求解方法主要有数学规划法和多目标进化算法。
The solution methods mainly have mathematics programming and the multi-objectives evolution algorithms.
在此过程中,还将渐进优化方法与数学规划法进行了对照。
Furthermore, the comparison is made between ESO and mathematical programming.
本文结合有限单元法和数学规划法提出一固结问题的反分析方法。
Firstly, combining the finite element method and the mathematical programming technique, a procedure of back analysis for consolidation problem is developed.
本文应用数学规划法和最优化设计的原理对转向机构进行了优化设计。
The optimum design of steering mechanism is, in this paper, performed by means of mathematical programming method and optimum design principle.
采用有限元法结合数学规划法对重型专用车车架进行了轻量化结构优化设计。
This paper summarized structure optimum design based lightweight on special heavy vehicle frame by FEM and mathematics optimization method.
结合有限单元法和数学规划法提出一确定地基固结过程中材料参数的反分析法。
Combining finite element method and the mathematical programming technique, a procedure of back analysis of consolidation has been developed.
考虑整套试验数据的随机特性,利用极大似然法原理和数学规划法求解模型参数。
The parameters of model are measured by taking into account the stochastic characteristic of entire test data, which is connected with a maximum likelihood method and math programming.
应用数学规划法和“最优化设计”的原理对边坡压实机的构件进行了结构优化设计。
Structural optimum design of component for new roadbed side slop compactor is performed by means of ma-thematic programming method and optimum design principle.
本文将数学规划法与优化准则法有机地结合起来,导出了一种新的优化方法——变尺度梯度投影法。
A new nonlinear optimization method called variable metric gradient projection method is presented. It is a combination of mathematical programming with optimality criterion.
然后,根据上限定理可以求得与滑动机构相对应的极限外载荷,并通过非线性数学规划法找到其最小值。
The limit external load could therefore be solved from the upper bound limit theorem, and its minimum value could be obtained from the optimization method.
提出了一种运用动态规划法来解决虚拟企业制造伙伴选择问题的数学模型。
A mathematical model based on dynamic programming to solve this problem is presented.
基于这些特征描述建立了用动态规划法进行特征匹配的数学模型和算法。
Based on it, the mathematical model and algorithm of feature matching via Dynamic Programming are established.
本文给出了重力式桥墩与明挖基础整体优化设计的数学模型,选择序列线性规划法,并利用线性规划的对偶理论求最优解。
In this paper, a mathematical model for integral optimization design of pier shaft and its foundation is given, and the SLP method and duality theory are applied here to have a optimal solution.
对模型的求解问题,本文采用模糊数学法、动态规划法、最优路方法、整数规划法等多种方法进行深入的研究。
For seeking a method to solve the model, it introduced blur math method, dynamic programming method, the way of optimization and integer programming method etc.
目前,无功优化方法主要有线性规划法,非线性规划法,混合整数规划法,动态规划法等传统的数学优化方法,以及人工智能优化算法。
The algorithm mostly includes the tradition math optimization means, such as linear layout, nonlinear layout, mixed integral layout means, dynamic layout means, and artificial intelligence algorithm.
提出一种应用搜索法、动态规划法实现梯级水电站日经济运行的数学模型和算法。
This paper presents a new mathematical model and algorithm based on dynamic programming and searching method for solving daily economic operation problem on the cascaded hydroelectric power stations.
最后,文章利用动态规划法对油船货油装卸作业过程建立了时间-能量最优控制数学模型,用于指导货油装卸的整个过程。
At the last, using the developments programming, this article developed the best control of time-energy's numerical model, which is used to guide the whole process of cargo oil handling of tanker.
本文叙述了采用非线性规划法进行电力系统无功和电压优化的一种实用方法,其数学模型为梯度法。
This paper describes a non-linear programming algorithm for the optimization of voltage and reactive power in the electric power system. The reduced gradient method is used in the algorithm.
简便解法利用简单的数学方法把多目标规划法简化为单一目标,简化为传统运输问题模型。
The new method is changing a nonlinear multi-objective program to single problem with simple mathematics (method. )
简便解法利用简单的数学方法把多目标规划法简化为单一目标,简化为传统运输问题模型。
The new method is changing a nonlinear multi-objective program to single problem with simple mathematics (method. )
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