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Applied reliability engineering and risk analysis [[electronic resource] ] : probabilistic models and statistical inference / / editors, Ilia B. Frenkel ... [et al.]
Applied reliability engineering and risk analysis [[electronic resource] ] : probabilistic models and statistical inference / / editors, Ilia B. Frenkel ... [et al.]
Edizione [1st ed.]
Pubbl/distr/stampa Chichester, West Sussex, : John Wiley & Sons Inc., 2014
Descrizione fisica 1 online resource (451 p.)
Disciplina 620/.00452
Altri autori (Persone) FrenkelIlia, Ph.D.
Collana Wiley series in quality & reliability engineering
Soggetto topico Reliability (Engineering)
Risk assessment - Mathematical models
ISBN 1-118-70189-5
1-118-70188-7
1-118-70194-1
Classificazione TEC032000
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto pt. I. Degradation analysis, multi-state and continuous-state system reliability -- pt. II. Networks and large-scale systems -- pt. III. Maintenance models -- pt. IV. Statistical inference in reliability -- pt. V. Systemability, physics-of-failure and reliability demonstration.
Record Nr. UNINA-9910139024903321
Chichester, West Sussex, : John Wiley & Sons Inc., 2014
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Applied reliability engineering and risk analysis : probabilistic models and statistical inference / / editors, Ilia B. Frenkel ... [et al.]
Applied reliability engineering and risk analysis : probabilistic models and statistical inference / / editors, Ilia B. Frenkel ... [et al.]
Edizione [1st ed.]
Pubbl/distr/stampa Chichester, West Sussex, : John Wiley & Sons Inc., 2014
Descrizione fisica 1 online resource (451 p.)
Disciplina 620/.00452
Altri autori (Persone) FrenkelIlia, Ph.D.
Collana Wiley series in quality & reliability engineering
Soggetto topico Reliability (Engineering)
Risk assessment - Mathematical models
ISBN 1-118-70189-5
1-118-70188-7
1-118-70194-1
Classificazione TEC032000
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto pt. I. Degradation analysis, multi-state and continuous-state system reliability -- pt. II. Networks and large-scale systems -- pt. III. Maintenance models -- pt. IV. Statistical inference in reliability -- pt. V. Systemability, physics-of-failure and reliability demonstration.
Record Nr. UNINA-9910811207303321
Chichester, West Sussex, : John Wiley & Sons Inc., 2014
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Basic statistical tools for improving quality [[electronic resource] /] / Chang W. Kang, Paul H. Kvam
Basic statistical tools for improving quality [[electronic resource] /] / Chang W. Kang, Paul H. Kvam
Autore Kang Chang W (Chang Wok), <1957->
Pubbl/distr/stampa Hoboken, N.J., : Wiley, 2011
Descrizione fisica 1 online resource (264 p.)
Disciplina 658.562
658.562015195
Altri autori (Persone) KvamPaul H. <1962->
Soggetto topico Process control - Statistical methods
Quality control - Statistical methods
Acceptance sampling
Soggetto genere / forma Electronic books.
ISBN 1-283-59282-7
9786613905277
1-118-49175-0
1-118-49149-1
1-118-49151-3
Classificazione TEC032000
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Basic Statistical Tools for Improving Quality; CONTENTS; Preface; 1 The Importance of Quality Improvement; 1.1 Introduction; 1.2 What Is Statistical Process Control?; 1.3 The Birth of Quality Control; 1.4 What Is a Process?; 1.5 Examples of Processes from Daily Life; 1.6 Implementing the Tools and Techniques; 1.7 Continuous Process Improvement; 1.8 The Goal of Statistical Process Control; 1.9 The Eight Dimensions of Quality for Manufacturing & Service; 1.10 The Cost of (Poor) Quality; 1.11 What Did We Learn?; 1.12 Test Your Knowledge; 2 Graphical Display of Data; 2.1 Introduction to eZ SPC
2.2 Qualitative and Quantitative Data2.3 Bar Chart; 2.4 Pie Chart; 2.5 Pareto Chart; 2.6 Radar Chart; 2.7 Histogram; 2.8 Box Plot; 2.9 Scatter Plot; 2.10 Cause and Effect Diagram; 2.11 What Did We Learn?; 2.12 Test Your Knowledge; Exercises; 3 Summarizing Data; 3.1 Central Tendency; 3.2 Variability; 3.3 Statistical Distributions; 3.4 Distributions in eZ SPC; 3.5 What Did We Learn?; 3.6 Test Your Knowledge; Exercises; 4 Analyzing Data; 4.1 Confidence Intervals; 4.2 Test of Hypothesis; 4.3 The p-value; 4.4 Probability Plots; 4.5 What Did We Learn?; 4.6 Test Your Knowledge; Exercises
5 Shewhart Control Charts5.1 The Concept of a Control Chart; 5.2 Managing the Process with Control Charts; 5.3 Variable Control Charts; 5.4 Attribute Control Charts; 5.5 Deciding Which Chart to Use; 5.6 What Did We Learn?; 5.7 Test Your Knowledge; Exercises; 6 Advanced Control Charts; 6.1 CUSUM Control Chart; 6.2 EWMA Control Chart; 6.3 CV Control Chart; 6.4 Nonparametric Control Charts; 6.5 Process Capability; 6.6 Gage R & R; 6.7 What Did We Learn?; 6.8 Test Your Knowledge; Exercises; 7 Process Improvement; 7.1 Correlation Analysis; 7.2 Regression Analysis; 7.3 Experimental Design
7.4 Overview of Experimental Design7.5 Principles of Experimentation; 7.6 One-Way Analysis of Variance; 7.7 Two Way Analysis of Variance; 7.8 Two-level Factorial Design Analysis; 7.9 What Did We Learn?; 7.10 Test Your Knowledge; Exercises; 8 End Material; 8.1 Final Exam; 8.2 Final Exam Solutions; 8.3 Test Your Knowledge: Answers; References; Glossary; Subject Index
Record Nr. UNINA-9910141415103321
Kang Chang W (Chang Wok), <1957->  
Hoboken, N.J., : Wiley, 2011
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Basic statistical tools for improving quality [[electronic resource] /] / Chang W. Kang, Paul H. Kvam
Basic statistical tools for improving quality [[electronic resource] /] / Chang W. Kang, Paul H. Kvam
Autore Kang Chang W (Chang Wok), <1957->
Pubbl/distr/stampa Hoboken, N.J., : Wiley, 2011
Descrizione fisica 1 online resource (264 p.)
Disciplina 658.562
658.562015195
Altri autori (Persone) KvamPaul H. <1962->
Soggetto topico Process control - Statistical methods
Quality control - Statistical methods
Acceptance sampling
ISBN 1-283-59282-7
9786613905277
1-118-49175-0
1-118-49149-1
1-118-49151-3
Classificazione TEC032000
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Basic Statistical Tools for Improving Quality; CONTENTS; Preface; 1 The Importance of Quality Improvement; 1.1 Introduction; 1.2 What Is Statistical Process Control?; 1.3 The Birth of Quality Control; 1.4 What Is a Process?; 1.5 Examples of Processes from Daily Life; 1.6 Implementing the Tools and Techniques; 1.7 Continuous Process Improvement; 1.8 The Goal of Statistical Process Control; 1.9 The Eight Dimensions of Quality for Manufacturing & Service; 1.10 The Cost of (Poor) Quality; 1.11 What Did We Learn?; 1.12 Test Your Knowledge; 2 Graphical Display of Data; 2.1 Introduction to eZ SPC
2.2 Qualitative and Quantitative Data2.3 Bar Chart; 2.4 Pie Chart; 2.5 Pareto Chart; 2.6 Radar Chart; 2.7 Histogram; 2.8 Box Plot; 2.9 Scatter Plot; 2.10 Cause and Effect Diagram; 2.11 What Did We Learn?; 2.12 Test Your Knowledge; Exercises; 3 Summarizing Data; 3.1 Central Tendency; 3.2 Variability; 3.3 Statistical Distributions; 3.4 Distributions in eZ SPC; 3.5 What Did We Learn?; 3.6 Test Your Knowledge; Exercises; 4 Analyzing Data; 4.1 Confidence Intervals; 4.2 Test of Hypothesis; 4.3 The p-value; 4.4 Probability Plots; 4.5 What Did We Learn?; 4.6 Test Your Knowledge; Exercises
5 Shewhart Control Charts5.1 The Concept of a Control Chart; 5.2 Managing the Process with Control Charts; 5.3 Variable Control Charts; 5.4 Attribute Control Charts; 5.5 Deciding Which Chart to Use; 5.6 What Did We Learn?; 5.7 Test Your Knowledge; Exercises; 6 Advanced Control Charts; 6.1 CUSUM Control Chart; 6.2 EWMA Control Chart; 6.3 CV Control Chart; 6.4 Nonparametric Control Charts; 6.5 Process Capability; 6.6 Gage R & R; 6.7 What Did We Learn?; 6.8 Test Your Knowledge; Exercises; 7 Process Improvement; 7.1 Correlation Analysis; 7.2 Regression Analysis; 7.3 Experimental Design
7.4 Overview of Experimental Design7.5 Principles of Experimentation; 7.6 One-Way Analysis of Variance; 7.7 Two Way Analysis of Variance; 7.8 Two-level Factorial Design Analysis; 7.9 What Did We Learn?; 7.10 Test Your Knowledge; Exercises; 8 End Material; 8.1 Final Exam; 8.2 Final Exam Solutions; 8.3 Test Your Knowledge: Answers; References; Glossary; Subject Index
Record Nr. UNINA-9910830940603321
Kang Chang W (Chang Wok), <1957->  
Hoboken, N.J., : Wiley, 2011
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Basic statistical tools for improving quality / / Chang W. Kang, Paul H. Kvam
Basic statistical tools for improving quality / / Chang W. Kang, Paul H. Kvam
Autore Kang Chang W (Chang Wok), <1957->
Pubbl/distr/stampa Hoboken, N.J., : Wiley, 2011
Descrizione fisica 1 online resource (264 p.)
Disciplina 658.5/62
Altri autori (Persone) KvamPaul H. <1962->
Soggetto topico Process control - Statistical methods
Quality control - Statistical methods
Acceptance sampling
ISBN 1-283-59282-7
9786613905277
1-118-49175-0
1-118-49149-1
1-118-49151-3
Classificazione TEC032000
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Basic Statistical Tools for Improving Quality; CONTENTS; Preface; 1 The Importance of Quality Improvement; 1.1 Introduction; 1.2 What Is Statistical Process Control?; 1.3 The Birth of Quality Control; 1.4 What Is a Process?; 1.5 Examples of Processes from Daily Life; 1.6 Implementing the Tools and Techniques; 1.7 Continuous Process Improvement; 1.8 The Goal of Statistical Process Control; 1.9 The Eight Dimensions of Quality for Manufacturing & Service; 1.10 The Cost of (Poor) Quality; 1.11 What Did We Learn?; 1.12 Test Your Knowledge; 2 Graphical Display of Data; 2.1 Introduction to eZ SPC
2.2 Qualitative and Quantitative Data2.3 Bar Chart; 2.4 Pie Chart; 2.5 Pareto Chart; 2.6 Radar Chart; 2.7 Histogram; 2.8 Box Plot; 2.9 Scatter Plot; 2.10 Cause and Effect Diagram; 2.11 What Did We Learn?; 2.12 Test Your Knowledge; Exercises; 3 Summarizing Data; 3.1 Central Tendency; 3.2 Variability; 3.3 Statistical Distributions; 3.4 Distributions in eZ SPC; 3.5 What Did We Learn?; 3.6 Test Your Knowledge; Exercises; 4 Analyzing Data; 4.1 Confidence Intervals; 4.2 Test of Hypothesis; 4.3 The p-value; 4.4 Probability Plots; 4.5 What Did We Learn?; 4.6 Test Your Knowledge; Exercises
5 Shewhart Control Charts5.1 The Concept of a Control Chart; 5.2 Managing the Process with Control Charts; 5.3 Variable Control Charts; 5.4 Attribute Control Charts; 5.5 Deciding Which Chart to Use; 5.6 What Did We Learn?; 5.7 Test Your Knowledge; Exercises; 6 Advanced Control Charts; 6.1 CUSUM Control Chart; 6.2 EWMA Control Chart; 6.3 CV Control Chart; 6.4 Nonparametric Control Charts; 6.5 Process Capability; 6.6 Gage R & R; 6.7 What Did We Learn?; 6.8 Test Your Knowledge; Exercises; 7 Process Improvement; 7.1 Correlation Analysis; 7.2 Regression Analysis; 7.3 Experimental Design
7.4 Overview of Experimental Design7.5 Principles of Experimentation; 7.6 One-Way Analysis of Variance; 7.7 Two Way Analysis of Variance; 7.8 Two-level Factorial Design Analysis; 7.9 What Did We Learn?; 7.10 Test Your Knowledge; Exercises; 8 End Material; 8.1 Final Exam; 8.2 Final Exam Solutions; 8.3 Test Your Knowledge: Answers; References; Glossary; Subject Index
Record Nr. UNINA-9910877538903321
Kang Chang W (Chang Wok), <1957->  
Hoboken, N.J., : Wiley, 2011
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Control of quantum systems : theory and methods / / Shuang Cong
Control of quantum systems : theory and methods / / Shuang Cong
Autore Cong Shuang
Pubbl/distr/stampa Singapore : , : John Wiley & Sons, , 2014
Descrizione fisica 1 online resource (445 p.)
Disciplina 530.1201/1
Soggetto topico Quantum systems - Automatic control
Control theory
ISBN 1-118-60815-1
1-118-60813-5
1-118-60814-3
Classificazione TEC032000
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Cover; Title Page; Copyright; Contents; About the Author; Preface; Chapter 1 Introduction; 1.1 Quantum States; 1.2 Quantum Systems Control Models; 1.2.1 Schrödinger Equation; 1.2.2 Liouville Equation; 1.2.3 Markovian Master Equations; 1.2.4 Non-Markovian Master Equations; 1.3 Structures of Quantum Control Systems; 1.4 Control Tasks and Objectives; 1.5 System Characteristics Analyses; 1.5.1 Controllability; 1.5.2 Reachability; 1.5.3 Observability; 1.5.4 Stability; 1.5.5 Convergence; 1.5.6 Robustness; 1.6 Performance of Control Systems; 1.6.1 Probability; 1.6.2 Fidelity; 1.6.3 Purity
1.7 Quantum Systems Control 1.7.1 Description of Control Problems; 1.7.2 Quantum Control Theory and Methods; 1.8 Overview of the Book; References; Chapter 2 State Transfer and Analysis of Quantum Systems on the Bloch Sphere; 2.1 Analysis of a Two-level Quantum System State; 2.1.1 Pure State Expression on the Bloch Sphere; 2.1.2 Mixed States in the Bloch Sphere; 2.1.3 Control Trajectory on the Bloch Sphere; 2.2 State Transfer of Quantum Systems on the Bloch Sphere; 2.2.1 Control of a Single Spin-1/2 Particle; 2.2.2 Situation with the Minimum Ωt of Control Fields
2.2.3 Situation with a Fixed Time T2.2.4 Numerical Simulations and Results Analyses; References; Chapter 3 Control Methods of Closed Quantum Systems; 3.1 Improved Optimal Control Strategies Applied in Quantum Systems; 3.1.1 Optimal Control of Quantum Systems; 3.1.2 Improved Quantum Optimal Control Method; 3.1.3 Krotov-Based Method of Optimal Control; 3.1.4 Numerical Simulation and Performance Analysis; 3.2 Control Design of High-Dimensional Spin-1/2 Quantum Systems; 3.2.1 Coherent Population Transfer Approaches
3.2.2 Relationships between the Hamiltonian of Spin-1/2 Quantum Systems under Control and the Sequence of Pulses 3.2.3 Design of the Control Sequence of Pulses; 3.2.4 Simulation Experiments of Population Transfer; 3.3 Comparison of Time Optimal Control for Two-Level Quantum Systems; 3.3.1 Description of System Model; 3.3.2 Geometric Control; 3.3.3 Bang-Bang Control; 3.3.4 Time Comparisons of Two Control Strategies; 3.3.5 Numerical Simulation Experiments and Results Analyses; References; Chapter 4 Manipulation of Eigenstates-Based on Lyapunov Method
4.1 Principle of the Lyapunov Stability Theorem 4.2 Quantum Control Strategy Based on State Distance; 4.2.1 Selection of the Lyapunov Function; 4.2.2 Design of the Feedback Control Law; 4.2.3 Analysis and Proof of the Stability; 4.2.4 Application to a Spin-1/2 Particle System; 4.3 Optimal Quantum Control Based on the Lyapunov Stability Theorem; 4.3.1 Description of the System Model; 4.3.2 Optimal Control Law Design and Property Analysis; 4.3.3 Simulation Experiments and the Results Comparisons; 4.4 Realization of the Quantum Hadamard Gate Based on the Lyapunov Method; 4.4.1 Mathematical Model
4.4.2 Realization of the Quantum Hadamard Gate
Record Nr. UNINA-9910140268503321
Cong Shuang  
Singapore : , : John Wiley & Sons, , 2014
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Control of quantum systems : theory and methods / / Shuang Cong
Control of quantum systems : theory and methods / / Shuang Cong
Autore Cong Shuang
Pubbl/distr/stampa Singapore : , : John Wiley & Sons, , 2014
Descrizione fisica 1 online resource (445 p.)
Disciplina 530.1201/1
Soggetto topico Quantum systems - Automatic control
Control theory
ISBN 1-118-60815-1
1-118-60813-5
1-118-60814-3
Classificazione TEC032000
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Cover; Title Page; Copyright; Contents; About the Author; Preface; Chapter 1 Introduction; 1.1 Quantum States; 1.2 Quantum Systems Control Models; 1.2.1 Schrödinger Equation; 1.2.2 Liouville Equation; 1.2.3 Markovian Master Equations; 1.2.4 Non-Markovian Master Equations; 1.3 Structures of Quantum Control Systems; 1.4 Control Tasks and Objectives; 1.5 System Characteristics Analyses; 1.5.1 Controllability; 1.5.2 Reachability; 1.5.3 Observability; 1.5.4 Stability; 1.5.5 Convergence; 1.5.6 Robustness; 1.6 Performance of Control Systems; 1.6.1 Probability; 1.6.2 Fidelity; 1.6.3 Purity
1.7 Quantum Systems Control 1.7.1 Description of Control Problems; 1.7.2 Quantum Control Theory and Methods; 1.8 Overview of the Book; References; Chapter 2 State Transfer and Analysis of Quantum Systems on the Bloch Sphere; 2.1 Analysis of a Two-level Quantum System State; 2.1.1 Pure State Expression on the Bloch Sphere; 2.1.2 Mixed States in the Bloch Sphere; 2.1.3 Control Trajectory on the Bloch Sphere; 2.2 State Transfer of Quantum Systems on the Bloch Sphere; 2.2.1 Control of a Single Spin-1/2 Particle; 2.2.2 Situation with the Minimum Ωt of Control Fields
2.2.3 Situation with a Fixed Time T2.2.4 Numerical Simulations and Results Analyses; References; Chapter 3 Control Methods of Closed Quantum Systems; 3.1 Improved Optimal Control Strategies Applied in Quantum Systems; 3.1.1 Optimal Control of Quantum Systems; 3.1.2 Improved Quantum Optimal Control Method; 3.1.3 Krotov-Based Method of Optimal Control; 3.1.4 Numerical Simulation and Performance Analysis; 3.2 Control Design of High-Dimensional Spin-1/2 Quantum Systems; 3.2.1 Coherent Population Transfer Approaches
3.2.2 Relationships between the Hamiltonian of Spin-1/2 Quantum Systems under Control and the Sequence of Pulses 3.2.3 Design of the Control Sequence of Pulses; 3.2.4 Simulation Experiments of Population Transfer; 3.3 Comparison of Time Optimal Control for Two-Level Quantum Systems; 3.3.1 Description of System Model; 3.3.2 Geometric Control; 3.3.3 Bang-Bang Control; 3.3.4 Time Comparisons of Two Control Strategies; 3.3.5 Numerical Simulation Experiments and Results Analyses; References; Chapter 4 Manipulation of Eigenstates-Based on Lyapunov Method
4.1 Principle of the Lyapunov Stability Theorem 4.2 Quantum Control Strategy Based on State Distance; 4.2.1 Selection of the Lyapunov Function; 4.2.2 Design of the Feedback Control Law; 4.2.3 Analysis and Proof of the Stability; 4.2.4 Application to a Spin-1/2 Particle System; 4.3 Optimal Quantum Control Based on the Lyapunov Stability Theorem; 4.3.1 Description of the System Model; 4.3.2 Optimal Control Law Design and Property Analysis; 4.3.3 Simulation Experiments and the Results Comparisons; 4.4 Realization of the Quantum Hadamard Gate Based on the Lyapunov Method; 4.4.1 Mathematical Model
4.4.2 Realization of the Quantum Hadamard Gate
Record Nr. UNINA-9910819755503321
Cong Shuang  
Singapore : , : John Wiley & Sons, , 2014
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Effective FMEAs [[electronic resource] ] : achieving safe, reliable, and economical products and processes using failure mode and effects analysis / / Carl S. Carlson
Effective FMEAs [[electronic resource] ] : achieving safe, reliable, and economical products and processes using failure mode and effects analysis / / Carl S. Carlson
Autore Carlson Carl (Carl Seymour)
Pubbl/distr/stampa Hoboken, N.J., : Wiley, c2012
Descrizione fisica 1 online resource (463 p.)
Disciplina 620.00452
658.5/62
658.562
Collana Quality and reliability engineering series
Soggetto topico Manufacturing processes - Quality control
Quality of products
ISBN 1-118-31258-9
1-280-59179-X
9786613621627
1-118-31257-0
1-118-31256-2
Classificazione TEC032000
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Effective FMEAs; Contents; Series Editor's Foreword; Copyrights and Permissions; Acknowledgments; Introduction; Chapter 1: The Case for Failure Mode and Effects Analysis; IN THIS CHAPTER; 1.1 THE NEED FOR EFFECTIVE FMEAs; 1.2 FMEA APPLICATION BY INDUSTRY; 1.3 THE FACTOR OF 10 RULE; 1.4 FMEA SUCCESSES; 1.5 BRIEF HISTORY OF FMEA; 1.6 FMEA STANDARDS AND GUIDELINES; 1.7 HOW TO USE THIS BOOK; 1.8 WEB COMPANION TO EFFECTIVE FMEAs; 1.9 END OF CHAPTER PROBLEMS; REFERENCES; Chapter 2: The Philosophy and Guiding Principles for Effective FMEAs; IN THIS CHAPTER
2.1 WHAT IS PHILOSOPHY AND WHY DOES IT MATTER TO FMEAs?2.2 GUIDING PRINCIPLES FOR EFFECTIVE FMEAs; 2.2.1 Having the Right Objectives; 2.2.2 Having the Right Resources; 2.2.3 Having the Right Procedures; 2.3 THE ROLE OF FMEA IN DESIGN FOR RELIABILITY; 2.4 YOU CAN'T ANTICIPATE EVERYTHING; 2.5 END OF CHAPTER PROBLEMS; REFERENCES; Chapter 3: Understanding the Fundamental Definitions and Concepts of FMEAs; IN THIS CHAPTER; 3.1 DEFINITION OF FMEA; 3.2 PRIMARY OBJECTIVE OF FMEA; 3.3 DEFINITION OF FAILURE MODE EFFECTS AND CRITICALITY ANALYSIS; 3.4 TYPES OF FMEAs; 3.5 FMEA DEFINITIONS AND EXAMPLES
3.5.1 Item3.5.2 Function; 3.5.3 Failure Mode; 3.5.3.1 Failure Modes at System/Subsystem Level versus Component Level; 3.5.4 Effect; 3.5.5 Severity; 3.5.6 Cause; 3.5.7 Occurrence; 3.5.8 Controls; 3.5.9 Detection; 3.5.10 Risk Priority Number; 3.5.11 Recommended Actions; 3.6 IS IT A FAILURE MODE, EFFECT, OR CAUSE?; 3.7 FMEA GLOSSARY; 3.8 WEB COMPANION TO EFFECTIVE FMEAs; 3.9 END OF CHAPTER PROBLEMS; REFERENCES; Chapter 4: Selection and Timing of FMEA Projects; IN THIS CHAPTER; 4.1 GUIDELINES FOR WHEN TO DO FMEAs; 4.2 FMEA PROJECT SELECTION CRITERIA; 4.3 PRELIMINARY RISK ASSESSMENT
4.4 WHEN TO DO DIFFERENT TYPES OF FMEAs4.5 RESPONSIBILITY FOR FMEAs BETWEEN OEMs AND SUPPLIERS; 4.6 INTRODUCING THE ALL-TERRAIN BICYCLE CASE STUDY; 4.7 END OF CHAPTER PROBLEMS; Chapter 5: How to Perform an FMEA Project: Preparation; IN THIS CHAPTER; USE OF THE BICYCLE EXAMPLES IN THE CHAPTER; 5.1 THE SUBJECT OF FMEA PREPARATION; 5.2 PREPARATION TASKS DONE ONCE FOR ALL FMEA PROJECTS; 5.2.1 FMEA Software Selection; 5.2.2 Selecting or Modifying FMEA Worksheets and Scales; 5.2.3 Identifying Roles and Responsibilities; 5.2.4 FMEA Team Training; 5.2.5 Legal Guidelines for Doing FMEAs
5.2.6 Meeting Logistics5.2.7 Defining the System Hierarchy (For System and Design FMEAs); 5.2.8 Defining the Process Steps (for Process FMEAs); 5.2.9 Access to Failure Information; 5.3 PREPARATION TASKS FOR EACH NEW FMEA PROJECT; 5.3.1 Determine the Scope of the Analysis; 5.3.2 Make the Scope Visible (for System and Design FMEAs); 5.3.2.1 FMEA Block Diagram; 5.3.2.2 FMEA Interface Matrix; 5.3.2.3 Parameter Diagram (P-Diagram); 5.3.2.4 Functional Block Diagram; 5.3.3 Make the Scope Visible (for Process FMEAs); 5.3.3.1 Process Flow Diagram (PFD); 5.3.3.2 PFD Worksheet
5.3.4 Assemble the Correct Team
Record Nr. UNINA-9910141265803321
Carlson Carl (Carl Seymour)  
Hoboken, N.J., : Wiley, c2012
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Effective FMEAs : achieving safe, reliable, and economical products and processes using failure mode and effects analysis / / Carl S. Carlson
Effective FMEAs : achieving safe, reliable, and economical products and processes using failure mode and effects analysis / / Carl S. Carlson
Autore Carlson Carl (Carl Seymour)
Pubbl/distr/stampa Hoboken, N.J., : Wiley, c2012
Descrizione fisica 1 online resource (463 p.)
Disciplina 658.5/62
Collana Quality and reliability engineering series
Soggetto topico Manufacturing processes - Quality control
Quality of products
ISBN 1-118-31258-9
1-280-59179-X
9786613621627
1-118-31257-0
1-118-31256-2
Classificazione TEC032000
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Effective FMEAs; Contents; Series Editor's Foreword; Copyrights and Permissions; Acknowledgments; Introduction; Chapter 1: The Case for Failure Mode and Effects Analysis; IN THIS CHAPTER; 1.1 THE NEED FOR EFFECTIVE FMEAs; 1.2 FMEA APPLICATION BY INDUSTRY; 1.3 THE FACTOR OF 10 RULE; 1.4 FMEA SUCCESSES; 1.5 BRIEF HISTORY OF FMEA; 1.6 FMEA STANDARDS AND GUIDELINES; 1.7 HOW TO USE THIS BOOK; 1.8 WEB COMPANION TO EFFECTIVE FMEAs; 1.9 END OF CHAPTER PROBLEMS; REFERENCES; Chapter 2: The Philosophy and Guiding Principles for Effective FMEAs; IN THIS CHAPTER
2.1 WHAT IS PHILOSOPHY AND WHY DOES IT MATTER TO FMEAs?2.2 GUIDING PRINCIPLES FOR EFFECTIVE FMEAs; 2.2.1 Having the Right Objectives; 2.2.2 Having the Right Resources; 2.2.3 Having the Right Procedures; 2.3 THE ROLE OF FMEA IN DESIGN FOR RELIABILITY; 2.4 YOU CAN'T ANTICIPATE EVERYTHING; 2.5 END OF CHAPTER PROBLEMS; REFERENCES; Chapter 3: Understanding the Fundamental Definitions and Concepts of FMEAs; IN THIS CHAPTER; 3.1 DEFINITION OF FMEA; 3.2 PRIMARY OBJECTIVE OF FMEA; 3.3 DEFINITION OF FAILURE MODE EFFECTS AND CRITICALITY ANALYSIS; 3.4 TYPES OF FMEAs; 3.5 FMEA DEFINITIONS AND EXAMPLES
3.5.1 Item3.5.2 Function; 3.5.3 Failure Mode; 3.5.3.1 Failure Modes at System/Subsystem Level versus Component Level; 3.5.4 Effect; 3.5.5 Severity; 3.5.6 Cause; 3.5.7 Occurrence; 3.5.8 Controls; 3.5.9 Detection; 3.5.10 Risk Priority Number; 3.5.11 Recommended Actions; 3.6 IS IT A FAILURE MODE, EFFECT, OR CAUSE?; 3.7 FMEA GLOSSARY; 3.8 WEB COMPANION TO EFFECTIVE FMEAs; 3.9 END OF CHAPTER PROBLEMS; REFERENCES; Chapter 4: Selection and Timing of FMEA Projects; IN THIS CHAPTER; 4.1 GUIDELINES FOR WHEN TO DO FMEAs; 4.2 FMEA PROJECT SELECTION CRITERIA; 4.3 PRELIMINARY RISK ASSESSMENT
4.4 WHEN TO DO DIFFERENT TYPES OF FMEAs4.5 RESPONSIBILITY FOR FMEAs BETWEEN OEMs AND SUPPLIERS; 4.6 INTRODUCING THE ALL-TERRAIN BICYCLE CASE STUDY; 4.7 END OF CHAPTER PROBLEMS; Chapter 5: How to Perform an FMEA Project: Preparation; IN THIS CHAPTER; USE OF THE BICYCLE EXAMPLES IN THE CHAPTER; 5.1 THE SUBJECT OF FMEA PREPARATION; 5.2 PREPARATION TASKS DONE ONCE FOR ALL FMEA PROJECTS; 5.2.1 FMEA Software Selection; 5.2.2 Selecting or Modifying FMEA Worksheets and Scales; 5.2.3 Identifying Roles and Responsibilities; 5.2.4 FMEA Team Training; 5.2.5 Legal Guidelines for Doing FMEAs
5.2.6 Meeting Logistics5.2.7 Defining the System Hierarchy (For System and Design FMEAs); 5.2.8 Defining the Process Steps (for Process FMEAs); 5.2.9 Access to Failure Information; 5.3 PREPARATION TASKS FOR EACH NEW FMEA PROJECT; 5.3.1 Determine the Scope of the Analysis; 5.3.2 Make the Scope Visible (for System and Design FMEAs); 5.3.2.1 FMEA Block Diagram; 5.3.2.2 FMEA Interface Matrix; 5.3.2.3 Parameter Diagram (P-Diagram); 5.3.2.4 Functional Block Diagram; 5.3.3 Make the Scope Visible (for Process FMEAs); 5.3.3.1 Process Flow Diagram (PFD); 5.3.3.2 PFD Worksheet
5.3.4 Assemble the Correct Team
Record Nr. UNINA-9910827425403321
Carlson Carl (Carl Seymour)  
Hoboken, N.J., : Wiley, c2012
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Failure analysis : a practical guide for manufacturers of electronic components and systems / / Marius I. Bazu, Titu-Marius I. Bajenescu
Failure analysis : a practical guide for manufacturers of electronic components and systems / / Marius I. Bazu, Titu-Marius I. Bajenescu
Autore Bazu M. I (Marius I.), <1948->
Pubbl/distr/stampa Chichester, West Sussex, U.K., : Wiley, c2011
Descrizione fisica 1 online resource (341 pages)
Disciplina 621.381
Altri autori (Persone) BajenescuTitu I. <1938->
Collana Wiley series in quality & reliability engineering
Soggetto topico Electronic apparatus and appliances - Reliability
Electronic systems - Testing
System failures (Engineering) - Prevention
ISBN 9781119990093
1-119-99000-9
1-283-40520-2
9786613405203
1-119-99010-6
1-119-99009-2
Classificazione TEC032000
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto FAILURE ANALYSIS; Contents; Series Editor's Foreword; Foreword by Dr Craig Hillman; Series Editor's Preface; Preface; About the Authors; 1 Introduction; 1.1 The Three Goals of the Book; 1.2 Historical Perspective; 1.2.1 Reliability Prehistory; 1.2.2 The Birth of Reliability as a Discipline; 1.2.3 Historical Development of Reliability; 1.2.4 Tools for Failure Analysis; 1.3 Terminology; 1.4 State of the Art and Future Trends; 1.4.1 Techniques of Failure Analysis; 1.4.2 Failure Mechanisms; 1.4.3 Models for the Physics-of-Failure; 1.4.4 Future Trends; 1.5 General Plan of the Book; References
2 Failure Analysis - Why?2.1 Eight Possible Applications; 2.2 Forensic Engineering; 2.2.1 FA at System Level; 2.2.2 FA at Component Level; 2.3 Reliability Modelling; 2.3.1 Economic Benefits of Using Reliability Models; 2.3.2 Reliability of Humans; 2.4 Reverse Engineering; 2.5 Controlling Critical Input Variables; 2.6 Design for Reliability; 2.7 Process Improvement; 2.7.1 Reliability Assurance; 2.8 Saving Money through Early Control; 2.9 A Synergetic Approach; 2.9.1 Synergies of Technological Factors; 2.9.2 Test Structures; 2.9.3 Packaging Reliability
2.9.4 Synergies of Operational Stress Factors2.9.5 Synergetic Team; References; 3 Failure Analysis - When?; 3.1 Failure Analysis during the Development Cycle; 3.1.1 Concurrent Engineering; 3.1.2 Failure Analysis during the Design Stage; 3.1.3 Virtual Prototyping; 3.1.4 Reliability Testing during the Development Cycle; 3.2 Failure Analysis during Fabrication Preparation; 3.2.1 Reliability Analysis of Materials; 3.2.2 Degradation Phenomena in Polymers used in Electron Components; 3.3 FA during Fabrication; 3.3.1 Manufacturing History; 3.3.2 Reliability Monitoring; 3.3.3 Wafer-Level Reliability
3.3.4 Yield and Reliability3.3.5 Packaging Reliability; 3.3.6 Improving Batch Reliability: Screening and Burn-In; 3.4 FA after Fabrication; 3.4.1 Standard-Based Testing; 3.4.2 Knowledge-Based Testing; 3.5 FA during Operation; 3.5.1 Failure Types during Operation; 3.5.2 Preventive Maintenance of Electronic Systems; References; 4 Failure Analysis - How?; 4.1 Procedures for Failure Analysis; 4.2 Techniques for Decapsulating the Device and for Sample Preparation; 4.2.1 Decapping Techniques; 4.2.2 Decapsulation Techniques; 4.2.3 Cross-Sectioning; 4.2.4 Focused Ion Beam; 4.2.5 Other Techniques
4.3 Techniques for Failure Analysis4.3.1 Electrical Techniques; 4.3.2 Optical Microscopy; 4.3.3 Scanning Probe Microscopy (SPM); 4.3.4 Microthermographical Techniques; 4.3.5 Electron Microscopy; 4.3.6 X-Ray Techniques; 4.3.7 Spectroscopic Techniques; 4.3.8 Acoustic Techniques; 4.3.9 Laser Techniques; 4.3.10 Holographic Interferometry; 4.3.11 Emission Microscopy; 4.3.12 Atom Probe; 4.3.13 Neutron Radiography; 4.3.14 Electromagnetic Field Measurements; 4.3.15 Other Techniques; References; 5 Failure Analysis - What?; 5.1 Failure Modes and Mechanisms at Various Process Steps; 5.1.1 Wafer Level
5.1.2 Packaging
Record Nr. UNINA-9910814322803321
Bazu M. I (Marius I.), <1948->  
Chichester, West Sussex, U.K., : Wiley, c2011
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui