This is the slide used for IEEE International Conference on Robotics and Automation (ICRA) 2017, Workshop on Learning and Control for Autonomous Manipulation Systems on June 2nd, 2017.
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FCN-Based 6D Robotic Grasping for Arbitrary Placed Objects
1. Hitoshi Kusano*, Ayaka Kume+, Eiichi Matsumoto+, Jethro Tan+
June 2, 2017
*Kyoto University
+Preferred Networks, Inc.
FCN-Based 6D Robotic Grasping
for Arbitrary Placed Objects
※This work is the output of Preferred Networks internship program
2. Requirement for successful robotic grasping:
Derive configurations of a robot and its end-effector
e.g. Grasp pose, Grasp width, Grasp height, Joint angle
・Traditional approach decomposes grasping process into
several stages, which require many heuristics
・Machine learning based end-to-end approach has emerged
Background
http://www.schunk-modular-robotics.com/
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Complex end-effector Cluttered environment
3. None of prior methods can predict 6D grasp
Previous Work
~ Machine learning based end-to-end approach ~
Pinto2016 Levine2016
Araki2016 Guo2017
(x, y)height
width
2/9
(x, y, z, roll, pitch, yaw)
4. Our purpose:
End-to-End learning to grasp arbitrary placed objects
Contribution:
○ Novel data collection strategy to obtain 6D grasp
configurations using a teach tool by human
○ End-to-end CNN model predicting 6D grasp configurations
Purpose and Contribution
(x, y, z, w, p, r)
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5. ● An extension for Fully Convolutional Networks
● Outputs two maps with scores: Location Map for graspability per pixel, and
Configuration Map providing end-effector configurations (z, w, p, r) per pixel
● For Configuration Map, this network classifies valid grasp configurations to
300 classes, NOT regression
Grasp Configuration Network
(x, y, z, w, p, r)
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Location MapConfiguration Map
6. Data Collection
Simple teach tool Data Collection
We demonstrated 11320 grasps for 7 objects
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Robotic Gripper
https://www.thk.com
X
7. A. Intel Realsense SR300 RGB-D camera
B. Arbitrary placed object
C. THK TRX-S 3-finger gripper
D. FANUC M-10iA 6 DOF robot arm
Experiment Setup
B
C
D
A
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8. ● Predicted grasp configurations for the same (X,Y) location
Example of predicted grasp configurations
Cap
Bottle
TOP VIEW FRONT VIEW
Grasp Candidate Grasp Candidate
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9. Known Objects Unknown Objects
Results of robotic experiment
70% 50% 60% 40%
20% 40% 60%
Number under the figure means success rate for 10 trials
60% 20% 20% 40% 30%
8/9
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