Abstract
This paper proposes a hybrid singulation approach combining dynamic scattering and pushing techniques. Using the impulse-based dynamic model, a guideline is provided to decide whether scattering or pushing is conducted for object singulation. The Soma cube consisting of seven blocks is used as the test example. The target is to singulate all the blocks. The dynamic scattering technique was initially applied to separate blocks in the formation. However, scattering alone does not provide target singulation in all the cases. So we combine the quasi-static pushing technique to complete the singulation of all the blocks. In pushing, image segmentation based on principal component analysis (PCA) algorithm was employed to singulate multiple blocks in clutter and prehensile manipulation was used to remove isolated blocks. Several 2-D formations of the Soma cube are used as the test cases. To validate the effectiveness of our approach, we have conducted comparative analysis which clearly shows that the hybrid singulation achieves singulation in much less time as compared to the pure pushing approach.
Highlights
Picking up objects among clutter seems easy for humans because the human brain instantly and intuitively determines different ways to complete the task
The complete methodology to estimate the physical properties of objects such as coefficient of friction, coefficient of restitution, and mass ratios is proposed by Imran et al [15]
We would like to extend this study to target based hybrid singulation: where a desired target object can be singulated using the current approach. Both prehensile and non-prehensile manipulations are used for object singulation in cluttered environment
Summary
Picking up objects among clutter seems easy for humans because the human brain instantly and intuitively determines different ways to complete the task. In case of quasi-static manipulation (i.e., pushing for object singulation), there is always a contact between the object and the manipulator. Physics engine based robotic pushing has been proposed for different scenarios. They utilized object tuning and modelling for the accurate prediction of the behaviors of the object [6]. Proposed a scattering based singulation technique to isolate the objects cluttered in the environment. Dynamic and quasi static manipulations alone cannot achieve the desired object singulation for every possible case. Combination of dynamic and quasi-static manipulation would be beneficial for effective object singulation. This paper proposes a hybrid approach combining dynamic and quasi-static manipulation. Discussions in 7 and conclusions are drawn in Section 8, respectively
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
