The decoupling problem for a class of nonlinear MIMO time-delay systems is studied with differential geometric method.
利用微分几何方法研究了一类非线性多输入多输出时滞系统的解耦问题。
However, the abstract differential geometric method is lack of system theory for nonlinear system and relies on the precise of the system, which to some extent limited its application.
但是,由于抽象的微分几何理论缺乏面向非线性控制的系统理论,且它必须依赖于系统的精确数学模型,这严重制约了它在实际工程中的广泛应用。
According to the geometric character of the plant root systems, the method was designed to simulate the continuous growth of the plant root systems with differential L-systems theory.
本文根据植物根系的几何特征,结合植物根系的生长函数,探讨了微分l系统理论在植物根系模拟中的具体应用。
According to the geometric character of the plant root systems, the method was designed to simulate the continuous growth of the plant root systems with differential L-systems theory.
本文根据植物根系的几何特征,结合植物根系的生长函数,探讨了微分l系统理论在植物根系模拟中的具体应用。
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