Mobile Manipulator
Mobile manipulators, robots combining mobile bases with robotic arms, aim to achieve versatile manipulation in dynamic environments. Current research emphasizes robust perception (e.g., using multiple viewpoints and attention mechanisms), accurate scene modeling (including articulated objects), and efficient motion planning (incorporating kinodynamic constraints and whole-body control for collision avoidance). These advancements are crucial for applications ranging from industrial automation and assistive robotics to planetary exploration, improving task success rates and enabling complex interactions in unstructured settings.
Papers
Current-Based Impedance Control for Interacting with Mobile Manipulators
Jelmer de Wolde, Luzia Knoedler, Gianluca Garofalo, Javier Alonso-Mora
Diagrammatic Instructions to Specify Spatial Objectives and Constraints with Applications to Mobile Base Placement
Qilin Sun, Weiming Zhi, Tianyi Zhang, Matthew Johnson-Roberson