The navigation efficiency of wheeled robots needs to be further improved. Although related research has proposed various approaches, most of them describe the relationship between the robot and the obstacle roughly. Viability theory concerns the dynamic adaptation of evolutionary systems to the environment. Based on viability, we explore a method that involves robot dynamic model, environmental constraints and navigation control. The method can raise the efficiency of the navigation. We treat the environment as line segments to reduce the computational difficulty for building the viability condition constraints. Although there exists lots of control values which can be used to drive the robot safely to the goal, it is necessary to build an ...
Ovaj rad bavi se razvojem upravljačkog algoritma za autonomnu navigaciju i praćenje cilja kroz nepoz...
This is the author accepted manuscript. The final version is available from IEEE via the DOI in this...
In this paper, we present an intelligent control of an autonomous mobile robot in unknown environmen...
The navigation efficiency of wheeled robots needs to be further improved. Although related research ...
Robotic navigation has remained an open issue through the last two decades. Mobile robot is required...
Robotic navigation has remained an open issue through the last two decades. Mobile robot is required...
Safe Robot Navigation Among Moving and Steady Obstacles is the first book to focus on reactive navig...
Path planning with obstacles avoidance in dynamic environments is a crucial issue in robotics. Numer...
This chapter presents a new reactive navigation algorithm for a wheeled mobile robot (WMR) with a di...
The rapid development of robotics has benefited by more and more people putting their attention to i...
AbstractThis paper presents an implementation of an evolutionary algorithm to control a robot with a...
Tema ovog rada je simulacija navigacije robota u zahtjevnom okruženju. U uvodu je navedena upotreba ...
The known algorithms for planning the trajectory of movement of mobile robots in an unknown environm...
U ovom diplomskom radu provedeni su eksperimenti vezani za autonomnu navigaciju mobilnih robota. Kor...
An autonomous robot navigation that is able to navigate itself in unknown maze environment. The obje...
Ovaj rad bavi se razvojem upravljačkog algoritma za autonomnu navigaciju i praćenje cilja kroz nepoz...
This is the author accepted manuscript. The final version is available from IEEE via the DOI in this...
In this paper, we present an intelligent control of an autonomous mobile robot in unknown environmen...
The navigation efficiency of wheeled robots needs to be further improved. Although related research ...
Robotic navigation has remained an open issue through the last two decades. Mobile robot is required...
Robotic navigation has remained an open issue through the last two decades. Mobile robot is required...
Safe Robot Navigation Among Moving and Steady Obstacles is the first book to focus on reactive navig...
Path planning with obstacles avoidance in dynamic environments is a crucial issue in robotics. Numer...
This chapter presents a new reactive navigation algorithm for a wheeled mobile robot (WMR) with a di...
The rapid development of robotics has benefited by more and more people putting their attention to i...
AbstractThis paper presents an implementation of an evolutionary algorithm to control a robot with a...
Tema ovog rada je simulacija navigacije robota u zahtjevnom okruženju. U uvodu je navedena upotreba ...
The known algorithms for planning the trajectory of movement of mobile robots in an unknown environm...
U ovom diplomskom radu provedeni su eksperimenti vezani za autonomnu navigaciju mobilnih robota. Kor...
An autonomous robot navigation that is able to navigate itself in unknown maze environment. The obje...
Ovaj rad bavi se razvojem upravljačkog algoritma za autonomnu navigaciju i praćenje cilja kroz nepoz...
This is the author accepted manuscript. The final version is available from IEEE via the DOI in this...
In this paper, we present an intelligent control of an autonomous mobile robot in unknown environmen...