Add to ORKGIn this paper we focus on the task of automatically and autonomously initiating experimentation and learning based on the recognition of prediction failure. We present a mechanism that utilizes conceptual knowledge to predict the outcome of robot actions, observes their execution and indicates when discrepancies occur. We show how this mechanism was applied to a robot that learns using the paradigm of learning by experimentation, and present first results obtained from this implementation
Planners reason with abstracted models of the behaviours they use to construct plans. When plans are...
In industrial robotics, the detection of failures is a key part of the robotsprogram to reach a robu...
In industrial robotics, the detection of failures is a key part of the robotsprogram to reach a robu...
In this paper we focus on the task of automatically and autonomously initiating experimentation and ...
In this paper we focus on the task of automatically and autonomously initiating experimentation and ...
In this paper we focus on the task of automatically and autonomously initiating experimentation and ...
In Artificial Intelligence, numerous learning paradigms have been developed over the past decades. I...
In Artificial Intelligence, numerous learning paradigms have been developed over the past decades. I...
In Artificial Intelligence, numerous learning paradigms have been developed over the past decades. I...
To achieve robust autonomy, robots must avoid getting stuck in states from which they cannot recove...
We propose to learn tasks directly from visual demonstrations by learning to predict the outcome of ...
When faced with an execution failure, an intelligent robot should be able to identify the likely rea...
When faced with an execution failure, an intelligent robot should be able to identify the likely rea...
To achieve robust autonomy, robots must avoid getting stuck in states from which they cannot recover...
Planners reason with abstracted models of the behaviours they use to construct plans. When plans are...
Planners reason with abstracted models of the behaviours they use to construct plans. When plans are...
In industrial robotics, the detection of failures is a key part of the robotsprogram to reach a robu...
In industrial robotics, the detection of failures is a key part of the robotsprogram to reach a robu...
In this paper we focus on the task of automatically and autonomously initiating experimentation and ...
In this paper we focus on the task of automatically and autonomously initiating experimentation and ...
In this paper we focus on the task of automatically and autonomously initiating experimentation and ...
In Artificial Intelligence, numerous learning paradigms have been developed over the past decades. I...
In Artificial Intelligence, numerous learning paradigms have been developed over the past decades. I...
In Artificial Intelligence, numerous learning paradigms have been developed over the past decades. I...
To achieve robust autonomy, robots must avoid getting stuck in states from which they cannot recove...
We propose to learn tasks directly from visual demonstrations by learning to predict the outcome of ...
When faced with an execution failure, an intelligent robot should be able to identify the likely rea...
When faced with an execution failure, an intelligent robot should be able to identify the likely rea...
To achieve robust autonomy, robots must avoid getting stuck in states from which they cannot recover...
Planners reason with abstracted models of the behaviours they use to construct plans. When plans are...
Planners reason with abstracted models of the behaviours they use to construct plans. When plans are...
In industrial robotics, the detection of failures is a key part of the robotsprogram to reach a robu...
In industrial robotics, the detection of failures is a key part of the robotsprogram to reach a robu...