Dynamic Modeling and Parameter Estimation for Origami Structure Reconfiguration Process
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Abstract
The reconfiguration of origami during the folding and unfolding process is governed through a sequence of panel deformations and hinge orientations.
To develop an effective model for representing the reconfiguration process, this paper introduces planar straight-line graphs and a novel consensus protocol for reaching the target origami configuration.
The convergence and stability properties of the proposed consensus protocol are subsequently analyzed.
Furthermore, to account for aggregate material and structural effects in the proposed consensus-based reconfiguration model, effective parameters embedded in the consensus protocol are identified from trajectory data using a fitting algorithm.
Lastly, the effectiveness of the proposed modeling approach is shown using simulations of the two-panel structure and the Kresling origami pattern reconfiguration process.