Abstract: In many cases, a real robot application requires the navigation in dynamic environments. The navigation problem involves two main tasks: to avoid obstacles and to reach a goal. Generally, this problem could be faced considering reactions and sequences of actions. For solving the navigation problem a complete controller, including actions and reactions, is needed. Machine learning techniques has been applied to learn these controllers. Classifier Systems (CS) have proven their ability of continuos learning in these domains. However, CS have some problems in reactive systems. In this paper, a modified CS is proposed to overcome these problems. Two special mechanisms are included in the developed CS to allow the learning of both reac...
Reactive controllers are widely used in mobile robots because they are able to achieve successful pe...
To date there have been few implementation of Holland’s Learning Classifier System (LCS) on real rob...
Abstract. Behavior-based artificial intelligent system is to derive the complicated behaviors by sel...
In many cases, a real robot application requires the navigation in dynamic environments. The navigat...
Abstract: In many cases, a real robot application requires the navigation in dynamic environments. T...
Abstract: The navigation problem involves how to reach a goal avoiding obstacles in dynamic environm...
IEEE International Conference on Systems, Man, and Cybernetics. San Diego, CA, 11-14 Oct. 1998The na...
The navigation problem involves how to reach a goal avoiding obstacles in dynamic environments. This...
This paper presents an autonomous evolutionary system applied to control a mobile robot in unknown e...
To date there has only been one implementation of Holland's Learning Classifier System (LCS) on real...
This paper presents a simulator that was developed to assist in the process of implementing high-lev...
Proceeding of: International Work-Conference on Artificial and Natural Neural Networks, IWANN'99 Ali...
This paper describes XFRMLearn, a system that learns symbolic behavior specifications to control and...
7th IEEE International Conference on Emerging Technologies and Factory Automation. Barcelona, 18-21 ...
Reactive controllers are widely used in mobile robots because they are able to achieve successful pe...
To date there have been few implementation of Holland’s Learning Classifier System (LCS) on real rob...
Abstract. Behavior-based artificial intelligent system is to derive the complicated behaviors by sel...
In many cases, a real robot application requires the navigation in dynamic environments. The navigat...
Abstract: In many cases, a real robot application requires the navigation in dynamic environments. T...
Abstract: The navigation problem involves how to reach a goal avoiding obstacles in dynamic environm...
IEEE International Conference on Systems, Man, and Cybernetics. San Diego, CA, 11-14 Oct. 1998The na...
The navigation problem involves how to reach a goal avoiding obstacles in dynamic environments. This...
This paper presents an autonomous evolutionary system applied to control a mobile robot in unknown e...
To date there has only been one implementation of Holland's Learning Classifier System (LCS) on real...
This paper presents a simulator that was developed to assist in the process of implementing high-lev...
Proceeding of: International Work-Conference on Artificial and Natural Neural Networks, IWANN'99 Ali...
This paper describes XFRMLearn, a system that learns symbolic behavior specifications to control and...
7th IEEE International Conference on Emerging Technologies and Factory Automation. Barcelona, 18-21 ...
Reactive controllers are widely used in mobile robots because they are able to achieve successful pe...
To date there have been few implementation of Holland’s Learning Classifier System (LCS) on real rob...
Abstract. Behavior-based artificial intelligent system is to derive the complicated behaviors by sel...