Learning to Regrasp by Learning to Place
This addresses a challenging manipulation problem for robotics in domains like manufacturing and domestic services, with incremental improvements in method integration.
The paper tackles the problem of enabling robots to regrasp diverse objects to achieve desired grasp poses by proposing a system that uses partial point clouds and outputs pick-and-place sequences, demonstrating effectiveness in simulator and real-world experiments.
In this paper, we explore whether a robot can learn to regrasp a diverse set of objects to achieve various desired grasp poses. Regrasping is needed whenever a robot's current grasp pose fails to perform desired manipulation tasks. Endowing robots with such an ability has applications in many domains such as manufacturing or domestic services. Yet, it is a challenging task due to the large diversity of geometry in everyday objects and the high dimensionality of the state and action space. In this paper, we propose a system for robots to take partial point clouds of an object and the supporting environment as inputs and output a sequence of pick-and-place operations to transform an initial object grasp pose to the desired object grasp poses. The key technique includes a neural stable placement predictor and a regrasp graph-based solution through leveraging and changing the surrounding environment. We introduce a new and challenging synthetic dataset for learning and evaluating the proposed approach. We demonstrate the effectiveness of our proposed system with both simulator and real-world experiments. More videos and visualization examples are available on our project webpage.