In mobile robot applications such as cleaning and security patrolling, a fundamentally important problem is to design feasible trajectories and steering control so that the robot moves collision-free and covers all the points (in its sensor/effector range) in a dynamic and uncertain environment. We formulate such a problem and propose constructive algorithms in sequential modules to solve it. First, a minimum-area rectangle is placed encasing the boundary of the set to be covered. Second, minimum number of circles of the radius of coverage range are placed to completely cover the rectangle. Third, a patrolling path is searched along the boundary of the set in a spital. Feasible trajectories are then designed to account for the nonholonomic ...
The known algorithms for planning the trajectory of movement of mobile robots in an unknown environm...
Thesis (M.S.)--Wichita State University, College of Engineering, Dept. of EngineeringThe sensor cove...
Safe Robot Navigation Among Moving and Steady Obstacles is the first book to focus on reactive navig...
In mobile robot applications such as cleaning and security patrolling, a fundamentally important pro...
In this dissertation, two coverage path planning (CPP) approaches for a nonholonomic mobile robot ar...
In this paper, we proposed a coverage path (CP) planning approach for a mobile robot moving in a dyn...
The classical problem of robot coverage is to plan a path that brings a point on a robot within a fi...
This paper presents a practical approach to coverage planning with multiple circular mobile sensors....
There are some mobile-robot applications that require the complete coverage of an unstructured envir...
A coverage algorithm is an algorithm that deploys a strategy as to how to cover all points in terms ...
The complete coverage path planning is a process of finding a path which ensures that a mobile robot...
This paper introduces a sensor based coverage algorithm and an overview of a mobile robot sys-tem fo...
This thesis explores the problem of generating coverage paths—that is, paths that pass within some s...
This paper addresses a systematic coverage planning with a circular sensor mobile robot, having kine...
This research report discusses the problem of complete coverage path planning in mobile robotics. Am...
The known algorithms for planning the trajectory of movement of mobile robots in an unknown environm...
Thesis (M.S.)--Wichita State University, College of Engineering, Dept. of EngineeringThe sensor cove...
Safe Robot Navigation Among Moving and Steady Obstacles is the first book to focus on reactive navig...
In mobile robot applications such as cleaning and security patrolling, a fundamentally important pro...
In this dissertation, two coverage path planning (CPP) approaches for a nonholonomic mobile robot ar...
In this paper, we proposed a coverage path (CP) planning approach for a mobile robot moving in a dyn...
The classical problem of robot coverage is to plan a path that brings a point on a robot within a fi...
This paper presents a practical approach to coverage planning with multiple circular mobile sensors....
There are some mobile-robot applications that require the complete coverage of an unstructured envir...
A coverage algorithm is an algorithm that deploys a strategy as to how to cover all points in terms ...
The complete coverage path planning is a process of finding a path which ensures that a mobile robot...
This paper introduces a sensor based coverage algorithm and an overview of a mobile robot sys-tem fo...
This thesis explores the problem of generating coverage paths—that is, paths that pass within some s...
This paper addresses a systematic coverage planning with a circular sensor mobile robot, having kine...
This research report discusses the problem of complete coverage path planning in mobile robotics. Am...
The known algorithms for planning the trajectory of movement of mobile robots in an unknown environm...
Thesis (M.S.)--Wichita State University, College of Engineering, Dept. of EngineeringThe sensor cove...
Safe Robot Navigation Among Moving and Steady Obstacles is the first book to focus on reactive navig...