提出了一种线性求解摄像机内外参数的方法。
A linear approach for camera parameter calibration is proposed.
采用牛顿迭代法,对冷轧过程控制带钢变形抗力后计算值进行非线性求解。
Newton iterative calculation was adopted for the solution of non-line equation, which reversed calculation value of strip deformation resistance for process control of cold rolling as variable.
利用透镜成像理论建立摄像机数学模型,提出了一种线性求解摄像机内外参数的方法。
A linear method for camera parameter calibration is studied by the mathematical model of camera on the basis of projective theory.
该方法仅需4对消隐点象面坐标便可线性求解出旋转矩阵,再用2个空间点坐标便可线性求解出平移矢量。
The rotation matrix can be linearly acquired by using only 4 vanishing points and the translation vector can be linearly solved by using only 2 spatial point objects.
实例表明:用混沌优化算法对城市供水绩效的DEA评价模型的优化结果与前人采用线性求解结果一致,证明了混沌算法求解DEA模型的可行性。
Result shows that chaos optimization algorithm is consistent with linear programming; and also proves that it is feasible to solve DEA non-linear model with chaos optimization algorithm.
Linpack基准设计用来求解大规模稠密线性方程。
The Linpack benchmark is designed to solve a large number of dense linear equations.
使用范例下面的例子求解了一个线性方程Ax =b,矩阵规模为3 * 3,最后算出了残差的范式。
Example of Use. The following simple example solves a 3x3 linear system Ax=b and computes the
这个测试非常适合用来测试那些要运行科学应用程序和模拟的计算机,因为它们都要在某些步骤上试图对线性方程进行求解。
This test is well suited to speed test computers meant to run scientific applications and simulations because they tend to solve linear equations at some stage or another.
离散后的三对角线性代数方程组用adi方法求解。
The discretized tri-diagonal linear algebraic equations are solved with ADI method.
本文试应用求解一阶线性微分方程的方法导出几类常见的函数项级数的求和公式。
The sum formulas of several kinds of ordinary series with function term are deduced by using the method of solving linear differential equation.
借助于变量代换,求解几类线性微分方程,并得到了几个求解的充分必要条件。
With variable substitution, several kinds of linear differential equations are solved and several sufficient and necessary conditions are obtained.
当“规划求解选项”对话框中的“采用线性模型”复选框被选中时,对约束条件的数量没有限制。
When the Assume Linear Model check box on the Solver Options dialog box is selected, there is no limit on the number of constraints.
通过对模型校验策略的分析,讨论了如何建立这一问题的优化模型,并给出了基于线性规划和非线性规划的模型求解方法。
This paper discusses how to found its optimal model through the analysis of model check countermeasure and proposes its solution based on linear and non-linear programming.
当“规划求解选项”对话框中的“采用线性模型”复选框处于选中状态时,对约束条件的数量没有限制。
When the Assume Linear Model check box in the Solver Options dialog box is selected, there is no limit on the number of constraints.
计算结果表明,广义协调元对于求解结构几何非线性问题同样具有精度高、收敛快等优点。
Numerical results indicate that the generalized conforming element has the advantages of high accuracy and uniform convergence to geometrically nonlinear problem of structures.
在不同的风速条件下,采用牛顿下降梯度法迭代求解非线性代数方程组形式的系缆气球平衡方程。
For the different wind speed, the equilibrium points could be got from the trim equations solving by Newton iteration method.
因为其借助计算机快速求解方程的优点,使得对非线性方程组在一定精度内的求解成为可能。
The high capacity of fast solving equations of the computer make it possible to solve nonlinear equations within a certain precision.
从大自然植物生长中得到启发,提出了一种求解非线性整数规划全局最小解的仿生算法。
Be inspired from natural plant growth, this paper proposes a bionic algorithm for solving the global optimization of nonlinear integer programming.
研究了非线性参数系统模型的识别问题,通过引入求解线性方程组的松驰法思想,构造了一类新的迭代识别算法。
A nonlinear system parameters identification problem is investigated in this paper by introducing a relaxation method used for solving the linear equations of the system.
飞行动力学研究中常遇到求解非线性代数方程组的问题。
The solution of nonlinear algebraic equations is usually met in the study of flight dynamics.
本文将结合分步傅里叶方法和小信号分析法来求解复杂的非线性薛定谔方程(NLSE)。
This paper will use small signal analysis and split-step Fourier to solve the complex nonlinear Schrodinger equation (NLSE).
该方法能直接应用到大型复杂杆系结构的几何非线性问题的求解中。
This method can be applied to the solution of geometrically nonlinear problems for complicated structures.
上述三种用于反演问题求解的算法已广泛地应用在地球物理求解中,已成为求解非线性反问题的有力数学工具。
The three algorithms mentioned above have been widely used in the solving of geo physical problems and are a powerful mathematical tool for nonlinear inversion problems.
当结构局部非线性而其它大部分为弹性时,方程可以采用“快速非线性分析”(FNA)方法求解。
When the structure keeps elastic except for the local nonlinearities, the fast nonlinear analysis (FNA) method is desirable for an elastic response history analysis.
满意控制器设计可以完全转化为线性矩阵不等式的求解问题,不需要人工干预选择参数。
The satisfactory controller design problem can be completely transformed to solution of the LMIs without manual intervening in choosing parameters.
满意控制器设计可以完全转化为线性矩阵不等式的求解问题,不需要人工干预选择参数。
The satisfactory controller design problem can be completely transformed to solution of the LMIs without manual intervening in choosing parameters.
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