Author:
Metzner Maximilian,Reisinger Dominik,Ortmann Jan-Niklas,Grünhöfer Lukas,Handwerker Andreas,Blank Andreas,Franke Jörg
Abstract
AbstractThis contribution defines a methodology for the direct offline programming of robotic high-precision assembly tasks without the need for real-world teach-in, even for less-accurate lightweight robots. Using 3D scanning technologies, the relevant geometrical relations of the offline programming environment are adjusted to the real application. To bridge remaining accuracy gaps, tactile insertion algorithms are provided. As repetitive inaccuracy compensation through tactile search is considered wasteful, a method to automatically adapt the robot program to continuously increase precision over time, taking into account multiple influence sets is derived. The presented methodology is validated on a real-world use case from electronics production.
Publisher
Springer International Publishing
Reference26 articles.
1. Agarwala, A.: Efficient gradient-domain compositing using quadtrees. ACM Trans. Graph. 26, 94 (2007)
2. ArtiMinds Robotics GmbH Artiminds Robot Programming Suite (2020). https://www.artiminds.com/de/. Accessed 24 Jul 2020
3. Arun, K.S., Huang, T.S., Blostein, S.D.: Least-squares fitting of two 3-d point sets. IEEE Trans.. Pattern Anal. Mach. Intell. 9, 698–700 (1987)
4. Bailey, T., Durrant-Whyte, H.: Simultaneous localization and mapping (SLAM): part II. IEEE Robot. Automat. Mag. 13, 108–117 (2006)
5. Calakli, F., Taubin, G.: SSD: smooth signed distance surface reconstruction. Comput. Graph. Forum 30, 1993–2002 (2011)
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