My Papers

2018

Doug Morrison, Peter Corke, Juxi Leitner
Robotics: Science and Systems (RSS), 2018
This paper presents a real-time, object-independent grasp synthesis method which can be used for closed-loop grasping. The lightweight and single-pass generative nature of our GG-CNN allows for closed-loop control at up to 50Hz, enabling accurate grasping in non-static environments where objects move and in the presence of robot control inaccuracies.
Doug Morrison, AW Tow, M McTaggart, R Smith, N Kelly-Boxall, S Wade-McCue, J Erskine, R Grinover, A Gurman, T Hunn, D Lee, A Milan, T Pham, G Rallos, A Razjigaev, T Rowntree, K Vijay, Z Zhuang, C Lehnert, I Reid, P Corke, J Leitner
International Conference on Robotics and Automation (ICRA), 2018
A system-level description of Cartman, our winning entry into the 2017 Amazon Robotics Challenge.
A. Milan, T. Pham, K. Vijay, D. Morrison, A.W. Tow, L. Liu, J. Erskine, R. Grinover, A. Gurman, T. Hunn, N. Kelly-Boxall, D. Lee, M. McTaggart, G. Rallos, A. Razjigaev, T. Rowntree, T. Shen, R. Smith, S. Wade-McCue, Z. Zhuang, C. Lehnert, G. Lin, I. Reid, P. Corke, J. Leitner
International Conference on Robotics and Automation (ICRA), 2018
We present our approach for robotic perception in cluttered scenes that led to winning the recent Amazon Robotics Challenge (ARC) 2017. In contrast to traditional approaches which require large collections of annotated data and many hours of training, the task here was to obtain a robust perception pipeline with only few minutes of data acquisition and training time. To that end, we present two strategies that we explored.

2017

Doug Morrison, Peter Corke, Jürgen Leitner
"Towards robust grasping and manipulation skills for humanoids" Workshop at the IEEE-RAS International Conference on Humanoid Robots, 2017
We present a generative grasping network which encodes a one-to-one mapping from the RGB-D image space to the grasping space, rather than relying on grasp candidate sampling.
Doug Morrison, Norton Kelly-Boxall, Sean Wade-McCue, Peter Corke, Jürgen Leitner
"Towards robust grasping and manipulation skills for humanoids" Workshop at the IEEE-RAS International Conference on Humanoid Robots, 2017
We present a heuristic-based grasp detection system which uses a hierarchy of three different strategies to operate successfully under varying levels of visual uncertainty.
S. Wade-McCue, N. Kelly-Boxall, M. McTaggart, D. Morrison, A.W. Tow, J. Erskine, R. Grinover, A. Gurman, T. Hunn, D. Lee, A. Milan, T. Pham, G. Rallos, A. Razjigaev, T. Rowntree, R. Smith, K. Vijay, Z. Zhuang, C. Lehner, I. Reid P. Corke, and J. Leitner
Tech Report (on arXiv)
We present the grasping system behind Cartman, the winning robot in the 2017 Amazon Robotics Challenge.

2014

Doug Morrison, Udantha Abeyratne
Journal of Food Engineering 141 (2014)
A publication from my undergraduate thesis, nothing to do with robots. I built a custom, hand-held ultrasound device that could evaluate the quality of oranges by relating ultrasonic surface reflections to hydration and firmness.