Résumé
STATISTICAL QUALITY CONTROL
Provides a basic understanding of statistical quality control (SQC) and demonstrates how to apply the techniques of SQC to improve the quality of products in various sectorsThis book introduces Statistical Quality Control and the elements of Six Sigma Methodology, illustrating the widespread applications that both have for a multitude of areas, including manufacturing, finance, transportation, and more. It places emphasis on both the theory and application of various SQC techniques and offers a large number of examples using data encountered in real life situations to support each theoretical concept.Statistical Quality Control: Using MINITAB, R, JMP and Python begins with a brief discussion of the different types of data encountered in various fields of statistical applications and introduces graphical and numerical tools needed to conduct preliminary analysis of the data. It then discusses the basic concept of statistical quality control (SQC) and Six Sigma Methodology and examines the different types of sampling methods encountered when sampling schemes are used to study certain populations. The book also covers Phase 1 Control Charts for variables and attributes; Phase II Control Charts to detect small shifts; the various types of Process Capability Indices (CPI); certain aspects of Measurement System Analysis (MSA); various aspects of PRE-control; and more. This helpful guide also
Focuses on the learning and understanding of statistical quality control for second and third year undergraduates and practitioners in the field
Discusses aspects of Six Sigma Methodology
Teaches readers to use MINITAB, R, JMP and Python to create and analyze charts
Requires no previous knowledge of statistical theory
Is supplemented by an instructor-only book companion site featuring data sets and a solutions manual to all problems, as well as a student book companion site that includes data sets and a solutions manual to all odd-numbered problems
Statistical Quality Control: Using MINITAB, R, JMP and Python is an excellent book for students studying engineering, statistics, management studies, and other related fields and who are interested in learning various techniques of statistical quality control. It also serves as a desk reference for practitioners who work to improve quality in various sectors, such as manufacturing, service, transportation, medical, oil, and financial institutions. It?s also useful for those who use Six Sigma techniques to improve the quality of products in such areas.Chapter 1- QUALITY IMPROVEMENT AND MANAGEMENT1
1.1 Introduction 1
1.2 Statistical Quality Control 1
1.2.1 Quality and the Customer 3
1.2.2 Quality Improvement 4
1.2.3 Quality and Productivity7
1.3 Implementing Quality Improvement 9
1.3.1 Outcomes of Quality Control 10
1.3.2 Quality Control and Quality Improvement 11
1.3.2.1 Removing Obstacles of Quality 13
1.3.2.2 Eliminating Productivity Quotas 14
1.3.3 Implementation of Quality Improvement 14
1.4 Managing Quality Improvement 15
1.4.1 Management and Their Responsibilities 16
1.4.2 Management and Quality 17
1.4.3 Risks Associated with Making Bad decisions 18
Chapter 2 - BASIC CONCEPTS OF THE SIX SIGMA METHODOLOGY20
2.1 Introduction 20
2.2 What is Six Sigma? 20
2.2.1 Six Sigma as Management Philosophy 21
2.2.2 Six Sigma as a Systemic Approach Problem Solving 22
2.2.3 Six Sigma as a Statistical Standard of Quality24
2.2.3.1 Statistical Basis for Six Sigma 25
2.2.4 Six Sigma Roles28
2.3 Is Six Sigma New? 29
2.4 Quality Tools Used in Six Sigma 30
2.4.1 The Basic Seven Tools and the New Seven tools 31
2.4.2 Lean Tools 32
2.4.2.1 Eight Wastes 33
2.4.2.2 Visual Management 36
2.4.2.3 The 5S Method 37
2.4.2.4 Value Stream Mapping 38
2.4.2.5 Mistake Proofing 39
2.4.2.6 Quick Changeover39
2.5 Six Sigma Benefits and Criticism 40
2.5.1 Why Do Some Six Sigma Initiatives Fail? 41
Review Practice Problems 42
Chapter 3- DESCRIBING QUANTITATIVE AND QUALITATIVE DATA 44
3.1 Introduction 44
3.2 Classification of Various Types of Data 44
3.3 Analyzing Data Using Graphical Tools 47
3.3.1 Frequency Distribution Tables for Qualitative and Quantitative Data 48
3.4 Describing Data Graphically52
3.4.1 Dot Plot 52
3.4.2 Pie Chart 54
3.4.3 Bar Chart 57
3.4.4 Histograms62
3.4.5 Line Graph65
3.4.6 Measure of Association 67
3.5 Analyzing Data Using Numerical Tools 71
3.5.1 Numerical Measures 71
3.5.2 Measures of Centrality 72
3.5.3 Measures of Dispersion 76
3.5.4 Box Whisker Plot 85
3.6 Some Important Probability Distributions 87
3.6.1 The Binomial Distribution 87
3.6.2 The Hypergeometric Distribution 90
3.6.3 The Poisson Distribution95
3.6.4 The Normal Distribution99
Review Practice Problems107
Chapter 4 - SAMPLING METHODS 118
4.1 Introduction 118
4.2 Basic Concepts of Sampling 118
4.3 Simple Random Sampling123
4.3.1 Estimation of a Population Mean and Population Total 125
4.3.2 Confidence Interval for a Population Mean and Population Total 129
4.3.3 Determination of Sample Size 130
4.4 Stratified Random Sampling 132
4.4.1 Estimation of a Population Mean and Population Total 133
4.4.2 Confidence Interval for a Population Mean and Population Total 135
4.4.3 Determination of Sample Size 138
4.5 Systematic Random Sampling139
4.5.1 Estimation of a Population Mean and Population Total 140
4.5.2 Confidence Interval for a Population Mean and Population Total 142
4.5.3 Determination of Sample Size 142
4.6 Cluster Random Sampling145
4.6.1 Estimation of a Population Mean and Population Total 146
4.6.2 Confidence Interval for a Population Mean and Population Total 148
4.6.3 Determination of Sample Size 150
Review Practice Problems 151
Chapter 5 - Phase I Quality Control Charts for Variables 157
5.1 Introduction 157
5.2 Basic Definition of Quality and its Benefits158
5.3 Statistical Process Control159
5.4 Control Charts for Variables 170
5.4.1 Shewhart and R Control Chart 181
5.4.1.1 Interpretation of Shewhart and R Control Charts 189
5.4.1.2 Extending the Current Control Limits for Future Control 191
5.5 Shewhart and R Control Charts when Process Mean and Standard Deviation Known 194
5.5.1 Shewhart and Control Chart for Individual Observations 196
5.5.2 Shewhart and S Control Chart - Equal Sample size 201
5.5.3 Shewhart and S Control Chart - Sample Size Variable 206
5.6 Process Capability211
Review Practice Problems 213
Chapter 6 - Phase I Control Charts for Attributes 223
6.1 Introduction 223
6.2 Control Charts for Attributes 223
6.3 The p chart: Control Chart for Fraction Nonconforming with Constant Samples Sizes225
6.3.1 The p Chart: Control Chart for Fraction Nonconforming with Variable Samples Sizes 231
6.3.2 The np Chart: Control Chart for Number of Nonconforming Units 235
6.4 The c-Control chart - Control chart for nonconformities per sample 237
6.5 The U-Chart 242
Review Practice Problems 249
Chapter 7 - Phase II Control Charts for Detecting Small Shifts256
7.1 Introduction 256
7.2 Basic Concepts of CUSUM Control Chart257
7.3 Designing a CUSUM Control Chart 261
7.3.1 Two-Sided CUSUM Control Chart Using Numerical Procedure 262
7.3.2 The Fast-Initial Response (FIR) Feature for CUSUM Control Chart 271
7.3.3 One-Sided CUSUM Control chart 276
7.3.4 Combined Shewhart-CUSUM Control Chart 277
7.3.5 CUSUM Control Chart for Controlling Process Variability 278
7.4 Moving Average Control Chart 279
7.5 Exponentially Weighted Moving Average Control Chart 284
Review Practice Problems292
Chapter 8 - Process and Measurement System Capability Analysis 298
8.1 Introduction 298
8.2 Development of Process Capability Indices300
8.3 Various Process Capability Indices 302
8.3.1 Process Capability Index 302
8.3.2 Process Capability Index 309
8.3.3 Process Capability Index 314
8.3.4 Process Capability Index 317
8.3.5 Process Capability Index 318
8.3.5.1 Comparing with Process Capability Indices and 321
8.3.5.2 Certain Other Features of the Capability Index 323
8.3.6 Process Performance Indices and 325
8.4 The Pre-control 326
8.4.1 Global Perspective on Use of Pre-control (Understanding the Color- Coding
Scheme) 328
8.4.2 The Mechanics of Pre-control 329
8.4.3 The Statistical Basis for Pre-control 331
8.4.4 Advantages and Disadvantages of Pre-control 333
8.4.4.1 Advantages of Pre-control 333
8.4.4.2 Disadvantages of Pre-control 333
8.5 Measurement System Capability Analysis 334
8.5.1 Evaluating Measurement System Performance 336
8.5.2 The Range Method337
8.5.3 The ANOVA Method 344
8.5.4 Graphical Representation of Gauge R&R Study 350
8.5.5 Another Measurement Capability Index353
Review Practice Problems 354
Chapter 9 - ACCEPTANCE SAMPLING PLANS 363
9.1 Introduction363
9.2 The Intent of Acceptance of Sampling Plan 363
9.3 Sampling Inspection Versus 100 Percent Inspection 364
9.4 Classification of Sampling Plans 364
9.4.1 Formation of Lots for Acceptance Sampling Plans 365
9.4.2 The Operating Characteristic (OC) Curve 365
9.5 Acceptance Sampling by Attributes 371
9.6 Single Sampling Plans for Attributes 375
9.7 Other Types of Sampling Plans for Attributes 376
9.7.1 Double Sampling Plans for Attributes 376
9.7.2 The OC Curve 377
9.7.3 Multiple Sampling Plans 381
9.7.4 Average Sample Number 381
9.7.5 Sequential Sampling Plans 382
9.8 Sampling Standards and Plans 386
9.8.1 ANSI/ASQ Z1.4-2003 387
9.8.2 Levels of Inspection 389
9.8.3 Types of Sampling 390
9.9 Dodge-Romig Tables 392
9.10 Acceptance Sampling Plans By variables 392
9.10.1 ANSI/ASQ Z1.9-2003 394
9.10.2 Variability Unknown - Standard Deviation Method 395
9.10.3 Variability Unknown - Range Method 397
9.11 Continuous Sampling Plans 399
9.11.1 Types of Continuous Sampling Plans 400
9.11.2 Dodge's Continuous Sampling Plans 400
9.11.3 MIL-STD-1235B400
Review Practice Problems 401
Chapter 10 - CPMPUTER RESOURCES TO SUPPORT SQC 427
10.1 Introduction427
10.2 Using MINITAB
10.3 Using R
10.4 Using JMP
10.5 Using PYTHONBhisham C. Gupta, PhD, is Professor Emeritus of Statistics at the University of Southern Maine, where he has taught for 31 years. Prior to coming to USM as a full professor in 1985, Dr. Gupta served for 21 years at various institutions in Canada, Brazil, and India. He is the co-author of Statistics and Probability with Applications for Engineers and Scientists, First Edition and Second Edition, as well as the accompanying solutions manuals, all published by Wiley. He is also co-author of three books published by American Society for Quality (ASQ).
