1Jeang A. Combined Parameter and Tolerance Design Optimization With Quality and Cost[J]. Prod Res, 2001, 39(5).
2Cheng B W, Maghsoodloo S. Optimization of Mechanical Assembly Tolerances By Incorporating Taguchi' s Quality Loss Function[J]. Manuf Syst, 1995, 14(4).
3Wu C C, Tang G R. Tolerance Design for Products With Asymmetric Quality Losses[J]. Int J Prod Res, 1998, 36(9).
4Jeang A, Chung C P, Hsieh C K. Simultaneous Process Mean and Pro- cess Tolerance Determination With Asymmetrical Loss Function[J]. Adv Manuf Technol, 2007, (31).
5Sheikh A K, Raouf A, Sekerdey U A, et al. Optimal Tool Replacement and Resetting Strategies in Automated Manufacturing Systems[J]. Prod Res, 1999, 37(4).
6Tahera K, Ibrahim R N, Lochert P B. The Effect of Non-Constant Pro- cess Variance in Determining The Optimal Process Means and Pro- duction Run of A Deteriorating Process[J]. Production Planning & Control, 2010,21(1).
7Rahim M A, Tuffaha F. Integrated Model for Determining The Opti- mal Initial Setting of The Process Mean and The Optimal Production Run Assuming Quadratic Loss Functions[J]. Prod Res, 2004, 42(16).
8Jeang A, Chung C P. Process Mean, Process Tolerance, and Use Time Determination For Product Life Application under Deteriorating Pro- cess[J]. Adv Mannf Technol, 2008, (36).
9Taguchi G, Elsayed E A, Hsiang T C. Quality Engineering in Produc- tion System[M]. Graw-Hill, New York, 1989.
10Chase K W, Greenwood W H, Loosli B G, et al. Least Cost Tolerance Allocation for Mechanical Assemblies With Automated Process Se- lection[J]. Manuf Rev, 1990, 3(1).
