IEEE International Symposium on Power Line Communication and its Applications
26–27 October 2021 // Aachen, Germany

Program

Time October 26 (Tuesday) Time October 27 (Wednesday)
08:00 Registration
08:30 Welcome addresses 8:30 Registration
09:00 Keynote #1 09:00 Keynote #4
09:35 Short Break 09:35 Short Break
09:45 Technical Session #1 09:45 Technical Session #4
11:05 Coffee Break 11:05 Coffee Break
11:35 Technical Session #2 11:35 Technical Session #5
12:55 Lunch 12:55 Lunch
14.00 Keynote #2 14.00 Keynote #5
14:35 Coffee Break 14:35 Short Break
15:05 Technical Session #3 14:45 Panel #2
16:25 Short Break 15:45 Coffee Break
16:35 Keynote #3 16:15 Recent Results and Industry Session
17:10 Short break 17:30 Closing
17:15 Panel #1
18:15 End day #1
18:20 Welcome Reception
19:30 TC-PLC Meeting 19:00 Conference Banquet

 

Tue, 26 October

08:00   Registration

08:30   Welcome addresses

09:00   Keynote 1:

Lutz Lampe, University British Columbia, Canada

Through the Grid Joint Communication and Sensing.

 

 

Abstract: Probing the environment and teleconnecting nodes in a communication network are two usage scenarios for wave-propagation signals. Historically they have been treated separately, most prominently as radio detection and ranging (radar) and radio communication in wireless systems. A new trend referred to as joint communication and sensing sees the convergence of the two functionalities. It has attracted a lot of attention in the wireless community, as it holds the promise to create new services for users of wireless communication technology. We believe that a similar amalgamation is meaningful for communication over power lines. In particular, the through-the-grid feature of power line communication (PLC) signals makes them a natural candidate for integrating infrastructure monitoring tasks into PLC networks. In this talk, we will reflect on the notion of joint communication and sensing, considering different signal classes and environments. We will then overview the use of PLC signals for sensing tasks and compare this with classical cable-health monitoring methods. We argue that sensing tasks can be formulated as function inversion problems, which are challenging to model and to solve algorithmically. This makes machine learning based methods attractive. We will present some of our recent work in this direction, and end with some thoughts for future research. We hope that this talk stimulates discussion on the topic between academic researchers, PLC equipment vendors and power utilities.

09:35   Short break

09:45   Technical Session 1: Modulation and Signal Processing for PLC

Chair: Sicong Liu, Xiamen U, P.R. China

S1.1:    Comparison Between Different Peak-To-Average Power Ratio Reduction Techniques.
Philipp Horwat, Dennis Stamm, Gerd Bumiller

S1.2:    Power Line Communication for Grid Monitoring: A Prototype Based on Software Defined Radio.

Stephan F. Pfletschinger, Jens Lottermoser, Joerg Bausch

S1.3:    A Simple Physical-Layer Key Generation Scheme for Power-Line Transmission.

Werner Henkel, Ha Kim, Abderraheem Turjman, Mathias Bode

S1.4:    A Subcarrier Permutation Scheme for Noise Mitigation and Multi-Access in Powerline Channels.

Oluwafemi Ibrahim Kolade, Adnan M. Abu-Mahfouz, Ling Cheng

11:05   Coffee break

11:35   Technical Session 2: Noise Mitigation and Modelling

Chair: Gerd Bumiller, Hochschule Ruhr West, Germany

S2.1:    PLC-xDSL Dynamic Interference Mitigation.
Andreas Engelen, Nico Weling

S2.2:    Mitigation of Coloured Impulsive Noise in OFDM Receiver.

Sebastian Schaffenroth, Hans-Peter Schmidt, Alexander Koelpin

S2.3:    Design and Development of a Multi Port Powerline Communication Network Analyzer for Measurements of Low Voltage Grid Components.

Axel Staubach, Holger Hirsch

S2.4:    Pilot-Free Channel Tracking for In-Band Full-Duplex Broadband Power Line Communications.

Vitali Korzhun, Andrea M Tonello

12:55   Lunch

14.00   Keynote 2: Prime Alliance

14:35   Coffee break

15:05   Technical Session 3: Hybrid Technologies & Machine Learning Applications in PLC

Chair. Francisco J. Canete, U Malaga, Spain

S3.1:    Performances of G3 PLC-RF Hybrid Communication Systems

Alfredo Sanz, David Sancho, Jose Carlos Ibar

S3.2:    A Seamless Broadband PLC-VLC Transmission: Performance Evaluation and Optimization.

Yara Yaacoub, Fabienne Nouvel

S3.3:    Capacity Learning for Communication Systems over Power Lines.

Nunzio Letizia, Andrea M. Tonello

S3.4:    On the New Developments in ITU-T G.hn Standard: Use Cases, Requirements, and Solutions.

George Hallak, Marcos Vazquez, Anil Mengi, Livia Rosu

16:25   Short break

16:35   Keynote 3: Homegrid Forum

17:10   Short break

17:15   Panel 1: Standardisation and Regulation of PLC

Organization – IEEE Communications Society Power Line Communications Technical Committee  

 

 

  Gerd Bumiller (Chair), Professor of Energy informatics at Hochschule Ruhr West

 

 

  Cédric Lavenu, WS1 Chairperson at the G3-PLC Alliance. Expert Research Engineer at EDF-R&D.

 

  Marcos Martínez, Chair of Contributions WG at the HomeGrid Forum. Standards and External Cooperation Manager at MaxLinear

Scott Willy on Twitter: "HomePlug AV2 out of the Starting Blocks--Broadcom takes the lead. http://t.co/HAZse5BVJe http://t.co/PQsH6qjODO"  

 

  Scott Willy, Business Development for SmartGrid Communications at Power Plus Communications AG

18:15   End day 1

18:20  Welcome Reception

Place:  E.ON Energy Research Center
Address: Mathieustrasse 10, 52074 Aachen, Germany

19:30  TC-PLC Meeting

Place:  E.ON Energy Research Center
Address: Mathieustrasse 10, 52074 Aachen, Germany

Wed, 27 October

09:00   Keynote 4:

Andrea Tonello, University of Klagenfurt (Austria)

Can Machine Learning Bring Disruptive Innovation in PLC ?

 

 

 

 

 

Abstract: Significant innovation to power line communication (PLC) has been introduced in the last 20 years. PLC has reached high technology maturity, but moderate market penetration w.r.t. the expectations facing competition of wireless systems and the perduring (to some extent unjustifiable) criticism about its massive adoption in smart grids. The pace of innovation of PLC appears decreased, despite some recent IEEE and ITU standardization endeavors that leverage existing solutions through optimization and better customization to specific application domains. Improvements are still possible at all protocol stacks and it would be desirable they were not limited, at least in theory, by fundamental bottlenecks (which is a catchy selling point of wireless). Machine learning (ML) has powerfully penetrated many research fields including communications. It has proven to be disruptive in several domains, but the added value is still unclear when it comes to communication networks. There are two main aspects that need to be considered: a) the identification of the problems to be better solved with ML, b) the design of ML architectures tailored to communications.

In this keynote, we elaborate on both a) and b) looking at all PLC layers. Starting from the physical layer, we report recent results about learning methods for the statistical characterization of the channel response and noise in multiple conductor power lines revealing intriguing new features. Synthetic channel and noise modeling exploiting generative adversial networks (GANs) is presented. A novel methodology to learn the channel capacity (which is still unknown in PLC) exploiting the notion of autoencoders is illustrated. New modulation techniques and ML detection mechanisms are discussed. Then, moving to the upper layers, the challenge of improving routing in large PLC access networks using ML is discussed. Finally, we briefly argue on what ML can bring w.r.t. to model-based signal processing approaches for power grid diagnostics. In reference to b), we present recent work on segmented generative neural networks with data generation in the uniform probability space, which is a flexible/scalable architecture for the considered applications.

09:35   Short break

09:45   Technical Session 4: Measurements and Channel Modelling

Chair: Thokozani C. Shongwe, U Johannesburg, South Africa

S4.1:    Validation of a Transfer Function Computation Methodology in the PLC Frequency Range.

Arbia Haded, Cedric Lavenu, Dominique Picard, Mohammed Serhir

S4.2:    An on Line Measurement Approach for EMI Filter Characterization.

Christoph Szymczyk, Christoph Nieß, Gerd Bumiller

S4.3:    Measurement of Notch Depths for G3-PLC.

Philipp Horwat, Gerd Bumiller

S4.4:    Measurement Aided Training of Machine Learning Techniques for Fault Detection Using PLC Signals.

Yinjia Huo, Gautham Prasad, Lutz Lampe, Victor C.M. Leung, Rathinamala Vijay, Prabhakar TV

11:05   Coffee break

11:35   Technical Session 5: Network Layer Techniques in PLC Systems

Chair: Alfredo Sanz, U Zaragoza, Spain

S5.1:   Comparative Study on Class AB and Class D Amplifier Topology for High Temperature Power Line Communication Circuits.

Martijn Duraij, Yudi Xiao, Tiberiu-Gabriel Zsurzsan, Zhe Zhang

S5.2:    Planning Tool for Fast Roll-Out of G.hn Broadband PLC Access Networks: Evaluation and Field Results.

George Hallak, Marcel Berners, Anil Mengi

S5.3:    Network Attack Analysis of an Indoor Power Line Communication Network.

Emmanuel C Uwaezuoke, Theo G. Swart

S5.4:    Data Analytics in G3-PLC Deployments for Coverage Prediction.

Francesco Marcuzzi, Andrea M. Tonello, Cedric Lavenu

12:55   Lunch

14:00   Keynote 5:

Profilfoto von Klaus Hueske

Klaus Hueske, Renesas Electronics / G3-PLC Alliance

Latest evolutions of the G3-PLC specifications.

Abstract: In this keynote speech, the latest evolutions of the G3-PLC specifications as published in June 2021 will be presented. In particular, a focus will be made on the enhanced broadcast mechanisms for LOADng and data traffic, as well as the recent developments related to the hybrid PLC&RF profile.

14:35   Short break

14:45   Panel 2: PLC for IoT applications

 

 

  Cédric Lavenu (Chair), WS1 Chairperson at the G3-PLC Alliance. Expert Research Engineer at EDF-R&D

 

 

 

  Alberto Sendin, PLC deployment and architecture for Smart Grid applications at Iberdrola

 

 

 

 Riccardo Fiorelli, Power Line and Hybrid Communication Application Manager at STMicroelectronics

 


 Sergio Lazzarotto, President and Executive Director at DLMS User Association

Juan Camacho, Managing Director at Andrea Informatique

15:45   Coffee break

16:15   Session 6: Recent Results and Industry Session

Chair: Eugen Mayer, PPC AG, Germany

S6.1: Industry Talk (PRIME)

S6.2:    MIMO In-Band Full-Duplex indoor PLC Systems for Relaying Networks.

Francisco J. Canete, Gautham Prasad, Lutz Lampe

S6.3:    Low-Complexity Spectral Shaping Method for OFDM Signals with Dynamic Transmission Band Location.

Javier Gimenez, Jose A. Cortes, Francisco J. Canete, Eduardo Martos-Naya, Luis Diez

17:30   Closing

19:30   Conference Banquet

Place: Tivoli Aachen. Transportation will be available.
Address: Krefelder Str. 205, 52070 Aachen, Germany

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