Hamza M. R. Al-Khafaji scite author profile

In this paper, we present a single photodiode detection (SPD) technique for spectral-amplitude coding optical code-division multiple-access (SAC-OCDMA) systems. The proposed technique eliminates both phase-induced intensity noise (PIIN) and multiple-access interference (MAI) in the optical domain. Analytical results show that for 35 simultaneous users transmitting at data rate of 622 Mbps, the bit-error rate (BER) = 1.4×10 −28 for SPD technique is much better compared to 9.3×10 −6 and 9.6×10 −3 for the modified-AND a as well as the AND a detection techniques, respectively. Moreover, we verified the improved performance afforded by the proposed technique using data transmission simulations.a The modified-AND as well as the AND are the names of subtraction detection techniques that are proposed in the literature.

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Improved BER based on intensity noise alleviation using developed detection technique for incoherent SAC-OCDMA systems

Al-Khafaji

Aljunid

Fadhil

2012

Journal of Modern Optics

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Variable cross-correlation code construction for spectral amplitude coding optical CDMA networks

Fadhil

Aljunid

Ahmed

et al. 2012

Optik

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Improved Salp Swarm Optimization Algorithm for Damping Controller Design for Multimachine Power System

Akbari

Mollajafari

Al-Khafaji³

et al. 2022

IEEE Access

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This paper proposes an improved salp swarm algorithm (ISSA) as an effective metaheuristic method for tackling global optimization issues and damping power system oscillations. In the suggested ISSA, new equations are introduced to update the location of the leader and followers. This modification improves the method's exploration possibilities while also preventing it from converging prematurely. Benchmark test functions are used to confirm the proposed algorithm's performance, and the results are compared to SSA and other effective optimization algorithms. According to the extensive comparisons, the enhanced ISSA algorithm has higher convergence accuracy and stability than the original SSA and other researched algorithms. Furthermore, the feasibility and efficiency of the proposed method were demonstrated by the simultaneous coordinated design of UPFC based damping controllers. For the two-area, four-machine system, the experimental findings are provided. Simulation experiments reveal that ISSA designed controllers outperform those created using other methods.

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