Collaborative interactions require social robots to share the users' perspective on the interactions and adapt to the dynamics of their affective behaviour. Yet, current approaches for affective behaviour generation in robots focus on instantaneous perception to generate a one-to-one mapping between observed human expressions and static robot actions. In this paper, we propose a novel framework for affect-driven behaviour generation in social robots. The framework consists of (i) a hybrid neural model for evaluating facial expressions and speech of the users, forming intrinsic affective representations in the robot, (ii) an Affective Core, that employs self-organising neural models to embed behavioural traits like patience and emotional act...
Robots of today are eager to leave constrained industrial environments and embrace unexplored and un...
The design and implementation of mood as an affective component for robotic behavior is described i...
Creating and sustaining closed-loop dynamic and social interactions with humans require robots to co...
Humans are inherently social creatures, and affect plays no small role in their social nature. We us...
We report on our approach towards creating socially intelligent robots, which is heavily inspired by...
This paper presents a framework for affective robotic behavior (TAME) and describes an exploratory...
Abstract. Computer models can be used to investigate the role of emotion in learning. Here we presen...
Human facial and bodily expressions play a crucial role in human-human interaction to convey the com...
This chapter focuses on recent advances in social robots that are capable of sensing their users, an...
Social Robotics and Human-Robot Interaction (HRI) research relies on different Affective Computing (...
Previous studies of robots used in learning environments suggest that the interaction between learne...
Robots that are devised for assisting and interacting with humans are becoming fundamental in many a...
In this article, we describe an Affective Knowledge Representation (AKR) scheme to represent emotion...
As robotic technologies of varying shapes and forms continue to make their way into our everyday liv...
Among the different emotional functions, empathy is difficult to model but is important for a robot ...
Robots of today are eager to leave constrained industrial environments and embrace unexplored and un...
The design and implementation of mood as an affective component for robotic behavior is described i...
Creating and sustaining closed-loop dynamic and social interactions with humans require robots to co...
Humans are inherently social creatures, and affect plays no small role in their social nature. We us...
We report on our approach towards creating socially intelligent robots, which is heavily inspired by...
This paper presents a framework for affective robotic behavior (TAME) and describes an exploratory...
Abstract. Computer models can be used to investigate the role of emotion in learning. Here we presen...
Human facial and bodily expressions play a crucial role in human-human interaction to convey the com...
This chapter focuses on recent advances in social robots that are capable of sensing their users, an...
Social Robotics and Human-Robot Interaction (HRI) research relies on different Affective Computing (...
Previous studies of robots used in learning environments suggest that the interaction between learne...
Robots that are devised for assisting and interacting with humans are becoming fundamental in many a...
In this article, we describe an Affective Knowledge Representation (AKR) scheme to represent emotion...
As robotic technologies of varying shapes and forms continue to make their way into our everyday liv...
Among the different emotional functions, empathy is difficult to model but is important for a robot ...
Robots of today are eager to leave constrained industrial environments and embrace unexplored and un...
The design and implementation of mood as an affective component for robotic behavior is described i...
Creating and sustaining closed-loop dynamic and social interactions with humans require robots to co...