Computer-assisted global analysis for vibro-impact dynamics: a reduced smooth maps approach
Computer-assisted global analysis for vibro-impact dynamics: a reduced smooth maps approach
We present a novel approach for studying the global dynamics of a vibro-impact pair, that is, a ball moving in a harmonically forced capsule. Motivated by a specific context of vibro-impact energy harvesting, we develop the method with broader non-smooth systems in mind. The seeming complications of the impacts of the ball with the capsule are exploited as useful non-smooth features in selecting appropriate return maps. This choice yields a computationally efficient framework for constructing return maps on short-time realizations from the state space of possible initial conditions rather than via long-time simulations often used to generate more traditional maps. The different dynamics in sub-regions in the state space yield a small collection of reduced polynomial approximations. Combined into a piecewise composite map, these capture transient and attracting behaviors and reproduce bifurcation sequences of the full system. Further "separable'' reductions of the composite map provide insight into both transient and global dynamics. This composite map is valuable for cobweb analysis, which opens the door to computer-assisted global analysis and is realized via conservative auxiliary maps based on the extreme bounds of the maps in each subregion. We study the global dynamics of energetically favorable states and illustrate the potential of this approach in broader classes of dynamics.
math.DS
1891-1944
Bao, Lanjing
980fc7b4-23e0-48a6-b975-1e2e06050b0b
Kuske, Rachel
bc23aa89-d93d-4210-921c-20cf31931417
Yurchenko, Daniil
51a2896b-281e-4977-bb72-5f96e891fbf8
Belykh, Igor
7f9d75ae-c950-4b12-a194-4383eb10817e
9 June 2025
Bao, Lanjing
980fc7b4-23e0-48a6-b975-1e2e06050b0b
Kuske, Rachel
bc23aa89-d93d-4210-921c-20cf31931417
Yurchenko, Daniil
51a2896b-281e-4977-bb72-5f96e891fbf8
Belykh, Igor
7f9d75ae-c950-4b12-a194-4383eb10817e
Bao, Lanjing, Kuske, Rachel, Yurchenko, Daniil and Belykh, Igor
(2025)
Computer-assisted global analysis for vibro-impact dynamics: a reduced smooth maps approach.
SIAM Journal of Applied Dynamical Systems, 24 (2), .
(doi:10.48550/arXiv.2404.06291).
Abstract
We present a novel approach for studying the global dynamics of a vibro-impact pair, that is, a ball moving in a harmonically forced capsule. Motivated by a specific context of vibro-impact energy harvesting, we develop the method with broader non-smooth systems in mind. The seeming complications of the impacts of the ball with the capsule are exploited as useful non-smooth features in selecting appropriate return maps. This choice yields a computationally efficient framework for constructing return maps on short-time realizations from the state space of possible initial conditions rather than via long-time simulations often used to generate more traditional maps. The different dynamics in sub-regions in the state space yield a small collection of reduced polynomial approximations. Combined into a piecewise composite map, these capture transient and attracting behaviors and reproduce bifurcation sequences of the full system. Further "separable'' reductions of the composite map provide insight into both transient and global dynamics. This composite map is valuable for cobweb analysis, which opens the door to computer-assisted global analysis and is realized via conservative auxiliary maps based on the extreme bounds of the maps in each subregion. We study the global dynamics of energetically favorable states and illustrate the potential of this approach in broader classes of dynamics.
Text
2404.06291v2
- Author's Original
Text
GT_EH (1)
- Accepted Manuscript
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Accepted/In Press date: 26 January 2025
Published date: 9 June 2025
Keywords:
math.DS
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Local EPrints ID: 501821
URI: http://eprints.soton.ac.uk/id/eprint/501821
PURE UUID: 316832e9-c3b8-43af-8bac-570b68bdbb7b
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Date deposited: 10 Jun 2025 16:55
Last modified: 22 Aug 2025 02:34
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Contributors
Author:
Lanjing Bao
Author:
Rachel Kuske
Author:
Daniil Yurchenko
Author:
Igor Belykh
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