根据边值问题的唯一性原理,由此积分解表达式给出了第一类和第二类边界条件的积分解表达式。
According to uniqueness theorem, the integral formulations of the first class boundary condition and the second class boundary condition are given form the above integral formulation.
其工作原理如下:用户第一次访问某个站点时,就会安装一个追踪文件,该文件给计算机分配一个唯一性的ID号。
They work like this: The first time a site is visited, it installs a tracking file, which assigns the computer a unique ID number.
在匹配的第二阶段实现细匹配,利用视差相容原理对粗匹配阶段得到的候选匹配点进行唯一性匹配。
In the second stage of fine matching, the unique matching for candidate points is done with disparity correlation.
利用该弱极大值原理,证明了对于第一类、第二类和第三类边值问题,水汽方程解的唯一性和稳定性。
By using the weak maximum principle, the uniqueness and stability of the solution of water vapour equation with the first, second and third boundary-value problems were proven.
利用比较原理,研究了问题解的存在性,唯一性及其渐近性态。
Using the comparison principle, the existence, uniqueness and its asymptotic behavior of solution for the problem are studied.
然后利用压缩映象原理方法,证明了方程局部广义解的存在唯一性;
Secondly, the existence and uniqueness of the generalized local solution is obtained using the contraction mapping principle.
文章主要建立了四类四阶半线性椭圆型方程解的极大值原理,并得到了相应边值问题的解的唯一性定理。
In this paper, the maximum principles for solutions of four classes of semi-linear ellipic equations are established.
先给出这些问题的提法,然后使用列紧性原理和极值原理证明了上述二阶椭圆型方程边值解的存在性和唯一性。
Fristly the boundary value problems for the equations is formulated, and then by using the compactness principle, the existence of solutions for the above problems is proved.
本文应用压缩映象原理证明了一阶隐式微分方程解的存在唯一性定理。
Using the contraction mapping principle, we proved a theorem about the existence of solution for initial value problem of a class of implicit ordinary differential equations of the first order.
文章主要建立了四类四阶半线性椭圆型方程解的极大值原理,并得到了相应边值问题的解的唯一性定理。
The result that the blow-up set of the problem is a compact subset was proved by the reflective principle and the maximum principle, and the blow-up rate of the solutions was obtained.
文章主要建立了四类四阶半线性椭圆型方程解的极大值原理,并得到了相应边值问题的解的唯一性定理。
The result that the blow-up set of the problem is a compact subset was proved by the reflective principle and the maximum principle, and the blow-up rate of the solutions was obtained.
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