It takes the average reader 6 hours and 30 minutes to read Encyclopedia and Handbook of Process Capability Indices by W. L. Pearn
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1. The C[symbol] index. 1.1. Process precision and the C[symbol] index. 1.2. Estimating and testing C[symbol] based on a single sample. 1.3. Estimating and testing C[symbol] based on multiple samples. 1.4. Estimating and testing C[symbol] based on (X̄, R) control chart sample. 1.5. Estimating and testing C[symbol] based on (X̄, S) samples. 1.6. A Bayesian approach to assessment of C[symbol] -- 2. The C[symbol] index. 2.1. Process accuracy and the C[symbol] index. 2.2. Estimating and testing C[symbol] based on a single sample. 2.3. Estimating and testing C[symbol] based on multiple samples. 2.4. Bayesian-like estimator of C[symbol] -- 3. The C[symbol] index. 3.1. Process capability and the C[symbol] index. 3.2. Estimating and testing C[symbol] based on a single sample. 3.3. Estimating and testing C[symbol] based on multiple samples. 3.4. The Bayesian approach to C[symbol]. 3.5. The Bayesian-like estimator of C[symbol] -- 4. The C[symbol] index. 4.1. Process capability and the C[symbol] index. 4.2. Estimating and testing C[symbol] based on one single sample. 4.3. Estimating and testing C[symbol] based on multiple samples. 4.4. The Bayesian approach to C[symbol] -- 5. The loss indices. 5.1. Process loss and the L[symbol] index. 5.2. Estimation of L[symbol], L[symbol], and L[symbol]. 5.3. Upper confidence bounds of L[symbol], L[symbol], and L[symbol]. 5.4. Testing process capability based on the process loss -- 6. The C[symbol] index. 6.1. Process capability and the C[symbol] index. 6.2. Estimating and testing C[symbol] based on a single sample. 6.3. Estimating and testing C[symbol] based on multiple samples. 6.4. Bayesian-like estimation of C[symbol] -- 7. The S[symbol] index 7.1. Process capability and the S[symbol] index. 7.2. Estimating and testing S[symbol] based on a single sample. 7.3. Hypothesis testing with S[symbol] -- 8. The C[symbol]/C[symbol] index. 8.1. Process capability and the index C[symbol]/C[symbol]. 8.2. Estimating and testing C[symbol]/C[symbol]: based on single sample. 8.3. Estimating and testing C[symbol]/C[symbol]: based on multiple samples. 8.4. Estimating and testing C[symbol]/C[symbol]: Bayesian approach with single sample -- 9. Multi-Process Performance Analysis Chart (MPPAC). 9.1. Introduction. 9.2. The modified C[symbol] MPPAC. 9.3. The C[symbol] MPPAC. 9.4. The S[symbol] MPPAC. 9.5. The L[symbol] MPPAC -- 10. PCIs with asymmetric specification limits. 10.1. Introduction. 10.2. The C[symbol] index for asymmetric tolerances. 10.3. The C[symbol] index for asymmetric tolerances. 10.4. The C[symbol] index for asymmetric tolerances. 10.5. The C[symbol] index for asymmetric tolerances. 10.6. The loss index for asymmetric tolerances -- 11. Supplier selection based on PCIs. 11.1. Introduction. 11.2. Tseng and Wu's MLR selection rule based on C[symbol]. 11.3. Chou's approximate selection rule based on C[symbol] and C[symbol]. 11.4. Huang and Lee's approximate selection rule based on C[symbol] -- 12. Acceptance sampling plans based on PCIs. 12.1. Introduction. 12.2. Acceptance sampling plans based on C[symbol]. 12.3. Acceptance sampling plans based on C[symbol]. 12.4. Acceptance sampling plans based on C[symbol]. 12.5. Acceptance sampling plans based on C[symbol] and C[symbol] -- 13. Process capability measures in presence of gauge measurement errors. 13.1. Introduction. 13.2. Estimating and testing C[symbol] in presence of gauge measurement errors. 13.3. Estimating and testing C[symbol] in presence of gauge. 13.4. Estimating and testing C[symbol] in presence of gauge. 13.5. Estimating and testing C[symbol] in presence of gauge measurement errors. 13.6. Estimating and testing C[symbol] and C[symbol] in presence of gauge measurement errors -- 14. Process capability assessment with tool wear. 14.1. Introduction. 14.2. A review of various approaches -- 15. Process capability assessment for non-normal processes. 15.1. Introduction. 15.2. A brief review of various approaches -- 16. Multivariate process capability indices
Encyclopedia and Handbook of Process Capability Indices by W. L. Pearn is 378 pages long, and a total of 97,524 words.
This makes it 128% the length of the average book. It also has 119% more words than the average book.
The average oral reading speed is 183 words per minute. This means it takes 8 hours and 52 minutes to read Encyclopedia and Handbook of Process Capability Indices aloud.
Encyclopedia and Handbook of Process Capability Indices is suitable for students ages 12 and up.
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