Cooperative Distributed Robust Control of Modular Mobile Robots with Bounded Curvature and Velocity
This addresses motion control for modular mobile robots, but it is incremental as it builds on existing control methods for a specific robot configuration.
The paper tackled motion control for Compliant Framed wheeled Modular Mobile Robots by combining a bounded curvature-based kinematic controller with a nonlinear damping dynamic controller, achieving efficient posture regulation in experiments.
A novel motion control system for Compliant Framed wheeled Modular Mobile Robots (CFMMR) is studied in this paper. This type of wheeled mobile robot uses rigid axles coupled by compliant frame modules to provide both full suspension and enhanced steering capability without additional hardware. The proposed control system is developed by combining a bounded curvature-based kinematic controller and a nonlinear damping dynamic controller. In particular, multiple forms of controller interaction are examined. A twoaxle scout CFMMR configuration is used to evaluate the different control structures. Experimental results verify efficient motion control of posture regulation.