Learning robust, real-time, reactive robotic grasping
Queensland University of Technology · Australian Centre for Robotic Vision
Abstract
We present a novel approach to perform object-independent grasp synthesis from depth images via deep neural networks. Our generative grasping convolutional neural network (GG-CNN) predicts a pixel-wise grasp quality that can be deployed in closed-loop grasping scenarios. GG-CNN overcomes shortcomings in existing techniques, namely discrete sampling of grasp candidates and long computation times. The network is orders of magnitude smaller than other state-of-the-art approaches while achieving better performance, particularly in clutter. We run a suite of real-world tests, during which we achieve an 84% grasp success rate on a set of previously unseen objects with adversarial geometry and 94% on household items.…
Citation impact
- FWCI
- 26.64
- Percentile
- 100%
- References
- 58
Authors
3Topics & keywords
- GRASP
- Computer science
- Artificial intelligence
- Clutter
- Convolutional neural network
- Set (abstract data type)
- Object (grammar)
- Computer vision