参数规划法

The TVC array model is established, and the relationship between TVC and flight coefficients is analyzed. By means of the discrete quadric programming method, the optimization of TVC scheme is made.

建立了推力矢量控制阵列模型，分析了推力矢量控制与飞行参数之间的关系，并基于离散二次规划法对推力矢量控制方案进行了优化。

Lots of engineering applications demonstrate that the finite element parametric quadratic programming method is an advanced and efficient method in solving 3D contact problems.

大量的工程应用已充分证明有限元参数二次规划法是解决空间接触问题的一种先进的、行之有效的方法。

The discretized frictional contact problems can be reduced as a linear complementarity problem using parametric variational principle and parametric quadratic programming method. Then we can apply the algorithms proposed in this thesis to the solution of the contact problems.

利用参变量变分原理和参数二次规划法，离散后的接触问题可化为线性互补问题，之后，将第二、三章提出的互补问题算法应用到接触问题的数值求解中。

In Chapter 5, we study three dimensional elasto-plastic frictional contact problems with orthotropic friction law. Parametric variational principle and parametric quadratic programming method are applied to analyze this class of complicated mechanics problems. A linear complementarity problem formulation is derived.

在第五章，我们采用正交各向异性摩擦定律模型对三维弹塑性摩擦接触问题进行分析，将正交各向异性的摩擦定律线性化后，将参变量变分原理和参数二次规划法应用到这一复杂的力学问题中来，最终将问题化为线性互补问题模型。

The advancedness and effectiveness of the PQP(Parametric Quadratic Programming) in solving space contac problem are amply proved inpracical engineering applications.

大量实际工程应用已充分证实参数二次规划法是解决空间接触问题的一种先进的、行之有效的方法。

An optimization design scheme is crucial for torpedo, however, there has been no any such method recognized so far. This paper presents a method for torpedo lineshape optimization design based on the iSIGHT. In this method, the optimization strategies of simulated annealing algorithm and continuous quadratic planning method are adopted, and the fluid analysis software Fluent is integrated to calculate the fluid parameters of torpedo body lineshape. The comparison of the optimization results obtained by both the presented and the traditional methods shows that the torpedo lineshape optimization method based on the iSIGHT is satisfactory and feasible.

寻找最优设计方案是鱼雷设计的重中之重，针对目前鱼雷优化设计领域还没有一套公认的优化设计方法这一现状，提出了一套基于iSIGHT的工程设计优化方法，将这款商业软件应用于鱼雷线形优化设计中，采用了模拟退火算法+连续二次规划法的优化策略，集成流体分析软件Fluent对雷体线形的流体参数进行了计算，并与传统优化方法结果相比较，结果表明，基于iSIGHT的优化设计方法在鱼雷线形优化设计中是可行的，能够得到令设计人员满意的鱼雷线形优化方案。

Finally, taking these dates and using it as the functions of genetic program, and using the standard arithmetic operation as the terminals of GP. The object in this algorithm is the chiller consumption energy. Through the option of GP which contains 'crossover'、 'reproduce' and 'mutation' to iterant compute the population is composed of functions and the terminals of GP. Finally, we would find the consumption energy model of chiller.

利用此三参数作为基因规划法之终点端，再利用数学符号作为基因规划法之函数端，以实际之冰水主机耗电量作为目标，利用基因规划法之运算子作迭代运算，最终可得到足以说明此三参数与冰水主机耗电量之关系函数，即为冰水主机耗电模型。

At first, the method used the finite element method to design the combination plan of submains and hollow forgings capable of meeting with the requirement of the douches in a micro-irrigation system that the water flux and water-discharging uniformity of the douches be equilibrated, and the pressure heads of the correspondent submain units; next, the parameters of the design and the pressure heads were input into the dynamic programming model and then the optimal combination design of the diameters of various orders of micro-irrigation pipes in the system as well as the pressure heads necessary to operate the system was obtained.

提出了一种基于有限元法和动态规划法的微灌系统管网优化设计方法，该方法先利用有限元法，设计出符合灌水器平均流量和灌水均匀度要求的支管与毛管参数组合方案，及相应的支管单元操作压力水头，然后将这些参数组合与支管单元操作压力水头代入动态规划模型，即可设计出微灌系统各级管道管径的最优组合方案，并确定微灌系统所需的操作压力水头。

It includes two aspects in content: one is the best choice for plane disposal of pipeline, and its methods follows as decision-making plot, simple trapeziform and optimizing trunkform etc; the other one is optimizing pipe parameter when the plane disposal of pipeline has been fixed, and the methods of which are linear programming, unlinear programming, dynamic optimizing, direct optimizing, hereditary arithmetic and so on.

污水管网优化设计包括两个方面的内容：一是管线平面布置的优化选择；其方法有：决策图法，简约梯度法，优化树法等。二是在管线平面布置已定情况下进行管道参数的优化；其方法有：线性规划法，非线性规划法，动态优化法，遗传算法，直接优化法等。

And for the aspect of routings, dynamic programming method is employed to search the best manufacturing routing.

用改进的遗传算法求解工序层中的工艺参数优化问题，同时利用动态规划法实现工艺路线层次的优化。

quadratic convex programming：凸二次规划

二次非剩余:quadratic non-residue. | 凸二次规划:quadratic convex programming | 参数二次规划法:Parametric Quadratic Programming

Fuzzy linear programming：区间线性规划

参数凸二次规划:parametric linear programming | 区间线性规划:fuzzy linear programming | 模糊线性规划法:fuzzy linear programming

parametric programming：参数规划法

parametric programing 参数程序设计,参数规划 | parametric programming 参数规划法 | parametric pumping 参数抽运

Parametric Quadratic Programming：参数二次规划法

凸二次规划:quadratic convex programming | 参数二次规划法:Parametric Quadratic Programming | 0-1二次规划:0-1 quadratic programming