田口博士创立的稳健参数设计是质量工程学的理论核心。
Robust parameter design, proposed by Taguchi Doctor, is the cote theory foundation of quality engineering.
行李箱盖外板冲压拉延成形的工艺参数优化是一个多因素多目标问题,针对该问题的特点,采用本文的稳健优化设计方法。
The parameters optimization of the stamping drawing process of the outer panel of trunk lid is a multifactor and multiobjective problem. The robust optimal design was adopted for this characteristic.
针对一个线性回归模型的系统矩阵存在的随机扰动情况,提出一种基于均匀设计的稳健参数估计算法。
A robust parameters estimation algorithm is proposed in this paper, which is based on uniform design for a linear regression model in the case of its coefficient matrix with random disturbance.
具有稳健性的结构,其质量特性对设计参数和噪声因素的变差影响不敏感。
The performance of robust structure is not sensitive to the change of the design parameters and noises.
在参数设计中,质量特性的波动性(或稳健性)分析处于极其重要的地位,是试验设计与分析的重点。
The analysis of the variation (or robustness) of produces quality performance is the key of robust parameter designing, and is the focus of experimental planning and analysis.
该方法在机械扩径工艺参数设计方面的应用结果表明,其优化效果好于非稳健优化设计方法。
A robust optimization designing method for the technical parameters of plastic forming processes based on quality control is proposed in this paper.
稳健设计即系统设计、参数设计、容差设计。
The steady design consists of system design, parameter design and allowance design.
研究了考虑参数随机性的结构静动态特性稳健性优化设计问题的数学模型和数值求解。
The perturbation-based stochastic finite element analysis incorporating structural optimization techniques is employed in the structural robust design problem.
通过变差传递,控制设计参数的变差对设计函数的影响,保证设计解的稳健性;
Through transmitting the tolerances and controlling the effects of variability in design variables and parameters on design functions, We keep the robustness of design solution;
将基于损失模型的稳健性参数分析法应用于小型超精密铣床的结构优化设计过程中。
In the paper, we apply the robust parameter analysis method based on the loss model to the structural optimization and design of a miniature and ultraprecise milling machine tool.
将基于损失模型的稳健性参数分析法应用于小型超精密铣床的结构优化设计过程中。
In the paper, we apply the robust parameter analysis method based on the loss model to the structural optimization and design of a miniature and ultraprecise milling machine tool.
应用推荐