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9780470847725

Simulation : The Practice of Model Development and Use

by
  • ISBN13:

    9780470847725

  • ISBN10:

    0470847727

  • Format: Paperback
  • Copyright: 2004-03-01
  • Publisher: WILEY
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Summary

Simulation modelling involves the development of models that imitate real-world operations, and statistical analysis of their performance with a view to improving efficiency and effectiveness. This non-technical textbook is focused towards the needs of business, engineering and computer science students, and concentrates on discrete event simulations as it is used in operations management. Stewart Robinson of Warwick Business School offers guidance through the key stages in a simulation project in terms of both the technical requirements and the project management issues surrounding it. Readers will emerge able to develop appropriate valid conceptual models, perform simulation experiments, analyse the results and draw insightful conclusions.

Author Biography

Stewart Robinson is a Senior Lecturer in Operational Research at Warwick Business School. With more than 15 years experience of simulation and its practice, he has consulted for many national and international organizations. His teaching and research focus on simulation and the practical application of operational research. These are subjects on which he has published three books and more than 40 articles.

Table of Contents

ACKNOWLEDGEMENTS.
PREFACE.
CHAPTER 1: www.simulation: What, Why and When?
1.1 Introduction.
1.2 What is simulation?
1.3 Why simulate?
1.3.1 The nature of operations systems: variability, interconnectedness and complexity.
1.3.2 The advantages of simulation.
1.3.3 The disadvantages of simulation.
1.4 When to simulate.
1.5 Conclusion.
Exercises.
References.
CHAPTER 2: Inside Simulation Software.
2.1 Introduction.
2.2 Modelling the progress of time.
2.2.1 The time-slicing approach.
2.2.2 The discrete-event simulation approach (three-phase method).
2.2.3 The continuous simulation approach.
2.2.4 Summary: modelling the progress of time.
2.3 Modelling variability.
2.3.1 Modelling unpredictable variability.
2.3.2 Random numbers.
2.3.3 Relating random numbers to variability in a simulation.
2.3.4 Modelling variability in times.
2.3.5 Sampling from standard statistical distributions.
2.3.6 Computer generated random numbers.
2.3.7 Modelling predictable variability.
2.3.8 Summary on modelling variability.
2.4 Conclusion.
Exercises.
References.
CHAPTER 3: Software for Simulation.
3.1 Introduction.
3.2 Visual interactive simulation.
3.3 Simulation software.
3.3.1 Spreadsheets.
3.3.2 Programming languages.
3.3.3 Specialist simulation software.
3.3.4 Comparing spreadsheets, programming languages and specialist simulation software.
3.4 Selection of simulation software.
3.4.1 The process of software selection.
3.4.2 Step 1: Establish the modelling requirements.
3.4.3 Step 2: Survey and shortlist the software.
3.4.4 Step 3: Establish evaluation criteria.
3.4.5 Step 4: Evaluate the software in relation to the criteria.
3.4.6 Step 5: Software selection.
3.5 Conclusion.
References.
CHAPTER 4: Simulation Studies: An Overview.
4.1 Introduction.
4.2 Simulation studies: an overview of key modelling processes.
4.2.1 Simulation modelling is not linear.
4.2.2 Something is missing!
4.3 Simulation project time-scales.
4.4 The simulation project team.
4.5 Hardware and software requirements.
4.6 Project costs.
4.7 Project selection.
4.8 Conclusion.
References.
CHAPTER 5: Conceptual Modelling.
5.1 Introduction.
5.2 Conceptual modelling: important but little understood.
5.3 What is a conceptual model?
5.4 Requirements of the conceptual model.
5.4.1 Four requirements of a conceptual model.
5.4.2 Keep the model simple.
5.5 Communicating the conceptual model.
5.5.1 Simulation project specification.
5.5.2 Representing the conceptual model.
5.6 Conclusion.
Exercise.
References.
CHAPTER 6: Developing the Conceptual Model.
6.1 Introduction.
6.2 A Framework for conceptual modelling.
6.2.1 Developing an understanding of the problem situation.
6.2.2 Determining the modelling objectives.
6.2.3 Designing the conceptual model: the inputs and outputs.
6.2.4 Designing the conceptual model: the model content.
6.2.5 The role of data in conceptual modelling.
6.2.6 Summary of the conceptual modelling framework.
6.3 Methods of model simplification.
6.3.1 Aggregation of model components.
6.3.2 Excluding components and details.
6.3.3 Replacing components with random variables.
6.3.4 Excluding infrequent events.
6.3.5 Reducing the rule set.
6.3.6 Splitting models.
6.3.7 What is a good simplification?
6.4 Conclusion.
Exercises.
References.
CHAPTER 7: Data Collection and Analysis.
7.1 Introduction.
7.2 Data requirements.
7.3 Obtaining data.
7.3.1 Dealing with unobtainable (category C) data.
7.3.2 Data accuracy.
7.3.3 Data format.
7.4 Representing unpredictable variability.
7.4.1 Traces.
7.4.2 Empirical distributions.
7.4.3 Statistical distributions.
7.4.4 Traces versus empirical distributions versus statistical distributions.
7.4.5 Bootstrapping.
7.4.6 Further issues in representing unpredictable variability: correlation and non-stationary data.
7.5 Selecting statistical distributions.
7.5.1 Selecting distributions from known properties of the process.
7.5.2 Fitting statistical distributions to empirical data.
7.6 Conclusion.
Exercises.
References.
CHAPTER 8: Model Coding.
8.1 Introduction.
8.2 Structuring the model.
8.3 Coding the model
8.3.1 Separate the data from the code from the results.
8.3.2 Use of pseudo random number streams.
8.4 Documenting the model and the simulation project.
8.5 Conclusion.
Exercises.
References.
CHAPTER 9: Experimentation: Obtaining Accurate Results.
9.1 Introduction.
9.2 The nature of simulation models and simulation output.
9.2.1 Terminating and non-terminating simulations.
9.2.2 Transient output.
9.2.3 Steady-state output.
9.2.4 Other types of output.
9.2.5 Determining the nature of the simulation output.
9.3 Issues in obtaining accurate simulation results.
9.3.1 Initialization bias: warm-up and initial conditions.
9.3.2 Obtaining sufficient output data: long runs and multiple replications.
9.4 An example model: computer user help desk.
9.5 Dealing with initialization bias: warm-up and initial conditions.
9.5.1 Determining the warm-up period.
9.5.2 Setting initial conditions.
9.5.3 Mixed initial conditions and warm-up.
9.5.4 Initial conditions versus warm-up.
9.6 Selecting the number of replications and run-length.
9.6.1 Performing multiple replications.
9.6.2 Variance reduction (antithetic variates).
9.6.3 Performing a single long run.
9.6.4 Multiple replications versus long runs.
9.7 Conclusion.
Exercises.
References.
CHAPTER 10: Experimentation: Searching the Solution Space.
10.1 Introduction.
10.2 The nature of simulation experimentation.
10.2.1 Interactive and batch experimentation.
10.2.2 Comparing alternatives and search experimentation.
10.3 Analysis of results from a single scenario.
10.3.1 Point estimates.
10.3.2 Measures of variability.
10.4 Comparing alternatives.
10.4.1 Comparison of two scenarios.
10.4.2 Comparison of many scenarios.
10.4.3 Choosing the best scenario(s).
10.5 Search experimentation.
10.5.1 Informal approaches to search experimentation.
10.5.2 Experimental design.
10.5.3 Metamodelling.
10.5.4 Optimization ("searchization").
10.6 Sensitivity analysis.
10.7 Conclusion.
Exercises.
References.
CHAPTER 11: Implementation.
11.1 Introduction.
11.2 What is implementation?
11.2.1 Implementing the findings.
11.2.2 Implementing the model.
11.2.3 Implementation as learning.
11.3 Implementation and simulation project success.
11.3.1 What is simulation project success?
11.3.2 How is success achieved?
11.3.3 How is success measured?
11.4 Conclusion.
References.
CHAPTER 12: Verification, Validation and Confidence.
12.1 Introduction.
12.2 What is verification and validation?
12.3 The difficulties of verification and validationCHAPTER 13: The Practice of Simulation.
13.1 Introduction.
13.2 Types of simulation model.
13.3 Modes of simulation practice.
13.3.1 Three modes of practice.
13.3.2 Facets of the modes of simulation practice.
13.3.3 Modes of practice in business and the military.
13.4 Conclusion.
References.
APPENDIX 1: Wardeon Cinema.
APPENDIX 2: Panorama Televisions.
APPENDIX 3: Methods of reporting simulation results.
APPENDIX 4: Statistical distributions.
APPENDIX 5: Critical values for the chi-square test.
APPENDIX 6: Critical values for the Student’s t-distribution.
Index.

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