This paper proposes two applications of Grey Wolf Optimizer (GWO) algorithms to a path planning (PaPl) problem and a Proportional-Integral (PI)-fuzzy controller tuning problem. Both optimization problems solved by GWO algorithms are explained in detail. An off-line GWO-based PaPl approach for Nonholonomic Wheeled Mobile Robots (NWMRs) in static environments is proposed. Once the PaPl problem is solved resulting in the reference trajectory of the robots, the paper also suggests a GWO-based approach to tune cost-effective PI-fuzzy controllers in tracking control problem for NWMRs. The experimental results are demonstrated through simple multiagent settings conducted on the nRobotic platform developed at the Politehnica University of Timisoara...
Actually, path planning is one of the most crucial aspects of mobile robots study. The primary goal ...
Navigational path planning problems of the mobile robots have received considerable attention over t...
This article proposes a novel hybrid metaheuristic technique based on nonsingular terminal sliding m...
Autonomous mobile robots developed using metaheuristic algorithms are increasingly becoming a hot to...
In this work, we propose, through the use of population-based metaheuristics, an optimization method...
Nowadays, most robotic systems perform their tasks in an environment that is generally known. Thus, ...
This paper proposes an easily understandable Grey Wolf Optimizer (GWO) applied to the optimal tuning...
This paper proposed an improved Grey Wolf Optimizer (GWO) to resolve the problem of instability and ...
Swarm intelligence algorithms have been in recent years one of the most used tools for planning the ...
This study presents the development of a grey-box modelling approach and fuzzy logic control for rea...
With the rise of robotics within various fields, there has been a significant development in the use...
Traditional grey wolf optimizers (GWOs) have difficulty balancing convergence and diversity when use...
AbstractIn this paper, in order to cope with both parametric and nonparametric uncertainties in the ...
Biogeography-based optimization (BBO) is an evolutionary algorithm (EA) based upon the models of bio...
This article introduces a singleton type-1 fuzzy logic system (T1-SFLS) controller and Fuzzy-WDO hyb...
Actually, path planning is one of the most crucial aspects of mobile robots study. The primary goal ...
Navigational path planning problems of the mobile robots have received considerable attention over t...
This article proposes a novel hybrid metaheuristic technique based on nonsingular terminal sliding m...
Autonomous mobile robots developed using metaheuristic algorithms are increasingly becoming a hot to...
In this work, we propose, through the use of population-based metaheuristics, an optimization method...
Nowadays, most robotic systems perform their tasks in an environment that is generally known. Thus, ...
This paper proposes an easily understandable Grey Wolf Optimizer (GWO) applied to the optimal tuning...
This paper proposed an improved Grey Wolf Optimizer (GWO) to resolve the problem of instability and ...
Swarm intelligence algorithms have been in recent years one of the most used tools for planning the ...
This study presents the development of a grey-box modelling approach and fuzzy logic control for rea...
With the rise of robotics within various fields, there has been a significant development in the use...
Traditional grey wolf optimizers (GWOs) have difficulty balancing convergence and diversity when use...
AbstractIn this paper, in order to cope with both parametric and nonparametric uncertainties in the ...
Biogeography-based optimization (BBO) is an evolutionary algorithm (EA) based upon the models of bio...
This article introduces a singleton type-1 fuzzy logic system (T1-SFLS) controller and Fuzzy-WDO hyb...
Actually, path planning is one of the most crucial aspects of mobile robots study. The primary goal ...
Navigational path planning problems of the mobile robots have received considerable attention over t...
This article proposes a novel hybrid metaheuristic technique based on nonsingular terminal sliding m...