Add to ORKGIn this study, the mathematical model of a nonholonomic vehicle was derived. A PID and kinematic based backstepping controller (KBBC) was designed for a differential drive mobile robot to be able to track a desired trajectory. The KBBC was used to overcome the nonlinearity of the trajectory tracking and the PID controllers was used for the DC motors’ speeds adjustments. Responses of the vehicle’s controller in the square shaped trajectory had obtained and results were graphically presented. The effectiveness of the designed controller has been discussed
ABSTRACT: Vehicle's basic dynamic model -- Absence of slippage and servomotors' dynamics -- The path...
The objective of this thesis is to present a tracking control of wheel mobile robot based on kinemat...
This article implies an improved backstepping control technique for the operational-space position t...
The application of differential drive robots has grown from scientific research to broader industria...
The objective of this work is to devise an effective control system for addressing the trajectory tr...
AbstractDifferential drive mobile robots are widely used due to their simplicity, easiness of contro...
AbstractTrajectories made by concatenating straight motion and in place turning primitive are one th...
This paper proposes the impact of the Dynamic model in Input-Output State Feedback Linearization (IO...
Nonholonomic system is a mechanical system that is subject to Nonholonomic constraints. They are the...
This work studies an optimal trajectory tracking of a wheeled mobile robot with the objective of min...
Differential drive wheeled mobile robot (DDWMR) is one example of a robot with a constrained movemen...
Differential drive wheeled mobile robot (DDWMR) is one example of a robot with a constrained movemen...
University of Minnesota M.S.E.E. thesis. December 2017. Major: Electrical Engineering. Advisor: Jian...
Intelligence incorporated in many devices makes it easier to achieve self-balancing and autonomous d...
ABSTRACT: Vehicle's basic dynamic model -- Absence of slippage and servomotors' dynamics -- The path...
ABSTRACT: Vehicle's basic dynamic model -- Absence of slippage and servomotors' dynamics -- The path...
The objective of this thesis is to present a tracking control of wheel mobile robot based on kinemat...
This article implies an improved backstepping control technique for the operational-space position t...
The application of differential drive robots has grown from scientific research to broader industria...
The objective of this work is to devise an effective control system for addressing the trajectory tr...
AbstractDifferential drive mobile robots are widely used due to their simplicity, easiness of contro...
AbstractTrajectories made by concatenating straight motion and in place turning primitive are one th...
This paper proposes the impact of the Dynamic model in Input-Output State Feedback Linearization (IO...
Nonholonomic system is a mechanical system that is subject to Nonholonomic constraints. They are the...
This work studies an optimal trajectory tracking of a wheeled mobile robot with the objective of min...
Differential drive wheeled mobile robot (DDWMR) is one example of a robot with a constrained movemen...
Differential drive wheeled mobile robot (DDWMR) is one example of a robot with a constrained movemen...
University of Minnesota M.S.E.E. thesis. December 2017. Major: Electrical Engineering. Advisor: Jian...
Intelligence incorporated in many devices makes it easier to achieve self-balancing and autonomous d...
ABSTRACT: Vehicle's basic dynamic model -- Absence of slippage and servomotors' dynamics -- The path...
ABSTRACT: Vehicle's basic dynamic model -- Absence of slippage and servomotors' dynamics -- The path...
The objective of this thesis is to present a tracking control of wheel mobile robot based on kinemat...
This article implies an improved backstepping control technique for the operational-space position t...