Add to ORKGA major challenge for future social robots is the high-level interpretation of human motion, and the consequent generation of appropriate robot actions. This paper describes some fundamental steps towards the real-time implementation of a system that allows a mobile robot to transform quantitative information about human trajectories (i.e. coordinates and speed) into qualitative concepts, and from these to generate appropriate control commands. The problem is formulated using a simple version of qualitative trajectory calculus, then solved using an inference engine based on fuzzy temporal logic and situation graph trees. Preliminary results are discussed and future directions of the current research are drawn. Copyright © 2012, Association ...
In support of research efforts to develop reactive mobile robots capable of autonomous navigation, w...
In human-robot interaction, the incorporation of social rules results to be crucial to guarantee the...
The present work deals on the use of qualitative reasoning in order to carry out mobile robot path p...
A major challenge for future social robots is the high-level interpretation of human motion, and the...
Despite the large number of navigation algorithms available for mobile robots, in many social contex...
The success of mobile robots, in daily living environments, depends on their capabilities to underst...
This paper proposes a fuzzy qualitative approach to vision-based human motion analysis with an empha...
The success of mobile robots, in daily living environments, depends on their capabilities to underst...
Spatial interactions between agents carry information of high value to human observers, as exemplifi...
In this paper we propose a probabilistic sequential model of Human-Robot Spatial Interaction (HRSI) ...
In this paper we propose a probabilistic sequential model of Human-Robot Spatial Interaction (HRSI) ...
Qualitative and quantitative representations of space in general and motion in particular have their...
Acting intelligently in dynamic environments involves anticipating surrounding processes, for exampl...
We aim to develop an online method for learning robot behaviours that requires only a small number o...
A key issue in the research of an autonomous robot is the design and development of the navigation t...
In support of research efforts to develop reactive mobile robots capable of autonomous navigation, w...
In human-robot interaction, the incorporation of social rules results to be crucial to guarantee the...
The present work deals on the use of qualitative reasoning in order to carry out mobile robot path p...
A major challenge for future social robots is the high-level interpretation of human motion, and the...
Despite the large number of navigation algorithms available for mobile robots, in many social contex...
The success of mobile robots, in daily living environments, depends on their capabilities to underst...
This paper proposes a fuzzy qualitative approach to vision-based human motion analysis with an empha...
The success of mobile robots, in daily living environments, depends on their capabilities to underst...
Spatial interactions between agents carry information of high value to human observers, as exemplifi...
In this paper we propose a probabilistic sequential model of Human-Robot Spatial Interaction (HRSI) ...
In this paper we propose a probabilistic sequential model of Human-Robot Spatial Interaction (HRSI) ...
Qualitative and quantitative representations of space in general and motion in particular have their...
Acting intelligently in dynamic environments involves anticipating surrounding processes, for exampl...
We aim to develop an online method for learning robot behaviours that requires only a small number o...
A key issue in the research of an autonomous robot is the design and development of the navigation t...
In support of research efforts to develop reactive mobile robots capable of autonomous navigation, w...
In human-robot interaction, the incorporation of social rules results to be crucial to guarantee the...
The present work deals on the use of qualitative reasoning in order to carry out mobile robot path p...