中文摘要：

由于Chen系统的控制分析大都是基于同一时间尺度，而两时间尺度耦合问题的相关研究基本上局限于单维慢变量情形。本文探讨了基于慢时间尺度上的Duffing振子，即含有两维慢子系统控制下Chen系统的动力学演化过程。给出了诸如对称式fold/fold、对称式fold/Hopf、对称式homoclinic/homoclinic等不同形式的簇发振荡行为，并揭示了其相应的产生机制，指出慢子系统中两维慢变量的相互影响导致系统产生了类似于周期激励下的簇发行为。

英文摘要：

Since most of the work relevant to the control of Chen system is based on the same time scale, and the results associated with the coupled systems with two time scales are mainly for the cases with only one slow variable, in this paper we investigate the dynamical evolution of the Chen system with the controller described by Duffing oscillator on a slow time scale, which implies two slow variables may be involved in the coupled vector field. Different types of bursting oscillations such as the symmetric fold/fold bursting, symmetric fold/Hopf bursting, symmetric homoclinic/homoclinic bursting, and mechanism are presented, revealing that the mutual influence between the two slow variables may cause the bursting behaviors similar to those in the periodic excited systems.