1.Conventional predictive control algorithm possesses good overall performance, but it needs to solve the complicated Diophantine equation.
传统的预测控制算法虽然有着良好的性能,但是需要求解复杂的丢番图方程。
2.Diophantine equation; Positive integer solution; congruence; Recurrent sequence.
丢番图方程;正整数解;同余;递归序列。
3.The parameters of the controllers are directly determined by successively solving two Diophantine equations.
通过有步骤地解两个刁番都方程来直接确定控制器的各个参数。
4.Here introduce the basic algorithm of GPC, next give the introduction of recursive algorithm of Diophantine equations.
本文介绍了广义预测控制的基本算法,在此基础上给出了基于Diophantine方程的递推算法。
5.The Diophantine equation not only develop activity, but also be apply to Discrete Mathematics else field.
不定方程不仅自身发展活跃,而且全面应用于离散数学的其它各个领域。
6.This paper is to study several special kinds of Diophantine equation which contains the following five aspects: 1.
本论文的主要工作是对几类特殊丢番图方程进行研究。
7.On the upper bound for the positive integer solutions of the system of diophantine equations
关于不定方程组正整数解的上界
8.Generalization of a Diophantine equation in difference sets
差集中一个丢番图方程的推广
9.In the recent ten years, Diophantine equation not only develops itself very actively, but also promotes the development of other fields.
最近十余年,不定方程不仅自身的发展异常活跃,而且全面应用于其他各个领域。
10.The Relevant Solution of the Exponential Diophantine Equation
指数丢番图方程的有关解