1·The obstacle problem is the typical example of the elliptic variational inequality of the first kind.
薄膜障碍问题是第一类椭圆型变分不等式的代表性模型。
2·A convergence estimate and approximation for a kind of parabolic variational inequality is discussed.
本文讨论了一类抛物型变分不等式的近似收敛问题。
3·There are many iterative algorithms for the solution of variational inequality and fixed point of mappings.
我们考虑了这类变分不等式解的存在性及迭代逼近算法问题。
4·The third chapter mainly deals with the smooth method for second-order cone constrained variational inequality problems.
第三章主要用光滑化方法求解二阶锥约束变分不等式。
5·We obtain the existence and uniqueness of the classical solution by its equivalent parabolic quasi variational inequality.
利用其等价的抛物拟变分不等式,得到了该问题古典解的存在唯一性。
6·Sensitivity analysis for multimodal equilibrium assignment variational inequality model is proposed, and a numeral example is given.
本文对多模式均衡配流变分不等式模型进行了灵敏度分析,并给出了数值算例。
7·In this paper, we investigate the relationship of strict feasibility and solv - ability for the multivalued vector variational inequality.
本文研究集值向量变分不等式的严格可行性与可解性之间的关系。
8·Unconventional double set parameter finite element approximation for a fourth order variational inequality with displacement obstacle is considered.
研究位移障碍下的一个四阶变分不等式的非常规双参数有限元逼近。
9·Finally in the third part, we study the optimal control problems for the variational inequality with delays in the highest order spatial derivatives.
第三部分讨论最高阶偏导数项具有时滞的变分不等式的最优控制问题。
10·Based on the theory of variational inequality, a direct solution method of one-dimensional problem is developed which efficiently solves the Reynolds equation.
基于变分不等方程理论,雷诺方程采用一维直接解法求解。