Add to ORKGRobot local path planning in an unknown and changing environment with uncertainties is one of the most challenging problems in robotics which involves the integration of many different bodies of knowledge. This makes mobile robotics a challenge worldwide which for many years has been investigated by researchers. Therefore in this thesis, a new fuzzy logic control system is developed for reactive navigation of a behavior-based mobile robot. The motion of a Pioneer 3TM mobile robot was simulated to show the algorithm performance. The robot perceives its environment through an array of eight sonar range finders and self positioning-localization sensors. The robot environment consists of walls and dead end traps from any size and shape,...
© 2017 SERSC. This study proposes behavior-based navigation architecture, named BBFM, to deal with t...
peer reviewedThis paper presents a software implementation of a user adaptive fuzzy control system f...
This paper studies alternatives to solve the problem of autonomous mobile robots navigation in unkno...
The intelligent mobile robot should be capable enough to assimilate the information from the surroun...
A new fuzzy logic algorithm is developed for mobile robot navigation in local environments. A Pionee...
A mobile robot has a capability of sensing its location under uncertain environment, planning a real...
A mobile robot has a capability of sensing its location under uncertain environment,planning a real-...
During the past several years fuzzy logic control (FLC) has emerged as one of the most active and f...
This paper discusses a design of fuzzy logic algorithm in a robot. This algorithm is useful for th...
The main objective of this project is to build a mobile robot that would be able to navigate from on...
This paper presents the modeling of a robot's navigation using ultrasonic sensors under uncertainty....
Based on a review and analysis of the literature for controlling a small light mobile robot based on...
“Obstacle avoidance for mobile robots is an area of great interest in mobile robotics. Accomplishing...
The present article is devoted to develop an algorithm for obstacle avoidance of an autonomous mobil...
With the progresses of innovation, versatile robots are getting to be prevalent. Agreeing to Karthig...
© 2017 SERSC. This study proposes behavior-based navigation architecture, named BBFM, to deal with t...
peer reviewedThis paper presents a software implementation of a user adaptive fuzzy control system f...
This paper studies alternatives to solve the problem of autonomous mobile robots navigation in unkno...
The intelligent mobile robot should be capable enough to assimilate the information from the surroun...
A new fuzzy logic algorithm is developed for mobile robot navigation in local environments. A Pionee...
A mobile robot has a capability of sensing its location under uncertain environment, planning a real...
A mobile robot has a capability of sensing its location under uncertain environment,planning a real-...
During the past several years fuzzy logic control (FLC) has emerged as one of the most active and f...
This paper discusses a design of fuzzy logic algorithm in a robot. This algorithm is useful for th...
The main objective of this project is to build a mobile robot that would be able to navigate from on...
This paper presents the modeling of a robot's navigation using ultrasonic sensors under uncertainty....
Based on a review and analysis of the literature for controlling a small light mobile robot based on...
“Obstacle avoidance for mobile robots is an area of great interest in mobile robotics. Accomplishing...
The present article is devoted to develop an algorithm for obstacle avoidance of an autonomous mobil...
With the progresses of innovation, versatile robots are getting to be prevalent. Agreeing to Karthig...
© 2017 SERSC. This study proposes behavior-based navigation architecture, named BBFM, to deal with t...
peer reviewedThis paper presents a software implementation of a user adaptive fuzzy control system f...
This paper studies alternatives to solve the problem of autonomous mobile robots navigation in unkno...