Your search keyword '"Farghal, Ahmed E. A."' showing total 4 results

1. Reducing inter-core crosstalk impact via code-interleaving and bipolar 2-PpM for core-multiplexed SAC OCDMA PON.

Author

Farghal, Ahmed E. A. and Shalaby, Hossam M. H.

Abstract

Inter-core crosstalk (XT), caused by closely spaced cores, is the principal challenging issue of implementing multicore fiber (MCF)-based optical networks as it limits the network performance severely. In this paper, we propose and demonstrate using bipolar M-ary pulse position modulation (PPM) signaling in conjunction with the code-interleaving (CI) technique to address the inter-core XT problem in MCF-based optical code-division multiple-access (OCDMA) passive optical networks (PONs) with spectral-amplitude coding employed as the coding scheme. The bit error rate of the proposed network is derived based on an accurate analysis for the statistics of the decision random variables, i.e., mean and variance. The analysis accounts for inter-core XT, optical beat noise, and receiver noise. In addition, a comparison between the performance of core-multiplexed OCDMA PON adopting the newly proposed techniques, namely, unipolar on-off keying (OOK) with CI and bipolar 2-PPM with CI and that adopting unipolar OOK without CI, is presented under both data rate and average photons per bit constraints. The obtained results show that bipolar 2-PPM and CI are capable of reducing the inter-core XT impact on the performance of MCF-based OCDMA PONs. Furthermore, bipolar 2-PPM with CI outperforms other schemes in terms of the number of supportable users and energy efficiency. [ABSTRACT FROM PUBLISHER]

Published

2018

2. Performance analysis of core-multiplexed spectral amplitude coded OCDMA PON.

Author

Farghal, Ahmed E. A.

Abstract

Spatial division multiplexing is emerging as a promising solution to improve the optical fiber transmission capacity. In this paper, a multicore fiber (MCF)-based optical access network architecture utilizing spectral amplitude coded optical code division multiple access (SAC-OCDMA) is proposed. We numerically analyze the impact of intercore cross talk (XT) on the bit error probability (BEP) performance of the SAC-OCDMA signals where a closed-form formula for the BEP of the proposed network is derived. We also consider the effects of multiple access interference noise, optical beat noise, and receiver noise in the analysis. Through numerical simulations, we find the penalty in the required Q-factor caused by intercore XT, compared with a single-core system with no XT, for different values of mean intercore XT. [ABSTRACT FROM PUBLISHER]

Published

2016

3. Optical Code-Division Multiplexing (OCDM) Networks Adopting Code-Shift Keying/Overlapping PPM Signaling: Proposal and Performance Analysis.

Author

Farghal, Ahmed E., Shalaby, Hossam M. H., Kato, Kazutoshi, and Pokharel, Ramesh K.

Subjects

*MULTIPLEXING, *GROUP velocity dispersion, *INTERSYMBOL interference, *PHOTODIODES, *PULSE-position modulation

Abstract

Optical code-division multiplexing (OCDM) systems use short pulses compared with bit-duration to achieve high transmission rate. The use of short pulses poses several problems as a result of group velocity dispersion (GVD), intersymbol interference (ISI) (due to avalanche photodiode (APD) buildup time), and receivers limited bandwidth. In this paper, an OCDM system employing code-shift keying (CSK) and overlapping pulse-position modulation (OPPM) signaling is proposed and theoretically investigated. By using CSK while maintaining same data rate, the chip duration can be increased to counteract the GVD effect in 2D OCDM systems. Moreover, by increasing the chip duration, the chip rate is decreased and the stringent requirement on receiver bandwidth is relaxed. In addition, using overlapping property in OPPM allows for further chip duration increase. We consider using correlation receivers with hard-limiters and APDs at the receiver side. The bit error probability (BEP) of the proposed system is derived taking into account the impacts of APD noise, thermal noise, GVD, ISI, and multiple-access interference (MAI). A performance comparison between OOK-, PPM-, OPPM-OCDM and the proposed system is carried out. Our results reveal that the use of CSK/OPPM-OCDM with data rate constraint allows the reduction of MAI, GVD and ISI effects with improved spectral efficiency. [ABSTRACT FROM PUBLISHER]

Published

2015

4. Performance Analysis of Multirate Multiservice Optical CDMA Networks Adopting Overlapping PPM Signaling.

Author

Farghal, Ahmed E., Shalaby, Hossam M. H., and Kawasaki, Zen

Abstract

In this paper, an optical code-division multiple-access (OCDMA) system employing overlapping pulse-position modulation (OPPM) is proposed to support multimedia services with different bit-rate and quality-of-service (QoS) requirements in OCDMA networks. Both wrapped OPPM (WOPPM) and unwrapped OPPM (UOPPM) are considered. The proposed system achieves multirate and multi-QoS transmission by using multilength variable-weight optical orthogonal codes (MLVW-OOCs) as signature sequences and using different values of OPPM modulation parameters. Furthermore, numerical analysis is performed for two different receiver structures, namely, correlation receivers with and without hard-limiters. In our analysis, the multiple-access interference (MAI) is considered as the main performance limiting factor. In addition, the performance of the proposed system is evaluated and compared to that of traditional OOK-OCDMA system. Our results reveal that under both pulsewidth and throughput constraints, the performances of the proposed WOPPM- and UOPPM-OCDMA systems are significantly superior to that of OOK-OCDMA system. [ABSTRACT FROM PUBLISHER]

Published

2014