Polarity Balance for Attractor Self-reproducing
Chunbiao Li,1,2,a)
Jiayu Sun,1,2 Tianai Lu,1,2 Julien Clinton
Sprott,3 and Zuohua Liu4
1Jiangsu Collaborative Innovation Center of
Atmospheric Environment and Equipment Technology
(CICAEET),Nanjing University of Information Science and
Technology, Nanjing210044, China
2Jiangsu Key Laboratory of
Meteorological Observation and Information Processing, Nanjing
University of Information Science and Technology, Nanjing
210044, China
3Department of Physics, University
of Wisconsin�Madison, Madison, Wisconsin 53706, USA
4State Key Laboratory of Coal Mine
Disaster Dynamics and Control, Chongqing University, Chongqing
400044, China
Submitted: 17 March 2020�Accepted: 3 June 2020
There are complex chaotic manifolds in practical
nonlinear dynamical systems, especially in nonlinear circuits
and chemical engineering. Any system attractor has its own
geometric and physical properties, such as granularity,
orientation, and spatiotemporal distribution. Polarity balance
plays an important role in the solution of a dynamical system
including symmetrization, attractor merging, and attractor
self-reproducing. The absolute value function and the signum
function manage and control the polarity balance, strictly
regulating the attractor distribution by switching the polarity
balances. Attractor self-reproducing is an attractive regime for
constructing the desired multistability,where the coexisting
attractors at different positions can be extracted by a selected
initial value. Polarity balance is the key factor for attractor
self-reproducing, where the offset boosting of an attractor
needs an available polarity controller to restore the imbalanced
polarity.
Ref: C. Li, J. Sun, T. Lu, J. C. Sprott, and Z. Liu, Chaos 30,
063144-1-10 (2020).
The complete paper is available in PDF
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