomous robots to generate behavior in joint action ta...
The dynamics of neural activation variables Abstract: This paper presents a comprehensive and de-tai...
In recent years, there has been an increasing interest in the dynamical systems approach to cognitiv...
In recent years, there has been an increasing interest in the dynamical systems approach to cognitiv...
The goal of this chapter is to explain some of the core concepts of Dynamic Field Theory (DFT) and h...
This chapter lays the conceptual and mathematical foundations of Dynamic Field Theory. We first talk...
Understanding embodied and situated cognition means understanding how cognitive processes are closel...
Dynamic Field Theory (DFT) is an established framework for modeling embodied cognition. In DFT, elem...
The dynamical hypothesis in cognition identifies various research paradigms applying the mathematics...
This paper examines the contributions of dynamic systems theory to the field of cognitive developmen...
Much theoretical work has been dedicated to studying neural field equations at an abstract, mathemat...
Embodied artificial cognitive systems, such as autonomous robots or intelligent observers, connect c...
Abstract—Based on the concepts of dynamic field theory (DFT), we present an architecture that autono...
Within cognitive neuroscience, computational models are designed to provide insights into the organi...
Van Gelder's specification of the dynamical hypothesis does not improve on previous notions. All thr...
This tutorial presents an architecture for autonomous robots to generate behavior in joint action ta...
The dynamics of neural activation variables Abstract: This paper presents a comprehensive and de-tai...
In recent years, there has been an increasing interest in the dynamical systems approach to cognitiv...
In recent years, there has been an increasing interest in the dynamical systems approach to cognitiv...
The goal of this chapter is to explain some of the core concepts of Dynamic Field Theory (DFT) and h...
This chapter lays the conceptual and mathematical foundations of Dynamic Field Theory. We first talk...
Understanding embodied and situated cognition means understanding how cognitive processes are closel...
Dynamic Field Theory (DFT) is an established framework for modeling embodied cognition. In DFT, elem...
The dynamical hypothesis in cognition identifies various research paradigms applying the mathematics...
This paper examines the contributions of dynamic systems theory to the field of cognitive developmen...
Much theoretical work has been dedicated to studying neural field equations at an abstract, mathemat...
Embodied artificial cognitive systems, such as autonomous robots or intelligent observers, connect c...
Abstract—Based on the concepts of dynamic field theory (DFT), we present an architecture that autono...
Within cognitive neuroscience, computational models are designed to provide insights into the organi...
Van Gelder's specification of the dynamical hypothesis does not improve on previous notions. All thr...
This tutorial presents an architecture for autonomous robots to generate behavior in joint action ta...
The dynamics of neural activation variables Abstract: This paper presents a comprehensive and de-tai...