Analysis of Optimized Threshold with SLM based Blanking Non-Linearity for Impulsive Noise Reduction in Power Line Communication Systems

Ayaz, Ferheen; Rabie, Khaled M.; Adebisi, Bamidele

doi:10.1109/csndsp.2018.8471861

Cited by 2 publications

(2 citation statements)

References 33 publications

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“…Nonetheless, there is no evidence on the analysis of the system performance reported in the paper. It should be noted that numerous studies have examined how blanking non-linearity performs over PLC systems, see [16]- [18]. Similar studies were also reported in [19]- [21], to optimise the performances of OFDM receivers.…”

Section: A Prior Workmentioning

confidence: 58%

Performance Analysis of ACO/DCO-OFDM Hybrid PLC-VLC Receivers With Blanking Non-Linearity

2023

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Blanking non-linearity is broadly used in impulsive noise communication environments due to its efficiency and ease of deployment to mitigate such noise. During the blanking procedure, data samples with impulsive noise are identified and clipped to zero, which removes impulsive noise from the system thereby, improving the system performance. In this regard, this paper investigates the performance of hybrid power line communication-visible light communication (PLC-VLC) systems with blanking nonlinearity. The signal-to-noise (SNR) ratio at the output of the blanking device is deduced using a closed-form analytical expression. The results show that there is good agreement between simulation results and theory if there is a sufficiently large number of orthogonal frequency division multiplexing (OFDM) sub-carriers. In addition, the study also indicates that the blanking method is more effective in curbing impulsive noise in comparison to the clipping technique. According to the threshold optimisation investigations, there exists a worst-case SINR value that minimizes the output SNR at the OFDM receiver after blanking. Furthermore, the findings also revealed that proper blanking threshold selection is essential for obtaining the best performance. INDEX TERMSPower line communication, visible light communication, orthogonal frequency division multiplexing, DC-biased optical-orthogonal frequency division multiplexing, asymmetrically clipped optical-orthogonal frequency division multiplexing, PLC-VLC systems.

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Section: A Prior Workmentioning

confidence: 58%

Performance Analysis of ACO/DCO-OFDM Hybrid PLC-VLC Receivers With Blanking Non-Linearity

2023

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“…It is also noted that high PAPR of the transmitting signal results in more performance degradation by IN. Therefore, a PAPR reduction technique can be applied at transmitter to make the signal robust against an IN affected channel [8]. Another kind of noise, known as Narrowband Interference (NBI), which has small bandwidth and short duration, also degrades a system's performance [9].…”

Section: Introductionmentioning

confidence: 99%

Analysis of GFDM as a Robust 5G Communication Technique in Noisy Environment

Ayaz

Ayaz²

2020

2020 International Conference on Information Networking (ICOIN)

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One of the challenges of modulation techniques used in Fifth-Generation (5G) is their robustness in noisy environment. Conventional Orthogonal Frequency Division Multiplexing (OFDM) cannot be considered as a 5G waveform in its original form because of its certain limitations, such as performance degradation by impulsive noise (IN) and high peak to average power ratio (PAPR). Numerous modulation schemes proposed for 5G communications are able to overcome these drawbacks. Generalised Frequency Division Multiplexing (GFDM) is one of them. This paper analyses the performance of GFDM in presence of Additive White Gaussian Noise (AWGN), IN and Narrow Band Interference (NBI). It is found that GFDM is able to perform better than OFDM and Vector Orthogonal Frequency Division Multiplexing (VOFDM) in presence of noises, which can potentially be present in 5G applications. Simulation results show that GFDM achieve lower PAPR and Symbol Error Rate (SER) and an average of 10.73 dB and 4.73 dB gain in Signal to Noise Ratio (SNR) in presence of IN and combined IN and NBI respectively, as compared to OFDM and VOFDM.

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Analysis of Optimized Threshold with SLM based Blanking Non-Linearity for Impulsive Noise Reduction in Power Line Communication Systems

Cited by 2 publications

References 33 publications

Performance Analysis of ACO/DCO-OFDM Hybrid PLC-VLC Receivers With Blanking Non-Linearity

Performance Analysis of ACO/DCO-OFDM Hybrid PLC-VLC Receivers With Blanking Non-Linearity

Analysis of GFDM as a Robust 5G Communication Technique in Noisy Environment

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