Nonlinear Modeling and Optimal Output Control of Two Wheeled Balancing Transporter
Authors
Abstract:
In this paper an optimal controller is proposed for a self-balancing electrical vehicle called Segway PT. This vehicle has one platform and two wheels on the sides and the rider stands on the platform. A handlebar, as a navigator, is attached to the body of Segway, with which the rider controls the vehicle. Since Segway uses electrical energy produced by batteries, resource consumption management is of utmost importance. On the other hand, complex nonlinear dynamics cause difficulties in controlling the vehicle. Our proposed controller reduces energy consumption and enhance response speed of system instead of classic PID controller which proposed before. Simulation results show the desired performance of the proposed controller.
similar resources
nonlinear modeling and optimal output control of two wheeled balancing transporter
in this paper an optimal controller is proposed for a self-balancing electrical vehicle called segway pt. this vehicle has one platform and two wheels on the sides and the rider stands on the platform. a handlebar, as a navigator, is attached to the body of segway, with which the rider controls the vehicle. since segway uses electrical energy produced by batteries, resource consumption manageme...
full textDynamic Modeling and Construction of a New Two-Wheeled Mobile Manipulator: Self-balancing and Climbing
Designing the self-balancing two-wheeled mobile robots and reducing undesired vibrations are of great importance. For this purpose, the majority of researches are focused on application of relatively complex control approaches without improving the robot structure. Therefore, in this paper we introduce a new two-wheeled mobile robot which, despite its relative simple structure, fulfills the req...
full textTwo Wheeled Robot Self Balancing Control Research
According to movement balancing and position control problem of Self Balancing Two Wheeled Robot, a method based on H∞ Robust Control was proposed. We apply it onto the MIMO nonlinear model of robot, and simulated it in the MATLAB environment The simulation results shows that the robot can be balanced in fixed position well by this method, and also it have the ability to anti interference.
full textdynamic modeling and construction of a new two-wheeled mobile manipulator: self-balancing and climbing
designing the self-balancing two-wheeled mobile robots and reducing undesired vibrations are of great importance. for this purpose, the majority of researches are focused on application of relatively complex control approaches without improving the robot structure. therefore, in this paper we introduce a new two-wheeled mobile robot which, despite its relative simple structure, fulfills the req...
full textImplementation of Two Wheeled Self Balancing Platform
---------------------------------------------------------------------***--------------------------------------------------------Abstract The Self balancing robot is based on the inverted pendulum concept. In this concept an inverted pendulum is positioned on a cart and the cart is allowed to move on the horizontal axis and the pendulum is required to stand upright . This type of case is that of...
full textTwo-wheeled self-balancing autonomous robot
Two-wheeled balancing robots based on inverted pendulum configuration which relies upon dynamic balancing systems for balancing and maneuvering. The idea of a mobile inverted pendulum robot has focused in recent years and has attracted interest from control system researchers worldwide, research on a two-wheel inverted pendulum, which commonly known as the self-balancing robot. In this, the DC ...
full textMy Resources
Journal title
volume 8 issue 2
pages 1- 7
publication date 2015-03-01
By following a journal you will be notified via email when a new issue of this journal is published.
Hosted on Doprax cloud platform doprax.com
copyright © 2015-2023