Your search keyword '"Wei, Mengke"' showing total 3 results

1. A new route to pulse-shaped explosion and its induced bursting dynamics

Author

Wei, Mengke, Jiang, Wenan, Ma, Xindong, Han, Xiujing, and Bi, Qinsheng

Published

2021

2. Complex Bursting Patterns in a van der Pol–Mathieu–Duffing Oscillator.

Author

Ma, Xindong, Song, Jin, Wei, Mengke, Han, Xiujing, and Bi, Qinsheng

Subjects

OSCILLATIONS, VANS

Abstract

The pulse-shaped explosion (PSE), characterized by the pulse-shaped quantitative of system solutions varying dramatically, is a special route to bursting oscillations reported recently. This paper reports interesting dynamical behaviors related to the PSE of equilibria, and based on that, the complex bursting dynamics is investigated in a van der Pol–Mathieu–Duffing system with multiple-frequency slow-varying excitations. We find that bifurcations can be observed in a narrow parameter interval within PSE. We also show that two groups of bifurcations are symmetrically arranged on both sides of PSE, and each of which determines a different bursting part. Based on this, two compound bursting patterns, i.e. compound Hopf/Hopf bursting oscillation and compound subHopf/fold cycle bursting oscillation, and a novel type of relaxation oscillation (bursting oscillation of point/point) independent of bifurcations, are revealed. Our results enrich the knowledge of dynamical behaviors related to PSE as well as the possible routes to complex bursting dynamics. [ABSTRACT FROM AUTHOR]

Published

2021

3. Compound bursting dynamics in a parametrically and externally excited mechanical system.

Author

Wei, Mengke, Jiang, Wenan, Ma, Xindong, Zhang, Xiaofang, Han, Xiujing, and Bi, Qinsheng

Subjects

*BIFURCATION diagrams

Abstract

• Compound bursting of "supHopf/homoclinic-fold/supHopf" type. • Compound bursting of "supHopf/supHopf-fold/supHopf" type. • Dynamical mechanisms of compound bursting patterns are investigated. • Transition of compound bursting is explored by two-parameter bifurcation analysis. This paper aims to report complex bursting dynamics in a parametrically and externally excited mechanical system. Typically, two compound bursting patterns, i.e., bursting of "supHopf/homoclinic-fold/supHopf" type and bursting of "supHopf/supHopf-fold/supHopf" type, composed of two different clusters during each period of bursting, can be observed in this system. To begin with, the generation of each of the two clusters in compound bursting of "supHopf/homoclinic-fold/supHopf" type is investigated by the fast-slow analysis. Then, a two-parameter bifurcation diagram is plotted to investigate the transition of the compound bursting. We show that there are two originally disunited active areas, which may inosculate as a whole by homoclinic bifurcations if the system parameter varies properly. Based on this, a different type of compound bursting, i.e., bursting of "supHopf/supHopf-fold/supHopf" type, is revealed. [ABSTRACT FROM AUTHOR]

Published

2021