| 1. | Two new proofs of arithmetie - geometrie inequation
不等式的两种新证法 |
| 2. | On several methods to prove inequation
不等式证明的几种常用方法 |
| 3. | Jensen inequation and its applications
不等式的推广 |
| 4. | The condition of the stability of closed - loop system is finally listed as linear matrix inequation
闭环系统的稳定性条件最终是以线性矩阵不等式的形式给出的。 |
| 5. | Cauchy - inequality is a very important inequation , which can be properly used to solve some relatively difficult problems
柯西不等式是一个重要的不等式,灵活地应用它,可使一些较为困难的问题得以解决。 |
| 6. | Cauchy - inequality is an important inequation , which , when applied deftly ( or skillfully ) , can be used to solve some relatively difficult problems
柯西不等式是一个重要的不等式,灵活地应用它,可使一些较为困难的问题得以解决。 |
| 7. | Then the application of cauchy - inequality is illustrated by proving a proposition or an inequation , solving a triangle , and finding a solution to an equation or the maximum value & minimum value of a function
然后给出了柯西不等式在命题证明、不等式证明、求解三角形问题、函数最值、解方程等方面的应用。 |
| 8. | Defining the minimax robust control of discrete time - delay systems , the existence condition and design method of minimax robust controller are given by the lyapunov method and lmi ( linear matrix inequation )
给出离散时滞系统的极小极大控制定义,利用李亚普诺夫方法和线性矩阵不等式( lmi )方法给出了极小极大鲁棒控制器的存在条件和设计方法。 |
| 9. | In the higher mathematics category , routine methods to work out the proof of an inequation are a flexible use of mathematical knowledge like monotonicity of functions , extremum values , maximum and minimum values , convexity function , medium value theorem , taylor equation , holder inequation , schwarz inequation , and the analysis , formation and transformation of inequation problems as well
摘要在高等数学?畴中,灵活运用函数的单调性、极值、最值、凸性函数、以及中值定理与泰勒公式、赫尔德不等式、施瓦兹不等式等数学知识,对不等式问题进行分析、构造与转化,是解决不等式的证明问题的常用方法。 |
| 10. | The other classfies the calculation of mbps into the solution of inequation based on heuristic knowledge of mbps of optimal directional coordination setting in complex multiloop network and comes into equivalence of 0 - 1 integral second layout problem . on the basis of the principle of gene optimal evolution , a new approach to determine mbps is first presented and decreases the computational complexity of mbps problem
其二,利用复杂环网方向保护最优整定配合中最小断点集( mbps )的启发知识,将mbps的计算归结为解不等式,进而等价为0 ? 1整数二次规划问题,基于基因遗传优化计算原理,首次提出了mbps问题的基因遗传算法,降低了问题的计算复杂性。 |
