| Literature DB >> 32503024 |
Fabio Tedone1, Emanuela Del Dottore2, Michele Palladino3, Barbara Mazzolai4, Pierangelo Marcati1.
Abstract
This paper aims to propose a novel approach to model the dynamics of objects that move within the soil, e.g. plants roots. One can assume that external forces are significant only at the tip of the roots, where the plant's growth is actuated. We formulate an optimal control problem that minimises the energy spent by a growing root subject to physical constraints imposed by the surrounding soil at the tip. We study the motion strategy adopted by plant roots to facilitate penetration into the soil, which we hypothesize to be a circumnutation movement. By solving the proposed optimal control problem numerically, we validate the hypothesis that plant roots adopt a circumnutation motion pattern to reduce soil penetration resistance during growth. The proposed formalisation could be applied to replicate such a biological behaviour in robotic systems, to adopt the most efficient strategy for autonomous devices in soil exploration. Creative Commons Attribution license.Keywords: bioinspiration; circumnutation; optimal control theory; plant-inspired-robot
Year: 2020 PMID: 32503024 DOI: 10.1088/1748-3190/ab9a15
Source DB: PubMed Journal: Bioinspir Biomim ISSN: 1748-3182 Impact factor: 2.956