| 1. | Chaos phenomena of the third - order nonlinear autonomic circuit
三阶非线性自治电路的混沌现象 |
| 2. | Non - linear circuit vibrate - periodie bifurcation and chaos phenomenon
非线性电路振动周期的分岔与混沌现象 |
| 3. | The chaos phenomenon is one of the most important science discoveries
混沌现象是20世纪人类最重要的科学发现之一。 |
| 4. | Digital simulation of chaos phenomena in brushless thruster motor for deepwater robot
深海机器人无刷推进电机混沌现象的数字仿真 |
| 5. | Therefore , researchers began to study how to control and utilize chaos phenomenon
为此,近十几年来人们开始研究如何控制和利用混沌现象。 |
| 6. | With the further research of chaos phenomenon , chaos control and synchronization becomes an advanced research field
并且随着对混沌现象研究的不断深入,混沌控制和同步成为这一领域的前沿课题。 |
| 7. | For about half a century , chaos phenomenon and its theory has been promoting the development of non - linear science
近半个世纪以来,科学工作者揭示的非线性系统中的混沌现象及其建立的理论,极大地促进了非线性科学的发展。 |
| 8. | The bifurcation and chaos phenomena in power systems come from the intrinsic nonlinear and non - autonomous characters . they have important impacts in the static performance and security
电力系统分岔与混沌现象源自系统固有的非线性非自治特性,对系统的静态性能及安全稳定运行有着重要影响。 |
| 9. | Take college physics teaching as example , in recent years , non - linear chaos phenomenon has been included in many textbooks and taken as the focus of content reform
以大学物理教学为例,近些年许多面向二十一世纪的大学物理教材中,都把非线性混沌现象纳入其中,作为物理教学内容改革的重点之一。 |
| 10. | Along with the further understanding of chaos phenomenon , how to apply the chaos research archivement to serve for the humanity has became one important topic which the non - linear science developments proposed
随着对混沌现象认识的深入,如何应用混沌研究成果为人类服务已成为非线性科学发展提出的一个重要课题。 |
