Abstract
The traditional quality gain-loss function(QGLF) considers the case that the primary term loss cannot be ignored, does not consider the cubic term loss, but in practice the cubic term loss should not be ignored. In this paper, based on the existing QGLF model, the Taylor expansion is reserved to the third order, the determination of the quality loss coefficient is discussed and analyzed under the condition that the compensation quantity is constant, and the asymmetric cubic QGLF model is established, and uses an example of concrete mixture out of the machine slump during the dam concrete construction to analyze and discuss the relationship between the proposed model and the traditional quadratic QGLF, which verifies the rationality of the proposed model.
Publisher
Public Library of Science (PLoS)
Reference21 articles.
1. Genichi T. Introduction to quality engineering. China Translation & Publishing Corporation, 1985.
2. Ensemble regression based on polynomial regression-based decision tree and its application in the in-situ data of tunnel boring machine;ML Shi;Mechanical Systems and Signal Processing,2023
3. Exploring temperature-resilient recycled aggregate concrete with waste rubber: An experimental and multi-objective optimization analysis;YC Tang;Reviews on Advanced Materials Science,2023
4. The reflected normal loss function;FA Spring;The Canadian Journal of Statistics,1993
5. Qing-guo. Improvement of Taguchi’s Loss Function and Its Application in Optimal Economy Production Quantity;LI PAN Er-shun;Journal of Shanghai Jiaotong University,2005