Optical Fiber Communication Systems with MATLAB® and Simulink® Models, 2nd Edition

Optical Fiber Communication Systems with MATLAB® and Simulink® Models, 2nd Edition

by Le Nguyen Binh
Released December 2014
Publisher(s): CRC Press
ISBN: 9781482217520

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Book description

Carefully structured to instill practical knowledge of fundamental issues, Optical Fiber Communication Systems with MATLAB® and Simulink® Models describes the modeling of optically amplified fiber communications systems using MATLAB® and Simulink®. This lecture-based book focuses on concepts and interpretation, mathematical procedures, and engineering applications, shedding light on device behavior and dynamics through computer modeling.

Supplying a deeper understanding of the current and future state of optical systems and networks, this Second Edition:

  • Reflects the latest developments in optical fiber communications technology
  • Includes new and updated case studies, examples, end-of-chapter problems, and MATLAB® and Simulink® models
  • Emphasizes DSP-based coherent reception techniques essential to advancement in short- and long-term optical transmission networks

Optical Fiber Communication Systems with MATLAB® and Simulink® Models, Second Edition is intended for use in university and professional training courses in the specialized field of optical communications. This text should also appeal to students of engineering and science who have already taken courses in electromagnetic theory, signal processing, and digital communications, as well as to optical engineers, designers, and practitioners in industry.

Table of contents

  1. Front Cover (1/2)
  2. Front Cover (2/2)
  3. Dedication
  4. Contents (1/3)
  5. Contents (2/3)
  6. Contents (3/3)
  7. Preface
  8. List of Abbreviations
  9. Chapter 1 - Introduction (1/3)
  10. Chapter 1 - Introduction (2/3)
  11. Chapter 1 - Introduction (3/3)
  12. Chapter 2 - Optical Fibers: Geometrical and Guiding Properties (1/9)
  13. Chapter 2 - Optical Fibers: Geometrical and Guiding Properties (2/9)
  14. Chapter 2 - Optical Fibers: Geometrical and Guiding Properties (3/9)
  15. Chapter 2 - Optical Fibers: Geometrical and Guiding Properties (4/9)
  16. Chapter 2 - Optical Fibers: Geometrical and Guiding Properties (5/9)
  17. Chapter 2 - Optical Fibers: Geometrical and Guiding Properties (6/9)
  18. Chapter 2 - Optical Fibers: Geometrical and Guiding Properties (7/9)
  19. Chapter 2 - Optical Fibers: Geometrical and Guiding Properties (8/9)
  20. Chapter 2 - Optical Fibers: Geometrical and Guiding Properties (9/9)
  21. Chapter 3 - Optical Fibers: Signal Attenuation and Dispersion (1/10)
  22. Chapter 3 - Optical Fibers: Signal Attenuation and Dispersion (2/10)
  23. Chapter 3 - Optical Fibers: Signal Attenuation and Dispersion (3/10)
  24. Chapter 3 - Optical Fibers: Signal Attenuation and Dispersion (4/10)
  25. Chapter 3 - Optical Fibers: Signal Attenuation and Dispersion (5/10)
  26. Chapter 3 - Optical Fibers: Signal Attenuation and Dispersion (6/10)
  27. Chapter 3 - Optical Fibers: Signal Attenuation and Dispersion (7/10)
  28. Chapter 3 - Optical Fibers: Signal Attenuation and Dispersion (8/10)
  29. Chapter 3 - Optical Fibers: Signal Attenuation and Dispersion (9/10)
  30. Chapter 3 - Optical Fibers: Signal Attenuation and Dispersion (10/10)
  31. Chapter 4 - Overview of Modeling Techniques for Optical Transmission Systems Using MATLAB® Simulink® (1/10)
  32. Chapter 4 - Overview of Modeling Techniques for Optical Transmission Systems Using MATLAB® Simulink® (2/10)
  33. Chapter 4 - Overview of Modeling Techniques for Optical Transmission Systems Using MATLAB® Simulink® (3/10)
  34. Chapter 4 - Overview of Modeling Techniques for Optical Transmission Systems Using MATLAB® Simulink® (4/10)
  35. Chapter 4 - Overview of Modeling Techniques for Optical Transmission Systems Using MATLAB® Simulink® (5/10)
  36. Chapter 4 - Overview of Modeling Techniques for Optical Transmission Systems Using MATLAB® Simulink® (6/10)
  37. Chapter 4 - Overview of Modeling Techniques for Optical Transmission Systems Using MATLAB® Simulink® (7/10)
  38. Chapter 4 - Overview of Modeling Techniques for Optical Transmission Systems Using MATLAB® Simulink® (8/10)
  39. Chapter 4 - Overview of Modeling Techniques for Optical Transmission Systems Using MATLAB® Simulink® (9/10)
  40. Chapter 4 - Overview of Modeling Techniques for Optical Transmission Systems Using MATLAB® Simulink® (10/10)
  41. Chapter 5 - Optical Direct and External Modulation (1/15)
  42. Chapter 5 - Optical Direct and External Modulation (2/15)
  43. Chapter 5 - Optical Direct and External Modulation (3/15)
  44. Chapter 5 - Optical Direct and External Modulation (4/15)
  45. Chapter 5 - Optical Direct and External Modulation (5/15)
  46. Chapter 5 - Optical Direct and External Modulation (6/15)
  47. Chapter 5 - Optical Direct and External Modulation (7/15)
  48. Chapter 5 - Optical Direct and External Modulation (8/15)
  49. Chapter 5 - Optical Direct and External Modulation (9/15)
  50. Chapter 5 - Optical Direct and External Modulation (10/15)
  51. Chapter 5 - Optical Direct and External Modulation (11/15)
  52. Chapter 5 - Optical Direct and External Modulation (12/15)
  53. Chapter 5 - Optical Direct and External Modulation (13/15)
  54. Chapter 5 - Optical Direct and External Modulation (14/15)
  55. Chapter 5 - Optical Direct and External Modulation (15/15)
  56. Chapter 6 - Advanced Modulation Format Optical Transmitters (1/10)
  57. Chapter 6 - Advanced Modulation Format Optical Transmitters (2/10)
  58. Chapter 6 - Advanced Modulation Format Optical Transmitters (3/10)
  59. Chapter 6 - Advanced Modulation Format Optical Transmitters (4/10)
  60. Chapter 6 - Advanced Modulation Format Optical Transmitters (5/10)
  61. Chapter 6 - Advanced Modulation Format Optical Transmitters (6/10)
  62. Chapter 6 - Advanced Modulation Format Optical Transmitters (7/10)
  63. Chapter 6 - Advanced Modulation Format Optical Transmitters (8/10)
  64. Chapter 6 - Advanced Modulation Format Optical Transmitters (9/10)
  65. Chapter 6 - Advanced Modulation Format Optical Transmitters (10/10)
  66. Chapter 7 - Direct Detection Optical Receivers (1/9)
  67. Chapter 7 - Direct Detection Optical Receivers (2/9)
  68. Chapter 7 - Direct Detection Optical Receivers (3/9)
  69. Chapter 7 - Direct Detection Optical Receivers (4/9)
  70. Chapter 7 - Direct Detection Optical Receivers (5/9)
  71. Chapter 7 - Direct Detection Optical Receivers (6/9)
  72. Chapter 7 - Direct Detection Optical Receivers (7/9)
  73. Chapter 7 - Direct Detection Optical Receivers (8/9)
  74. Chapter 7 - Direct Detection Optical Receivers (9/9)
  75. Chapter 8 - Digital Coherent Optical Receivers (1/9)
  76. Chapter 8 - Digital Coherent Optical Receivers (2/9)
  77. Chapter 8 - Digital Coherent Optical Receivers (3/9)
  78. Chapter 8 - Digital Coherent Optical Receivers (4/9)
  79. Chapter 8 - Digital Coherent Optical Receivers (5/9)
  80. Chapter 8 - Digital Coherent Optical Receivers (6/9)
  81. Chapter 8 - Digital Coherent Optical Receivers (7/9)
  82. Chapter 8 - Digital Coherent Optical Receivers (8/9)
  83. Chapter 8 - Digital Coherent Optical Receivers (9/9)
  84. Chapter 9 - EDF Amplifiers and Simulink® Models (1/10)
  85. Chapter 9 - EDF Amplifiers and Simulink® Models (2/10)
  86. Chapter 9 - EDF Amplifiers and Simulink® Models (3/10)
  87. Chapter 9 - EDF Amplifiers and Simulink® Models (4/10)
  88. Chapter 9 - EDF Amplifiers and Simulink® Models (5/10)
  89. Chapter 9 - EDF Amplifiers and Simulink® Models (6/10)
  90. Chapter 9 - EDF Amplifiers and Simulink® Models (7/10)
  91. Chapter 9 - EDF Amplifiers and Simulink® Models (8/10)
  92. Chapter 9 - EDF Amplifiers and Simulink® Models (9/10)
  93. Chapter 9 - EDF Amplifiers and Simulink® Models (10/10)
  94. Chapter 10 - MATLAB® Simulink® Modeling of Raman Amplification and Integration in Fiber Transmission Systems (1/10)
  95. Chapter 10 - MATLAB® Simulink® Modeling of Raman Amplification and Integration in Fiber Transmission Systems (2/10)
  96. Chapter 10 - MATLAB® Simulink® Modeling of Raman Amplification and Integration in Fiber Transmission Systems (3/10)
  97. Chapter 10 - MATLAB® Simulink® Modeling of Raman Amplification and Integration in Fiber Transmission Systems (4/10)
  98. Chapter 10 - MATLAB® Simulink® Modeling of Raman Amplification and Integration in Fiber Transmission Systems (5/10)
  99. Chapter 10 - MATLAB® Simulink® Modeling of Raman Amplification and Integration in Fiber Transmission Systems (6/10)
  100. Chapter 10 - MATLAB® Simulink® Modeling of Raman Amplification and Integration in Fiber Transmission Systems (7/10)
  101. Chapter 10 - MATLAB® Simulink® Modeling of Raman Amplification and Integration in Fiber Transmission Systems (8/10)
  102. Chapter 10 - MATLAB® Simulink® Modeling of Raman Amplification and Integration in Fiber Transmission Systems (9/10)
  103. Chapter 10 - MATLAB® Simulink® Modeling of Raman Amplification and Integration in Fiber Transmission Systems (10/10)
  104. Chapter 11 - Digital Optical Modulation Transmission Systems (1/7)
  105. Chapter 11 - Digital Optical Modulation Transmission Systems (2/7)
  106. Chapter 11 - Digital Optical Modulation Transmission Systems (3/7)
  107. Chapter 11 - Digital Optical Modulation Transmission Systems (4/7)
  108. Chapter 11 - Digital Optical Modulation Transmission Systems (5/7)
  109. Chapter 11 - Digital Optical Modulation Transmission Systems (6/7)
  110. Chapter 11 - Digital Optical Modulation Transmission Systems (7/7)
  111. Chapter 12 - Design of Optical Communications Systems (1/8)
  112. Chapter 12 - Design of Optical Communications Systems (2/8)
  113. Chapter 12 - Design of Optical Communications Systems (3/8)
  114. Chapter 12 - Design of Optical Communications Systems (4/8)
  115. Chapter 12 - Design of Optical Communications Systems (5/8)
  116. Chapter 12 - Design of Optical Communications Systems (6/8)
  117. Chapter 12 - Design of Optical Communications Systems (7/8)
  118. Chapter 12 - Design of Optical Communications Systems (8/8)
  119. Chapter 13 - Self-Coherent Optically Amplified Digital Transmission Systems: Techniques and Simulink® Models (1/21)
  120. Chapter 13 - Self-Coherent Optically Amplified Digital Transmission Systems: Techniques and Simulink® Models (2/21)
  121. Chapter 13 - Self-Coherent Optically Amplified Digital Transmission Systems: Techniques and Simulink® Models (3/21)
  122. Chapter 13 - Self-Coherent Optically Amplified Digital Transmission Systems: Techniques and Simulink® Models (4/21)
  123. Chapter 13 - Self-Coherent Optically Amplified Digital Transmission Systems: Techniques and Simulink® Models (5/21)
  124. Chapter 13 - Self-Coherent Optically Amplified Digital Transmission Systems: Techniques and Simulink® Models (6/21)
  125. Chapter 13 - Self-Coherent Optically Amplified Digital Transmission Systems: Techniques and Simulink® Models (7/21)
  126. Chapter 13 - Self-Coherent Optically Amplified Digital Transmission Systems: Techniques and Simulink® Models (8/21)
  127. Chapter 13 - Self-Coherent Optically Amplified Digital Transmission Systems: Techniques and Simulink® Models (9/21)
  128. Chapter 13 - Self-Coherent Optically Amplified Digital Transmission Systems: Techniques and Simulink® Models (10/21)
  129. Chapter 13 - Self-Coherent Optically Amplified Digital Transmission Systems: Techniques and Simulink® Models (11/21)
  130. Chapter 13 - Self-Coherent Optically Amplified Digital Transmission Systems: Techniques and Simulink® Models (12/21)
  131. Chapter 13 - Self-Coherent Optically Amplified Digital Transmission Systems: Techniques and Simulink® Models (13/21)
  132. Chapter 13 - Self-Coherent Optically Amplified Digital Transmission Systems: Techniques and Simulink® Models (14/21)
  133. Chapter 13 - Self-Coherent Optically Amplified Digital Transmission Systems: Techniques and Simulink® Models (15/21)
  134. Chapter 13 - Self-Coherent Optically Amplified Digital Transmission Systems: Techniques and Simulink® Models (16/21)
  135. Chapter 13 - Self-Coherent Optically Amplified Digital Transmission Systems: Techniques and Simulink® Models (17/21)
  136. Chapter 13 - Self-Coherent Optically Amplified Digital Transmission Systems: Techniques and Simulink® Models (18/21)
  137. Chapter 13 - Self-Coherent Optically Amplified Digital Transmission Systems: Techniques and Simulink® Models (19/21)
  138. Chapter 13 - Self-Coherent Optically Amplified Digital Transmission Systems: Techniques and Simulink® Models (20/21)
  139. Chapter 13 - Self-Coherent Optically Amplified Digital Transmission Systems: Techniques and Simulink® Models (21/21)
  140. Chapter 14 - Tbps Optical Transmission Systems: Digital Processing–Based Coherent Reception (1/10)
  141. Chapter 14 - Tbps Optical Transmission Systems: Digital Processing–Based Coherent Reception (2/10)
  142. Chapter 14 - Tbps Optical Transmission Systems: Digital Processing–Based Coherent Reception (3/10)
  143. Chapter 14 - Tbps Optical Transmission Systems: Digital Processing–Based Coherent Reception (4/10)
  144. Chapter 14 - Tbps Optical Transmission Systems: Digital Processing–Based Coherent Reception (5/10)
  145. Chapter 14 - Tbps Optical Transmission Systems: Digital Processing–Based Coherent Reception (6/10)
  146. Chapter 14 - Tbps Optical Transmission Systems: Digital Processing–Based Coherent Reception (7/10)
  147. Chapter 14 - Tbps Optical Transmission Systems: Digital Processing–Based Coherent Reception (8/10)
  148. Chapter 14 - Tbps Optical Transmission Systems: Digital Processing–Based Coherent Reception (9/10)
  149. Chapter 14 - Tbps Optical Transmission Systems: Digital Processing–Based Coherent Reception (10/10)
  150. Chapter 15 - Digital Signal Processing for Optical Transmission Systems (1/14)
  151. Chapter 15 - Digital Signal Processing for Optical Transmission Systems (2/14)
  152. Chapter 15 - Digital Signal Processing for Optical Transmission Systems (3/14)
  153. Chapter 15 - Digital Signal Processing for Optical Transmission Systems (4/14)
  154. Chapter 15 - Digital Signal Processing for Optical Transmission Systems (5/14)
  155. Chapter 15 - Digital Signal Processing for Optical Transmission Systems (6/14)
  156. Chapter 15 - Digital Signal Processing for Optical Transmission Systems (7/14)
  157. Chapter 15 - Digital Signal Processing for Optical Transmission Systems (8/14)
  158. Chapter 15 - Digital Signal Processing for Optical Transmission Systems (9/14)
  159. Chapter 15 - Digital Signal Processing for Optical Transmission Systems (10/14)
  160. Chapter 15 - Digital Signal Processing for Optical Transmission Systems (11/14)
  161. Chapter 15 - Digital Signal Processing for Optical Transmission Systems (12/14)
  162. Chapter 15 - Digital Signal Processing for Optical Transmission Systems (13/14)
  163. Chapter 15 - Digital Signal Processing for Optical Transmission Systems (14/14)
  164. Appendix A: Technical Data of Single-Mode Optical Fibers (1/3)
  165. Appendix A: Technical Data of Single-Mode Optical Fibers (2/3)
  166. Appendix A: Technical Data of Single-Mode Optical Fibers (3/3)
  167. Appendix B: RMS Definition and Power Measurement
  168. Appendix C: Power Budget (1/2)
  169. Appendix C: Power Budget (2/2)
  170. Appendix D: How to Relate the Rise/Fall Time with the Frequency Response of Network and Power Budget Analyses for Optical Link Design and in Experimental Platforms (1/9)
  171. Appendix D: How to Relate the Rise/Fall Time with the Frequency Response of Network and Power Budget Analyses for Optical Link Design and in Experimental Platforms (2/9)
  172. Appendix D: How to Relate the Rise/Fall Time with the Frequency Response of Network and Power Budget Analyses for Optical Link Design and in Experimental Platforms (3/9)
  173. Appendix D: How to Relate the Rise/Fall Time with the Frequency Response of Network and Power Budget Analyses for Optical Link Design and in Experimental Platforms (4/9)
  174. Appendix D: How to Relate the Rise/Fall Time with the Frequency Response of Network and Power Budget Analyses for Optical Link Design and in Experimental Platforms (5/9)
  175. Appendix D: How to Relate the Rise/Fall Time with the Frequency Response of Network and Power Budget Analyses for Optical Link Design and in Experimental Platforms (6/9)
  176. Appendix D: How to Relate the Rise/Fall Time with the Frequency Response of Network and Power Budget Analyses for Optical Link Design and in Experimental Platforms (7/9)
  177. Appendix D: How to Relate the Rise/Fall Time with the Frequency Response of Network and Power Budget Analyses for Optical Link Design and in Experimental Platforms (8/9)
  178. Appendix D: How to Relate the Rise/Fall Time with the Frequency Response of Network and Power Budget Analyses for Optical Link Design and in Experimental Platforms (9/9)
  179. Appendix E: Problems on Optical Fiber Communication Systems (1/9)
  180. Appendix E: Problems on Optical Fiber Communication Systems (2/9)
  181. Appendix E: Problems on Optical Fiber Communication Systems (3/9)
  182. Appendix E: Problems on Optical Fiber Communication Systems (4/9)
  183. Appendix E: Problems on Optical Fiber Communication Systems (5/9)
  184. Appendix E: Problems on Optical Fiber Communication Systems (6/9)
  185. Appendix E: Problems on Optical Fiber Communication Systems (7/9)
  186. Appendix E: Problems on Optical Fiber Communication Systems (8/9)
  187. Appendix E: Problems on Optical Fiber Communication Systems (9/9)
  188. Back Cover

Product information

  • Title: Optical Fiber Communication Systems with MATLAB® and Simulink® Models, 2nd Edition
  • Author(s): Le Nguyen Binh
  • Release date: December 2014
  • Publisher(s): CRC Press
  • ISBN: 9781482217520