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Optical Transmission and Networks for Next Generation Internet Traffic Highways

Book Description

Data services, especially those involving multimedia applications, can often be bandwidth intensive and accessed simultaneously by a large number of users. As such, efforts are being made to replace conventional network infrastructure, based on copper lines and coaxial cables, with fiber optic networks for improved performance. Optical Transmission and Networks for Next Generation Internet Traffic Highways provides a broader perspective of the parameters involved in the transmission of optical signals using optical soliton systems, OCDM-WDM, SCM-WDM and OTDM-WDM. This timely publication is ideal for use by technical managers, graduate students, engineers and technicians involved in the fiber-optics industry, and scientists working in the field of optical communications.

Table of Contents

  1. Cover
  2. Title Page
  3. Copyright Page
  4. Preface
    1. REFERENCES
  5. Acknowledgment
  6. Section 1:
    1. Chapter 1: Optical Transport Network
      1. ABSTRACT
      2. INTRODUCTION
      3. FIBER ATTENUATIONS
      4. OPTICAL AMPLIFIERS
      5. FIBER DISPERSION
      6. WDM LINEAR CROSSTALK
      7. SUMMARY
      8. REFERENCES
      9. KEY TERMS AND DEFINITIONS
    2. Chapter 2: Optical Transport Network
      1. ABSTRACT
      2. INTRODUCTION
      3. SELF PHASE MODULATION
      4. OPTICAL SOLITON
      5. CROSS PHASE MODULATION
      6. FOUR WAVE MIXING
      7. NONLINEAR SCATTERING
      8. SUMMARY
      9. REFERENCES
      10. KEY TERMS AND DEFINITIONS
  7. Section 2:
    1. Chapter 3: Optical Soliton Transmission System
      1. ABSTRACT
      2. INTRODUCTION
      3. THEORETICAL ANALYSIS
      4. BIT ERROR RATE THROUGH THE Q-MAP METHOD
      5. NOISE MODEL
      6. PARAMETERS USED IN SIMULATION
      7. RESULTS AND DISCUSSIONS
      8. SUMMARY
      9. REFERENCES
      10. KEY TERMS AND DEFINITIONS
    2. Chapter 4: A Detailed Analysis of Cross-Phase Modulation Effects on OOK and DPSK Optical WDM Transmission Systems
      1. ABSTRACT
      2. INTRODUCTION
      3. SYSTEM MODEL
      4. THEORETICAL ANALYSIS
      5. RESULTS AND DISCUSSIONS
      6. SUMMARY
      7. REFERENCES
      8. KEY TERMS AND DEFINITIONS
    3. Chapter 5: SCM-WDM PONs in Presence of XPM and GVD
      1. ABSTRACT
      2. INTRODUCTION
      3. THEORETICAL MODEL
      4. SEMI-ANALYTICAL RESULTS
      5. ANALYSIS AND DISCUSSION
      6. DESIGN OF SCM-WDM PON
      7. SUMMARY
      8. REFERENCES
      9. KEY TERMS AND DEFINITIONS
    4. Chapter 6: Phase Encoded Optical Code Division Multiplexing Access System
      1. ABSTRACT
      2. INTRODUCTION
      3. SYSTEM BLOCK DIAGRAM AND DESCRIPTION
      4. THEORETICAL ANALYSIS OF PSEUDORANDOM OPTICAL SIGNAL
      5. BIT ERROR RATE
      6. SUMMARY
      7. REFERENCES
      8. KEY TERMS AND DEFINITIONS
  8. Section 3:
    1. Chapter 7: OTDM-WDM
      1. ABSTRACT
      2. INTRODUCTION
      3. OTDM: OPERATING PRINCIPLE
      4. OTDM DEVICES AND TECHNIQUES
      5. ULTRA SHORT OPTICAL PULSE GENERATION
      6. ALL-OPTICAL TDM MULTIPLEXER/DEMULTIPLEXER
      7. WDM: OPERATING PRINCIPLE
      8. WDM DEVICES AND TECHNIQUES
      9. OTDM-WDM SYSTEM
      10. SUMMARY
      11. REFERENCES
      12. KEY TERMS AND DEFINITIONS
    2. Chapter 8: OTDM-WDM
      1. ABSTRACT
      2. INTRODUCTION
      3. SYSTEM BLOCK DIAGRAM AND OPERATION MODEL
      4. PERFORMANCE ESTIMATION MODELS
      5. SUMMARY
      6. REFERENCES
      7. KEY TERMS AND DEFINITIONS
    3. Chapter 9: OTDM-WDM System Components Modeling
      1. ABSTRACT
      2. INTRODUCTION
      3. OTDM-WDM SYSTEM MODEL
      4. SPLIT-STEP FOURIER METHOD (SSFM)
      5. ANALYTICAL METHODS
      6. INTENSITY MODULATION: DIRECT DETECTION RECEIVER
      7. DPSK RECEIVER
      8. NETWORK MODELS
      9. SUMMARY
      10. REFERENCES
      11. KEY TERMS AND DEFINITIONS
  9. Section 4:
    1. Chapter 10: Performance Analysis Models
      1. ABSTRACT
      2. INTRODUCTION
      3. EYE PENALTY ESTIMATION
      4. AMPLITUDE AND TIMING JITTER
      5. SIGNAL TO NOISE RATIO (SNR)
      6. BIT ERROR RATE
      7. MONTE-CARLO SIMULATION
      8. Q FACTOR MODEL
      9. DIFFERENTIAL PHASE Q (DP-Q)
      10. NETWORK BER MODEL
      11. SUMMARY
      12. REFERENCES
      13. KEY TERMS AND DEFINITIONS
    2. Chapter 11: Optimization of Parameters for Optimal Performance
      1. ABSTRACT
      2. INTRODUCTION
      3. PERFORMANCE ESTIMATION MODEL
      4. RESULTS AND DISUCUSSION
      5. SUMMARY
      6. REFERENCES
      7. KEY TERMS AND DEFINITIONS
    3. Chapter 12: Modified DP-Q and MGF BER
      1. ABSTRACT
      2. INTRODUCTION
      3. Q FACTOR MODELS
      4. SIMULATION DETAILS
      5. RESULTS AND DISCUSSION
      6. MGF TESTS
      7. SUMMARY
      8. REFERENCES
      9. KEY TERMS AND DEFINITIONS
  10. Section 5:
    1. Chapter 13: Comparison of RZ-OOK and RZ-DPSK Optimal Performance
      1. ABSTRACT
      2. INTRODUCTION
      3. SYSTEM MODEL
      4. PERFORMANCE ESTIMATION MODEL
      5. RESULTS AND DISCUSSION
      6. SUMMARY
      7. REFERENCES
      8. KEY TERMS AND DEFINITIONS
    2. Chapter 14: Impact of a Post-OTDM-Demux Optical Filter
      1. ABSTRACT
      2. INTRODUCTION
      3. SYSTEM MODEL
      4. PERFORMANCE ESTIMATION MODEL
      5. SUMMARY
      6. REFERENCES
      7. KEY TERMS AND DEFINITIONS
    3. Chapter 15: Network Performance Analysis with Nonlinear Effects
      1. ABSTRACT
      2. INTRODUCTION
      3. SYSTEM MODEL
      4. PERFORMANCE ESTIMATION MODEL
      5. RESULTS AND DISCUSSION
      6. SUMMARY
      7. REFERENCES
      8. KEY TERMS AND DEFINITIONS
  11. Compilation of References
  12. About the Authors