an introduction to network modeling and simulation for the practicing engineer

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an introduction to network modeling and simulation for the practicing engineer

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[...]... is important for the simulation designer to do his or her homework and construct the best COMMON PITFALLS OF MODELING AND SIMULATION AND RULES OF THUMB 15 educated guess when formulating mobility models for use in simulations It is also important to perform sensitivity analysis to understand how the metrics of interest change with different mobility models to understand the M&S limitations for a particular... many tools available to the network engineer that can assist in answering these questions, including analysis, prototype implementation and empirical testing, trial field deployments, and modeling and simulation (M&S) It should be stated now that no one tool is typically sufficient in understanding the performance of a network; unfortunately, there is no “silver bullet” answer to all our questions The. .. imperative to understand the limitations of M&S techniques and to understand the relationship between cost and fidelity so that an M&S effort does not become an over-engineered effort in futility How much detail is sufficient in a simulation to capture the essence of the real-world network being modeled? Unfortunately, the answer to this question is that it depends on the particular simulation scenario The. .. We would like to acknowledge the numerous individuals who have helped make this book a reality First and foremost, we would like to acknowledge Brian Haberman and Julia Andrusenko for their assistance in writing this book, contributing their expertise and understanding of network simulation tools and radio frequency propagation tools, respectively We would like to thank Robert Nichols for his long-time... on analysis and M&S to perform requirements verification and to form the basis of any performance evaluation In many cases, M&S may provide the only viable method for providing insight into the behavior of the eventual system prior to full-scale deployment Once the importance of M&S is established, many additional questions still arise: How does the network engineer properly employ M&S? What are the. .. evolving demands Equipment vendors continue to release new devices with ever-increasing capability and complexity Technology developers rapidly develop next-generation replacements to existing capabilities to keep up with demand These rapid developments in the network industry lead to a large, complex landscape The network designer and developer wants (and needs) to satisfy the demands of the users This... significant complexity into the effective evaluation of these systems and how these various tools can be employed Evaluation is often conducted through the coordinated usage of analysis, M&S, and trial deployments in closely monitored environments Due to the costs and complexities of deployments, analysis and M&S are often used to determine the most sensitive performance areas that are then the focus... performance of the MAC layer protocol and of the higher layers (e.g., IP routing) This will impact the performance of the MAC layer protocol and of the higher layers (e.g., IP routing) This will impact the performance of the MAC layer protocol and of the higher layers (e.g., IP routing) TABLE 1-2 Typical Outputs from a Wireless Network Simulation Parameter BER PER Throughput Goodput Latency Explanation... rely on any existing tools but rather develops the simulation in its entirety The advantages of homebrew simulations include: • • The implementer knows exactly what has been implemented Homebrew solutions can have significant performance benefits The disadvantages of homebrew simulations include: • • • They can be costly to develop They can be difficult to upgrade There is a real risk of these custom simulations... appropriate M&S tools to employ? While networking technologies continue to evolve rapidly, so too do M&S tools intended to evaluate their performance The M&S landscape is indeed a complicated space with a multitude of tools with a variety of capabilities and pitfalls Furthermore, there is often a poor understanding of the proper role and application of M&S and how it should fit within the overall evaluation . Introduction to Network Modeling and Simulation for the Practicing Engineer Jack Burbank, William Kasch, Jon Ward AN INTRODUCTION TO NETWORK MODELING AND SIMULATION FOR THE PRACTICING ENGINEER Jack. complex landscape. The network designer and developer wants (and needs) to satisfy the demands of the users. This is diffi cult, as it is often complicated for the typical network engineer to fully. the Authors xi 1. Introduction 1 1.1 Advantages and Disadvantages of Modeling and Simulation 6 1.2 Comparison of “Homebrew” Models and Simulation Tools 8 1.3 Common Pitfalls of Modeling and Simulation

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  • AN INTRODUCTION TO NETWORK MODELING AND SIMULATION FOR THE PRACTICING ENGINEER

    • CONTENTS

    • PREFACE

    • ACKNOWLEDGMENTS

    • ABOUT THE AUTHORS

    • CHAPTER 1: Introduction

      • 1.1 ADVANTAGES AND DISADVANTAGES OF MODELING AND SIMULATION

      • 1.2 COMPARISON OF “HOMEBREW” MODELS AND SIMULATION TOOLS

      • 1.3 COMMON PITFALLS OF MODELING AND SIMULATION AND RULES OF THUMB

      • 1.4 AN OVERVIEW OF COMMON M&S TOOLS

      • 1.5 AN OVERVIEW OF THE REST OF THIS BOOK

    • CHAPTER 2: Modeling and Simulation for RF Propagation

      • 2.1 THE FADING CHANNEL

      • 2.2 THE ITU M.1225 MULTIPATH FADING PROFILE FOR MOBILE WiMAX

      • 2.3 PRACTICAL FADING MODEL IMPLEMENTATIONS—WiMAX EXAMPLE

      • 2.4 RF PROPAGATION SIMULATORS

      • 2.5 PROPAGATION AND FADING SIMULATIONS—LESSONS LEARNED

    • CHAPTER 3: Physical Layer Modeling and Simulation

      • 3.1 INCORPORATING INTERFERENCE INTO A MODEL

      • 3.2 THE IMPORTANCE OF A PREAMBLE

      • 3.3 PRACTICAL WIRELESS PHY MODEL IMPLEMENTATIONS

      • 3.4 WIRELESS NETWORK SIMULATION LESSONS LEARNED AND COMMON PITFALLS—PHY LAYER

    • CHAPTER 4: Medium Access Control Modeling and Simulation

      • 4.1 MODELING AND SIMULATION OF WIRED MACs

      • 4.2 WIRELESS NETWORK MAC SIMULATION

      • 4.3 PRACTICAL MAC MODEL IMPLEMENTATIONS

      • 4.4 NETWORK SIMULATION LESSONS LEARNED AND COMMON PITFALLS—MAC LAYER

    • CHAPTER 5: Modeling and Simulation for Higher Layer Protocols

      • 5.1 NETWORK LAYER

      • 5.2 TRANSPORT AND APPLICATION LAYERS

      • 5.3 EXAMPLE OF HIGHER LAYER MODELING: TRANSPORT LAYER PERFORMANCE ANALYSIS

      • 5.4 EXAMPLE OF HIGHER LAYER MODELING: DETAILED NETWORK LAYER MODELING

    • CHAPTER 6: Hardware-in-the-Loop Simulations

      • 6.1 ADVANTAGES AND DISADVANTAGES OF HITL APPROACHES

      • 6.2 NETWORK M&S HITL APPROACHES

      • 6.3 HITL EXAMPLES

      • 6.4 COMMON PITFALLS FOR HITL APPROACHES

      • 6.5 NETWORK-LAYER HITL-READY NETWORK SIMULATION PLATFORMS

      • 6.6 HITL CONCLUSION

    • CHAPTER 7: Complete Network Modeling and Simulation

      • 7.1 COMPLETE NETWORK M&S PLATFORMS

      • 7.2 IEEE HLA (1516)

      • 7.3 COMPLETE NETWORK SIMULATION EXAMPLES

    • CHAPTER 8: Other Vital Aspects of Successful Network Modeling and Simulation

      • 8.1 VERIFICATION AND VALIDATION

      • 8.2 DATA VISUALIZATION AND INTERPRETATION

    • CHAPTER 9: Network Modeling and Simulation: Summary

    • REFERENCES

    • INDEX

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