This paper describes the design and implementation of a self-balancing two-wheeled robot, the Equilibrist Robot. The system is similar to the classical unstable, non-linear mechanical control problem of an inverted pendulum on a cart. Using the Linear Quadratic Regulator method and PID for state feedback, this paper shows a control algorithm that solves this problem. This control is able to reject disturbances and stabilize the system using a gyroscope. The control algorithm is implemented using Matlab and C- programing. The Equilibrist manages to stabilize itself in an upright position, reject disturbances and change its position.(undefined)info:eu-repo/semantics/publishedVersio
This paper introduces the development of a LEGO based self-balancing robot for the purpose of teachi...
To make a robot that can balance on two wheels. There will be only one axle connecting the two wheel...
The idea of a two-wheeled inverted pendulum or self-balancing robot has appeared in the last years a...
This project involves the development of a microcontroller based controller for a 2-wheel self-bal...
Two-wheeled balancing robots are an area of research that may well provide the future locomotion for...
Abstract—A two-wheeled self-balancing robot is a special type of wheeled mobile robot, its balance p...
A two-wheeled self-balancing robot (TWSBR) is an underactuated system that is inherently nonlinear a...
Two-wheeled self-balancing robot is a popular model in control system experiments which is more wide...
Research on balancing two-wheeled robot has gained interest among researchers due to its highly nonl...
We previously developed a novel composite wheel-leg-track explosive ordnance disposal (EOD) robot wi...
Robotic mobility technologies have become more and more popular over the past few years. The inverte...
The Segway Human Transport (HT) robot, it is dynamical self-balancing robot type. The stability cont...
Abstract: The problem on a stabilisation of the equilibrium position of the robot is inves...
Robots have been used in many applications in the past three decades. One type of robot is a two-whe...
Self-balancing robot is based on the principle of Inverted pendulum, which is a two-wheel vehicle ba...
This paper introduces the development of a LEGO based self-balancing robot for the purpose of teachi...
To make a robot that can balance on two wheels. There will be only one axle connecting the two wheel...
The idea of a two-wheeled inverted pendulum or self-balancing robot has appeared in the last years a...
This project involves the development of a microcontroller based controller for a 2-wheel self-bal...
Two-wheeled balancing robots are an area of research that may well provide the future locomotion for...
Abstract—A two-wheeled self-balancing robot is a special type of wheeled mobile robot, its balance p...
A two-wheeled self-balancing robot (TWSBR) is an underactuated system that is inherently nonlinear a...
Two-wheeled self-balancing robot is a popular model in control system experiments which is more wide...
Research on balancing two-wheeled robot has gained interest among researchers due to its highly nonl...
We previously developed a novel composite wheel-leg-track explosive ordnance disposal (EOD) robot wi...
Robotic mobility technologies have become more and more popular over the past few years. The inverte...
The Segway Human Transport (HT) robot, it is dynamical self-balancing robot type. The stability cont...
Abstract: The problem on a stabilisation of the equilibrium position of the robot is inves...
Robots have been used in many applications in the past three decades. One type of robot is a two-whe...
Self-balancing robot is based on the principle of Inverted pendulum, which is a two-wheel vehicle ba...
This paper introduces the development of a LEGO based self-balancing robot for the purpose of teachi...
To make a robot that can balance on two wheels. There will be only one axle connecting the two wheel...
The idea of a two-wheeled inverted pendulum or self-balancing robot has appeared in the last years a...