What question did this study set out to answer?

This research aims to develop control strategies for a spherical robot navigating uneven surfaces.

April 26, 2026

Optimal Control of the Movement of a Spherical Robot on Uneven Surfaces

Key Points

This research aims to develop control strategies for a spherical robot navigating uneven surfaces.
Developed a mathematical model for continuous robot movement on uneven surfaces.
Synthesize state-feedback control laws for trajectory following.
Conducted computer simulations to validate the effectiveness of the control laws.
The control laws successfully guided the robot along the intended trajectories in simulations.
Computer simulations showed improved movement stability on uneven surfaces.
A potential implementation using an electromagnetic drive for motion generation was discussed.

Abstract

We consider a mathematical model of the continuous movement of a spherical robot over an arbitrary uneven surface, as well as a reduced model that excludes slipping and twisting. State-feedback control laws are synthesized to ensure that the robot moves along a given trajectory. The effectiveness of the proposed control laws is demonstrated by computer simulation results. A possible implementation of an electromagnetic drive for generating the robot’s motion is discussed.

Optimal Control of the Movement of a Spherical Robot on Uneven Surfaces

Key Points

Abstract

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