Design of High Speed Optical Fiber Cables and Transmission Techniques in Advanced Optical Networks | ||||
| Menoufia Journal of Electronic Engineering Research | ||||
| Article 10, Volume 29, Issue 1, January 2020, Page 71-77 PDF (790.45 K) | ||||
| Document Type: Original Article | ||||
| DOI: 10.21608/mjeer.2020.69185 | ||||
 View on SCiNiTO | ||||
| Authors | ||||
| Ahmed Refaat Elhelw; Abd El–Naser A. Mohamed; Ahmed N. Rashed; Mohamed Z. Elsiefy | ||||
| Electronics and Electrical Communications Engineering Department, Faculty of Electronic Engineering, Menoufia University, Egypt. | ||||
| Abstract | ||||
| In the present paper, design of high velocity fiber-optic communication networks with ultra wide-dense wavelength division multiplexing (UW-DWDM), space division multiplexing (SDM) and optical transmission techniques is presented. All connects in the (SDM) are split into subgroups of various chemical and geometrical characteristics .The parameters have been designed at: i) Δn, the relative refractive index difference for both the core and also the clad, ii) x%, the percentage of doping in silicon material by Germanium material. The Δn and x% parameters are also preserved during their technological boundaries of attention. UW-DWDM has 1200 channels that transferred at the fiber-optic wavelengths from 1450 nm up to 1650 nm within 140 connects from UW-SDM wherever every connect is prepared to own the same compressed chromatic dispersion. From this technique, it is noticed that the connect design parameters suffer more nonlinearity with the number of connects. So, two different propagation techniques have been used to investigate the transmitted bit-rate as a criterion to enhance the system performance. The first technique is Soliton propagation, where the control parameters lead to equilibrium between the pulse spreading due to dispersion and the pulse shrinking because of nonlinearity. The second technique is the maximum time division multiplexing (MTDM) technique where the parameters are adjusted to lead to minimum dispersion. Two cases are investigated; no dispersion cancellation and dispersion cancellation. The investigations are conducted over an enormous range of the set of controlling parameters. Thermal effects are considered through three basic quantities, namely: the transmission bit rate, the dispersion characteristics and the spectral losses. | ||||
| Keywords | ||||
| UW-DWDM; optical soliton; UW-SDM; chromatic dispersion; MTDM | ||||
| References | ||||
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