Pruning is an essential agricultural practice for orchards. Proper pruning can promote healthier growth and optimize fruit production throughout the orchard{\textquoteright}s lifespan. Robot manipulators have been developed as an automated solution for this repetitive task, which typically requires seasonal labor with specialized skills. While previous research has primarily focused on the challenges of perception, the complexities of manipulation are often overlooked. These challenges involve planning and control in both joint and Cartesian spaces to guide the end effector through intricate, obstructive branches. Our work addresses the behavior planning challenge for a robotic pruning system, which entails a multilevel planning problem in environments with complex collisions. In this article, we formulate the planning problem for a high-dimensional robotic arm in a pruning scenario, investigate the system{\textquoteright}s intrinsic redundancies, and propose a comprehensive pruning workflow that integrates perception, modeling, and holistic planning. In our experiments, we demonstrate that more comprehensive planning methods can significantly enhance the performance of the robotic manipulator. Finally, we implement the proposed workflow on a real-world robot. As a result, this work complements previous efforts on robotic pruning and motivates future research and development in planning for pruning applications.
Liu, G, Boom, B, Slob, N, Durodié, Y, Nowe, A & Vanderborght, B 2025, 'Automated Behavior Planning for Fruit Tree Pruning via Redundant Robot Manipulators: Addressing the Behavior Planning Challenge', IEEE Robotics & Automation Magazine, pp. 2-12. https://doi.org/10.1109/MRA.2025.3559797
Liu, G., Boom, B., Slob, N., Durodié, Y., Nowe, A., & Vanderborght, B. (2025). Automated Behavior Planning for Fruit Tree Pruning via Redundant Robot Manipulators: Addressing the Behavior Planning Challenge. IEEE Robotics & Automation Magazine, 2-12. https://doi.org/10.1109/MRA.2025.3559797
@article{809b59a22e9940e1b390bcc2eafcabef,
title = "Automated Behavior Planning for Fruit Tree Pruning via Redundant Robot Manipulators: Addressing the Behavior Planning Challenge",
abstract = "Pruning is an essential agricultural practice for orchards. Proper pruning can promote healthier growth and optimize fruit production throughout the orchard{\textquoteright}s lifespan. Robot manipulators have been developed as an automated solution for this repetitive task, which typically requires seasonal labor with specialized skills. While previous research has primarily focused on the challenges of perception, the complexities of manipulation are often overlooked. These challenges involve planning and control in both joint and Cartesian spaces to guide the end effector through intricate, obstructive branches. Our work addresses the behavior planning challenge for a robotic pruning system, which entails a multilevel planning problem in environments with complex collisions. In this article, we formulate the planning problem for a high-dimensional robotic arm in a pruning scenario, investigate the system{\textquoteright}s intrinsic redundancies, and propose a comprehensive pruning workflow that integrates perception, modeling, and holistic planning. In our experiments, we demonstrate that more comprehensive planning methods can significantly enhance the performance of the robotic manipulator. Finally, we implement the proposed workflow on a real-world robot. As a result, this work complements previous efforts on robotic pruning and motivates future research and development in planning for pruning applications.",
keywords = "Agricultural robotics, Motion planning",
author = "Gaoyuan Liu and Bas Boom and Naftali Slob and Yuri Durodi{\'e} and Ann Nowe and Bram Vanderborght",
note = "Publisher Copyright: {\textcopyright} 1994-2011 IEEE.",
year = "2025",
month = apr,
day = "28",
doi = "10.1109/MRA.2025.3559797",
language = "English",
pages = "2--12",
journal = "IEEE Robotics & Automation Magazine",
issn = "1070-9932",
publisher = "Institute of Electrical and Electronics Engineers Inc.",
}