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Robotic green asparagus selective harvesting (2017)

Leu, A.; Razavi, M.; Langstädtler, L.; Ristic-Durrant, D.; Raffel, H.; Schenck, C.; Gräser, A.; Kuhfuß, B.

IEEE/ASME Transactions on Mechatronics, Volume PP, Issue 99, 2017, S. 1-10, DOI: 10.1109/TMECH.2017.2735861

Abstract

Robotic harvesting in the open field demands innovative solutions in robot perception and mechanics to cope with environmental challenges. In this paper, a prototype robotic harvester which is able to cope with the challenges of selective harvesting of green asparagus is presented. The harvester is able to drive along an asparagus dam in the field, detect asparagus stalks, identify stalks that are ready for harvesting, and to perform harvesting without damaging. These system abilities are enabled by a novel vision perception module and a novel harvesting mechanism. The perception module is based on 3D-point cloud processing and it is able to reliably and robustly detect the asparagus stalks, their positions, and dimensions. A novelty of proposed harvesting mechanism is a multi-tools solution to increase harvesting productivity. The results of the first outdoor field tests demonstrate the applicability of the presented robotic harvester.

Keywords: agricultural robotics, robotic harvesting system, green asparagus selective harvesting, robot vision

http://ieeexplore.ieee.org/search/searchresult.jsp?newsearch=true&queryText=Robotic%20green%20asparagus%20selective%20harvesting