Difference sets‐based compressive sensing as denoising method for narrow‐band power line communications

Domingo, Javier Matanza; Alexandres, S.; Rodriguez-Morcillo, Carlos

doi:10.1049/iet-com.2013.0166

Cited by 11 publications

(10 citation statements)

References 16 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…In [66] a modification of compressive sensing based on Partial Fourier Matrices is proposed, the main advantage of such a modification being that no redundancy is added, so there is no decrease in the transmission data rate.…”

Section: Noise Mitigation Techniquesmentioning

confidence: 99%

“…Compressive sensing is also a very common technique to mitigate the effects of impulsive noise in OFDM systems [63], in general, and in PLC networks [64,65], in particular. In [66] a modification of compressive sensing based on Partial Fourier Matrices is proposed, the main advantage of such a modification being that no redundancy is added, so there is no decrease in the transmission data rate.…”

Section: Noise Mitigation Techniquesmentioning

confidence: 99%

See 1 more Smart Citation

Noise Sources, Effects and Countermeasures in Narrowband Power-Line Communications Networks: A Practical Approach

et al. 2017

View full text Add to dashboard Cite

Abstract:The integration of Distributed Generation, Electric Vehicles, and storage without compromising the quality of the power delivery requires the deployment of a communications overlay that allows monitoring and controlling low voltage networks in almost real time. Power Line Communications are gaining momentum for this purpose since they present a great trade-off between economic and technical features. However, the power lines also represent a harsh communications medium which presents different problems such as noise, which is indeed affected by Distributed Generation, Electric Vehicles, and storage. This paper provides a comprehensive overview of the types of noise that affects Narrowband Power Line Communications, including normative noises, noises coming from common electronic devices measured in actual operational power distribution networks, and noises coming from photovoltaic inverters and electric vehicle charging spots measured in a controlled environment. The paper also reviews several techniques to mitigate the effects of noise, paying special attention to passive filtering, as for being one of the most widely used solution to avoid this kind of problems in the field. In addition, the paper presents a set of tests carried out to evaluate the impact of some representative noises on Narrowband Power Line Communications network performance, as well as the effectiveness of different passive filter configurations to mitigate such an impact. In addition, the considered sources of noise can also bring value to further improve PLC communications in the new scenarios of the Smart Grid as an input to theoretical models or simulations.

show abstract

Section: Noise Mitigation Techniquesmentioning

confidence: 99%

Section: Noise Mitigation Techniquesmentioning

confidence: 99%

Noise Sources, Effects and Countermeasures in Narrowband Power-Line Communications Networks: A Practical Approach

et al. 2017

View full text Add to dashboard Cite

show abstract

“…Nevertheless, these methods could not achieve high performance in the heavy IN environment. In addition, a compressive sensing is used to take advantage of the sparse structure of IN to mitigate the IN itself [15][16][17] by utilising zero subcarriers to reconstruct IN in the receiver. However, it involves a high level of complexity.…”

Section: Introductionmentioning

confidence: 99%

Adaptive decision directed impulse noise mitigate in power line communication

Zhang

Liu

2018

IET signal process.

View full text Add to dashboard Cite

Impulse noise (IN) is the main cause of performance degradation in high-speed power line communication systems. Traditional methods mainly focus on manually setting a fixed blanking threshold to mitigate the corresponding IN. However, the fixed threshold cannot adapt to the time-varying IN efficiently. To solve this problem, an adaptive IN-mitigation system is proposed based on orthogonal frequency division multiplexing in a time-varying IN channel. The characteristics of IN are preevaluated by the method of moment estimation. Moreover, the adaptive threshold is efficiently solved in closed form according to the IN characteristics. In addition, an adaptive iterative IN-mitigation block is designed to leverage the performance of the receiver. For the number of iterations, a look-up table is constructed according to the IN characteristics. The experimental results show that the proposed method achieves performance balance in weak, moderate, and heavy IN environments simultaneously. It is noted that the bit error rate significantly decreases with an increment in E b /N 0 .

show abstract

“…(2) the ability to work across all CENELEC bands, (3) in space and time multichannel working, (4) real-time services supporting, (5) data transfer asymmetry (more data is downloaded).…”

Section: Introductionmentioning

confidence: 99%

Errors Nature of the Narrowband PLC Transmission in Smart Lighting LV Network

Kiedrowski

2016

International Journal of Distributed Sensor Networks

View full text Add to dashboard Cite

This paper presents characteristics of the Frame Error Rate versus Signal to Noise Ratio obtained from Smart Lighting LV network. These characteristics are the results of carrying out many field-trials in three locations. During the one-year tests period lighting systems evolved from the traditional, gas-discharge not individually dimmable system to LED or gas-discharge Smart Lighting system controlled with the use of PLC technology every lamp individually. A different influence of the frame length on the FER(SNR) characteristic for the gas-discharge and LED LV networks led to examining the bit errors distribution. The bit errors distribution characteristics of the narrowband PLC transmission over the Smart Metering LV network are also presented in this paper. All the presented data in this work are the results of the long time field-trials, which were verified in the lab conditions.

show abstract

Difference sets‐based compressive sensing as denoising method for narrow‐band power line communications

Cited by 11 publications

References 16 publications

Noise Sources, Effects and Countermeasures in Narrowband Power-Line Communications Networks: A Practical Approach

Noise Sources, Effects and Countermeasures in Narrowband Power-Line Communications Networks: A Practical Approach

Adaptive decision directed impulse noise mitigate in power line communication

Errors Nature of the Narrowband PLC Transmission in Smart Lighting LV Network

Contact Info

Product

Resources

About