Understanding of FWM Behavior in 2-D Time-Spreading Wavelength-Hopping OCDMA Systems
Bazan, T. (2016). Understanding of FWM Behavior in 2-D Time-Spreading Wavelength-Hopping OCDMA Systems. EKB Journal Management System, 8(International Conference on Mathematics and Engineering Physics (ICMEP-8)), 1-9. doi: 10.21608/icmep.2016.29637
Taher M. Bazan. "Understanding of FWM Behavior in 2-D Time-Spreading Wavelength-Hopping OCDMA Systems". EKB Journal Management System, 8, International Conference on Mathematics and Engineering Physics (ICMEP-8), 2016, 1-9. doi: 10.21608/icmep.2016.29637
Bazan, T. (2016). 'Understanding of FWM Behavior in 2-D Time-Spreading Wavelength-Hopping OCDMA Systems', EKB Journal Management System, 8(International Conference on Mathematics and Engineering Physics (ICMEP-8)), pp. 1-9. doi: 10.21608/icmep.2016.29637
Bazan, T. Understanding of FWM Behavior in 2-D Time-Spreading Wavelength-Hopping OCDMA Systems. EKB Journal Management System, 2016; 8(International Conference on Mathematics and Engineering Physics (ICMEP-8)): 1-9. doi: 10.21608/icmep.2016.29637

Understanding of FWM Behavior in 2-D Time-Spreading Wavelength-Hopping OCDMA Systems

The International Conference on Mathematics and Engineering Physics
Article 16, Volume 8, International Conference on Mathematics and Engineering Physics (ICMEP-8), April 2016, Page 1-9  XML PDF (239.04 K)
Document Type: Original Article
DOI: 10.21608/icmep.2016.29637
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Author
Taher M. Bazan
Egyptian Armed Forces.
Abstract
Abstract
The behavior of four-wave mixing (FWM) in 2-D time-spreading wavelength-hopping (TW) optical code-division multiple-access (OCDMA) systems with coherent light sources is introduced. The analysis is performed in terms of several key system parameters, in particular, transmitted power per chip, wavelength spacing, number of active users, code weight,fiber type, and transmission length. To accomplish such study, the number of generated FWM components should be calculated first. Thus, for the first time, a general form for the FWM power generated in 2-D TW OCDMA systems is presented and explicit formulas for the number of FWM products that fall on each signal chip for symmetric codes are given.
Keywords
Optical code division multiplexing; 2-D Wavelength-time coding; Four-wave mixing
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