This paper presents the application of a Case-Based Reasoning approach to the selection and modification of behavioral assemblage parameters. The goal of this research is to achieve an optimal parameterization of robotic behaviors in run-time. This increases robot performance and makes a manual configuration of parameters unnecessary. The case-based reasoning module selects a set of parameters for an active behavioral assemblage in real-time. This set of parameters fits the environment better than hand-coded ones, and its performance is monitored providing feedback for a possible reselection of the parameters. This paper places a significant emphasis on the technical details of the casebased reasoning module and how it is integrated within ...
In this paper, we present successful strategies for forgetting cases in a Case-Based Reasoning (CBR)...
We propose a Case-Based Reasoning approach for action selection in the robot soccer domain presented...
This paper presents a self-improving reactive control system for autonomous robotic navigation. Th...
This paper presents the application of a Case-Based Reasoning approach to the selection and modifica...
This paper presents the application of a Case-Based Reasoning approach to the selection and modific...
This paper presents an approach to learning an optimal behavioral parameterization in the framework...
This article presents a new line of research investigating on-line learning mechanisms for autonomou...
AbstractCase-based reasoning systems have traditionally been used to perform high-level reasoning in...
We propose a case-based method of selecting behavior sets as an addition to traditional reactive rob...
This paper presents a self-improving reactive control system for autonomous robotic navigation. The ...
Abstract. Behavioral control for an autonomous humanoid robot is a very complex problem, especially ...
This paper presents a self-improving reactive control system for autonomous robotic navigation. The ...
Robot selection is one of critical decisions in the design of robotic workcells. Over the last ten y...
This research examines a hybrid planner for a real-world mo-bile robot delivering messages in an off...
Reactive controllers are widely used in mobile robots because they are able to achieve successful pe...
In this paper, we present successful strategies for forgetting cases in a Case-Based Reasoning (CBR)...
We propose a Case-Based Reasoning approach for action selection in the robot soccer domain presented...
This paper presents a self-improving reactive control system for autonomous robotic navigation. Th...
This paper presents the application of a Case-Based Reasoning approach to the selection and modifica...
This paper presents the application of a Case-Based Reasoning approach to the selection and modific...
This paper presents an approach to learning an optimal behavioral parameterization in the framework...
This article presents a new line of research investigating on-line learning mechanisms for autonomou...
AbstractCase-based reasoning systems have traditionally been used to perform high-level reasoning in...
We propose a case-based method of selecting behavior sets as an addition to traditional reactive rob...
This paper presents a self-improving reactive control system for autonomous robotic navigation. The ...
Abstract. Behavioral control for an autonomous humanoid robot is a very complex problem, especially ...
This paper presents a self-improving reactive control system for autonomous robotic navigation. The ...
Robot selection is one of critical decisions in the design of robotic workcells. Over the last ten y...
This research examines a hybrid planner for a real-world mo-bile robot delivering messages in an off...
Reactive controllers are widely used in mobile robots because they are able to achieve successful pe...
In this paper, we present successful strategies for forgetting cases in a Case-Based Reasoning (CBR)...
We propose a Case-Based Reasoning approach for action selection in the robot soccer domain presented...
This paper presents a self-improving reactive control system for autonomous robotic navigation. Th...