Showing total 2 results

1. A Mathematical Model to Estimate the Position of Mobile Robot by Sensing Caster Wheel Motion

Author

Amarendra Jnana H., Mathew Robins, and Hiremath Somashekhar S.

Subjects

mobile robot, caster wheel, position estimation, kinematics, simulation, Engineering (General). Civil engineering (General), TA1-2040

Abstract

This paper describes the position estimation of mobile robot by sensing caster wheel motion. A mathematical model is developed to determine the position of mobile robot by sensing the angular velocity and heading angle of the caster wheel. Using the established equations, simulations were carried out using MATLAB version 8.6 to observe and verify the position coordinates of mobile robot and in turn obtain its trajectory. The simulation results show that the angular velocity of caster wheel and heading angle calculated from the sensor output readings with the help of inverse kinematics equations matches well with that of actual values given as input for simulation. Simulation result of tracking rectangular trajectory implies that the path traced by the mobile robot can also be determined from the sensor output readings. This concept can be implemented on a real mobile robot for estimation of its position.

Published

2018

2. A Mathematical Model to Estimate the Position of Mobile Robot by Sensing Caster Wheel Motion

Author

Amarendra Jnana H., Mathew Robins, and Hiremath Somashekhar S.

Subjects

mobile robot, caster wheel, position estimation, kinematics, simulation, Engineering (General). Civil engineering (General), TA1-2040

Abstract

This paper describes the position estimation of mobile robot by sensing caster wheel motion. A mathematical model is developed to determine the position of mobile robot by sensing the angular velocity and heading angle of the caster wheel. Using the established equations, simulations were carried out using MATLAB version 8.6 to observe and verify the position coordinates of mobile robot and in turn obtain its trajectory. The simulation results show that the angular velocity of caster wheel and heading angle calculated from the sensor output readings with the help of inverse kinematics equations matches well with that of actual values given as input for simulation. Simulation result of tracking rectangular trajectory implies that the path traced by the mobile robot can also be determined from the sensor output readings. This concept can be implemented on a real mobile robot for estimation of its position.

Published

2018