S. Chen scite author profile

Power line noise is known to affect the performance of broadband power-line communications significantly. This paper presents a frequency-domain approach to characterize and model the statistical variation of power-line noise. The model considers both the background noise and the impulsive noise. The background noise model is based on statistical analysis of the results from two long-term measurements of noise spectrum conducted at two separate sites of a laboratory and a residential apartment. On the other hand, the impulsive noise model is obtained by direct measurements from the noise sources (i.e., various electrical household appliances). The amount of impulse noise reaching a power-line communications (PLC) receiver can then be determined with consideration of the channel transfer characteristics between the noise sources and the PLC receiver. Using these noise models, the performance of two major classes of digital modulation schemes, namely single-carrier modulation and multicarrier modulation, are analyzed and compared. It is found that the multicarrier scheme performs better than the single-carrier scheme when subjected to the observed power-line noise with non-Gaussian statistics.Index Terms-Noise modeling, orthogonal frequency-division multiplexing (OFDM), performance study, power-line communications.

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Modeling of Transfer Characteristics for the Broadband Power Line Communication Channel

Hui

Chen

Guan

et al. 2004

IEEE Trans. Power Delivery

281

146

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This paper presents a novel approach to model the transfer function of electrical power lines for broadband power line communication. In this approach, the power line is approximated as a transmission line and the two intrinsic parameters, the characteristic impedance and the propagation constants, are derived based on the lumped-element circuit model. Using these intrinsic parameters, the transfer characteristics for a N-branch power distribution network are derived based on the scattering matrix method. Detail derivation of this line model is given in this paper. The model has been verified with practical measurements conducted on actual power networks. It is demonstrated that the model accurately determine the line characteristics under different network configuration and when different household appliances are connected. Index Terms-Channel modeling, communication channel, power line communications.

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Wavelet Transform for Processing Power Quality Disturbances

Chen

Zhu

2007

EURASIP J. Adv. Signal Process.

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The emergence of power quality as a topical issue in power systems in the 1990s largely coincides with the huge advancements achieved in the computing technology and information theory. This unsurprisingly has spurred the development of more sophisticated instruments for measuring power quality disturbances and the use of new methods in processing and analyzing the measurements. Fourier theory was the core of many traditional techniques and it is still widely used today. However, it is increasingly being replaced by newer approaches notably wavelet transform and especially in the post-event processing of the time-varying phenomena. This paper reviews the use of wavelet transform approach in processing power quality data. The strengths, limitations, and challenges in employing the methods are discussed with consideration of the needs and expectations when analyzing power quality disturbances. Several examples are given and discussions are made on the various design issues and considerations, which would be useful to those contemplating adopting wavelet transform in power quality applications. A new approach of combining wavelet transform and rank correlation is introduced as an alternative method for identifying capacitor-switching transients.

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Feature selection for identification and classification of power quality disturbances

Chen

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System Voltage Sag Performance Estimation

Wang

Chen

Lie

2005

IEEE Trans. Power Delivery

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S. Chen

Modeling and Analysis of Noise Effects on Broadband Power-Line Communications

Modeling of Transfer Characteristics for the Broadband Power Line Communication Channel

Wavelet Transform for Processing Power Quality Disturbances

Feature selection for identification and classification of power quality disturbances

System Voltage Sag Performance Estimation

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