© 2017 SERSC. This study proposes behavior-based navigation architecture, named BBFM, to deal with the problem of navigating the mobile robot in unknown environments in the presence of obstacles and local minimum regions. In the architecture, the complex navigation task is split into principal sub-tasks or behaviors. Each behavior is implemented by a fuzzy controller and executed independently to deal with a specific problem of navigation. The fuzzy controller is modified to contain only the fuzzification and inference procedures so that its output is a membership function representing the behavior's objective. The membership functions of all controllers are then used as the objective functions for a multi-objective optimization process to ...
One of the long standing challenging aspect in mobile robotics is the ability to navigate autonomous...
Robot local path planning in an unknown and changing environment with uncertainties is one of the m...
The reaction of an autonomous mobile robot to dynamic, uncertain, and changeable environments is one...
This study proposes a control system model for mobile robots navigating in unknown environments. The...
From the continued development of autonomous driving vehicle, it became more apparent that this tech...
This paper presents the development and design of a methodology based on fuzzy logic to control an i...
A new fuzzy logic algorithm is developed for mobile robot navigation in local environments. A Pionee...
“Obstacle avoidance for mobile robots is an area of great interest in mobile robotics. Accomplishing...
The intelligent mobile robot should be capable enough to assimilate the information from the surroun...
This paper presents a method for fuzzy-logic-based reactive behavior control of an autonomous mobile...
peer reviewedThis paper presents a software implementation of a user adaptive fuzzy control system f...
This paper presents an improvement for the software implementation (MOFS) of a user adaptive fuzzy c...
Numerous behavior rule selection mechanisms have been studied and examples of such mechanisms are di...
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...
One of the long standing challenging aspect in mobile robotics is the ability to navigate autonomous...
Robot local path planning in an unknown and changing environment with uncertainties is one of the m...
The reaction of an autonomous mobile robot to dynamic, uncertain, and changeable environments is one...
This study proposes a control system model for mobile robots navigating in unknown environments. The...
From the continued development of autonomous driving vehicle, it became more apparent that this tech...
This paper presents the development and design of a methodology based on fuzzy logic to control an i...
A new fuzzy logic algorithm is developed for mobile robot navigation in local environments. A Pionee...
“Obstacle avoidance for mobile robots is an area of great interest in mobile robotics. Accomplishing...
The intelligent mobile robot should be capable enough to assimilate the information from the surroun...
This paper presents a method for fuzzy-logic-based reactive behavior control of an autonomous mobile...
peer reviewedThis paper presents a software implementation of a user adaptive fuzzy control system f...
This paper presents an improvement for the software implementation (MOFS) of a user adaptive fuzzy c...
Numerous behavior rule selection mechanisms have been studied and examples of such mechanisms are di...
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...
One of the long standing challenging aspect in mobile robotics is the ability to navigate autonomous...
Robot local path planning in an unknown and changing environment with uncertainties is one of the m...
The reaction of an autonomous mobile robot to dynamic, uncertain, and changeable environments is one...