Modeling unknown environments with a mobile robot

This paper studies the problem of motion and control law design for a mobile robot that moves inside a partially unknown environment with stationary obstacles and moving objects, under the assumption of parametric uncertainty in the model that describes the motion of the robot. A new variable struct

A neuro-fuzzy system architecture for behavior-based control of a mobile robot in unknown environments is presented. A neural network is used to understand environments. Its inputs are a heading angle between the robot and a specified target, and range information acquired by an array of ultrasonic

There are some mobile-robot applications that require the complete coverage of an unstructured environment. Examples are humanitarian de-mining and floor-cleaning tasks. A complete-coverage algorithm is then used, a path-planning technique that allows the robot to pass over all points in the environ

This paper discusses the problem of controlling the motion of a robot in a partially unknown environment. The problem can be formulated as a stochastic control problem with some state variables related to the physical dynamics of the robot and others related to the information the robot has obtained

In an effort to mimic the process of obstacle avoidance behavior of human locomotion (or that of automobiles driven by human response), a combination of basic reflex actions and higher level logical decisions is implemented. It is shown that for reflective navigation of autonomous mobile robots, the