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Main Author: Plessen, Mogens
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2504.00732
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author Plessen, Mogens
author_facet Plessen, Mogens
contents This paper presents within an arable farming context a predictive logic for the on- and off-switching of a set of nozzles. The predictive logic is tailored to a specific path planning pattern. The nozzles are assumed to be attached to a boom aligned along a working width and carried by a machinery with the purpose of applying spray along the working width. The machinery is assumed to be traveling along the specific path planning pattern. Concatenation of multiple of those path patterns and corresponding concatenation of proposed switching logics enables nominal lossless spray application for area coverage tasks. Proposed predictive switching logic is compared to the common and state-of-the-art reactive switching logic for Boustrophedon-based path planning for area coverage. The trade-off between reduction in pathlength and increase in the number of required on- and off-switchings for proposed method is discussed.
format Preprint
id arxiv_https___arxiv_org_abs_2504_00732
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Predictive Spray Switching for an Efficient Path Planning Pattern for Area Coverage
Plessen, Mogens
Robotics
This paper presents within an arable farming context a predictive logic for the on- and off-switching of a set of nozzles. The predictive logic is tailored to a specific path planning pattern. The nozzles are assumed to be attached to a boom aligned along a working width and carried by a machinery with the purpose of applying spray along the working width. The machinery is assumed to be traveling along the specific path planning pattern. Concatenation of multiple of those path patterns and corresponding concatenation of proposed switching logics enables nominal lossless spray application for area coverage tasks. Proposed predictive switching logic is compared to the common and state-of-the-art reactive switching logic for Boustrophedon-based path planning for area coverage. The trade-off between reduction in pathlength and increase in the number of required on- and off-switchings for proposed method is discussed.
title Predictive Spray Switching for an Efficient Path Planning Pattern for Area Coverage
topic Robotics
url https://arxiv.org/abs/2504.00732