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Quality control and genetic algorithms
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Quality control and genetic algorithms : ウィキペディア英語版
Quality control and genetic algorithms
The combination of quality control and genetic algorithms led to novel solutions of complex quality control design and optimization problems. Quality control is a process by which entities review the quality of all factors involved in production. Quality is the degree to which a set of inherent characteristics fulfils a need or expectation that is stated, general implied or obligatory.〔Hoyle D. ISO 9000 quality systems handbook. Butterworth-Heineman 2001;p.654〕 Genetic algorithms are search algorithms, based on the mechanics of natural selection and natural genetics.〔Goldberg DE. Genetic algorithms in search, optimization and machine learning. Addison-Wesley 1989; p.1.〕
==Quality control==
Alternative quality control〔Duncan AJ. Quality control and industrial statistics. Irwin 1986;pp.1-1123.〕 (QC) procedures can be applied on a process to test statistically the null hypothesis, that the process conforms to the quality requirements, therefore that the process is in control, against the alternative, that the process is out of control. When a true null hypothesis is rejected, a statistical type I error is committed. We have then a false rejection of a run of the process. The probability of a type I error is called probability of false rejection. When a false null hypothesis is accepted, a statistical type II error is committed. We fail then to detect a significant change in the process. The probability of rejection of a false null hypothesis equals the probability of detection of the nonconformity of the process to the quality requirements.
The QC procedure to be designed or optimized can be formulated as:
''Q''1(''n''1,''X''1)# ''Q''2(''n''2,''X''2) #...# ''Q''''q''(''n''''q'',''X''''q'') (1)
where ''Q''''i''(''n''''i'',''X''''i'') denotes a statistical decision rule, ''ni'' denotes the size of the sample S''i'', that is the number of the samples the rule is applied upon, and X''i'' denotes the vector of the rule specific parameters, including the decision limits. Each symbol ''#'' denotes either the Boolean operator AND or the operator OR. Obviously, for ''#'' denoting AND, and for ''n''1 < ''n''2 <...< ''n''''q'', that is for S1 \subset S2 \subset ....\subset S''q'', the (1) denotes a ''q''-sampling QC procedure.
Each statistical decision rule is evaluated by calculating the respective statistic of a monitored variable of samples taken from the process. Then, if the statistic is out of the interval between the decision limits, the decision rule is considered to be true. Many statistics can be used, including the following: a single value of the variable of a sample, the range, the mean, and the standard deviation of the values of the variable of the samples, the cumulative sum, the smoothed mean, and the smoothed standard deviation. Finally, the QC procedure is evaluated as a Boolean proposition. If it is true, then the null hypothesis is considered to be false, the process is considered to be out of control, and the run is rejected.
A quality control procedure is considered to be optimum when it minimizes (or maximizes) a context specific objective function. The objective function depends on the probabilities of detection of the nonconformity of the process and of false rejection. These probabilities depend on the parameters of the quality control procedure (1) and on the probability density functions (see probability density function) of the monitored variables of the process.

抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)
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