Add to ORKGAn autonomous system able to construct its own navigation strategy for mobile robots is proposed. The navigation strategy is molded from navigation experiences (succeeding as the robot navigates) according to a classical reinforcement learning procedure. The autonomous system is based on modular hierarchical neural networks. Initially the navigation performance is poor (many collisions occur). Computer simulations show that after a period of learning the autonomous system generates efficient obstacle avoidance and target seeking behaviors. Experiments also offer support for concluding that the autonomous system develops a variety of object discrimination capability and of spatial concepts
Robotic navigation has been an area of intense research since the onset of mobile robot development....
Classical reinforcement learning mechanisms and a modular neural network are unified for conceiving ...
Les robots modernes sont appelés à effectuer des opérations ou tâches complexes et la capacité de na...
peer reviewedAn autonomous system able to construct its own navigation strategy for mobile robots is...
Classical reinforcement learning mechanisms and a modular neural network are unified for conceiving ...
Classical reinforcement learning mechanisms and a modular neural network are unified for conceiving ...
Classical reinforcement learning mechanisms and a modular neural network are unified for conceiving ...
This paper presents an autonomous evolutionary system applied to control a mobile robot in unknown e...
In this paper we propose a neural network based navigation for intelligent autonomous mobile robots....
In this work new artificial learning and innate control mechanisms are proposed for application in a...
In this work new artificial learning and innate control mechanisms are proposed for application in a...
In this work new artificial learning and innate control mechanisms are proposed for application in a...
Online navigation with known target and unknown obstacles is an interesting problem in mobile roboti...
Classical reinforcement learning mechanisms and a modular neural network are unified to conceive an ...
peer reviewedClassical reinforcement learning mechanisms and a modular neural network are unified to...
Robotic navigation has been an area of intense research since the onset of mobile robot development....
Classical reinforcement learning mechanisms and a modular neural network are unified for conceiving ...
Les robots modernes sont appelés à effectuer des opérations ou tâches complexes et la capacité de na...
peer reviewedAn autonomous system able to construct its own navigation strategy for mobile robots is...
Classical reinforcement learning mechanisms and a modular neural network are unified for conceiving ...
Classical reinforcement learning mechanisms and a modular neural network are unified for conceiving ...
Classical reinforcement learning mechanisms and a modular neural network are unified for conceiving ...
This paper presents an autonomous evolutionary system applied to control a mobile robot in unknown e...
In this paper we propose a neural network based navigation for intelligent autonomous mobile robots....
In this work new artificial learning and innate control mechanisms are proposed for application in a...
In this work new artificial learning and innate control mechanisms are proposed for application in a...
In this work new artificial learning and innate control mechanisms are proposed for application in a...
Online navigation with known target and unknown obstacles is an interesting problem in mobile roboti...
Classical reinforcement learning mechanisms and a modular neural network are unified to conceive an ...
peer reviewedClassical reinforcement learning mechanisms and a modular neural network are unified to...
Robotic navigation has been an area of intense research since the onset of mobile robot development....
Classical reinforcement learning mechanisms and a modular neural network are unified for conceiving ...
Les robots modernes sont appelés à effectuer des opérations ou tâches complexes et la capacité de na...