VTC workshop organized by Terranova project in Porto was a real success!!
International Workshop on
THz Communication Technologies for Systems Beyond 5G
WORKSHOP W11 at IEEE VTC Spring 2018, Porto, Portugal
Although 5G seems more than willing to embrace several game changing design principles, such as densification, virtualization and softwarization, in order to enhance scalability, flexibility and efficient resources utilization, it can be easily understood that fundamental performance limitations related to available bandwidth, transmission and processing delay and cost and energy consumption still define the envelope. To break these technological barriers networks beyond 5G will need to bring little explored wireless resources and technologies to validation and exploitation by directing research towards de-risking technological concepts, components, architectures and systems concepts.
THz communications is an attractive candidate technology, especially when compared to the less flexible and more costly optical fiber connections and to the lower data rate wireless technologies, such as for example visible light communication, microwave links, and wireless fidelity (WiFi). As a consequence, the THz band, for wireless access and the supporting backhaul network infrastructure, is expected to influence the main technology trends in wireless networks within the next ten years and beyond. The implementation of THz frequency based wireless networks is expected to take advantage of breakthrough novel technological concepts, such as the joint design of baseband signal processing for the complete optical and wireless link, the development of broadband and highly spectrally efficient radio frequency (RF) frontends operating at frequencies higher than 275 GHz, and new standardized electrical-optical (E/O) interfaces. Associated to the extremely large bandwidths and the propagation properties of the THz regime, improved channel modeling and the design of appropriate waveforms, multiple-access schemes and antenna array configurations will be required for the successful introduction of THz communications.
Motivated by the potential of THz technologies to transform the future of ICT, this workshop aspired to reveal and discuss the critical technology gaps as well as the appropriate enablers, in terms of baseband processing RF frontend, channel models and waveforms, signals and coding, beam-patterns and medium access schemes.
The workshop invited contributions that address the baseband and RF frontend design, the analysis and assessment of innovative theoretical models, information theory and signal processing approaches, resource and interference management strategies and overall network architecture for THz communications systems beyond 5G. Specific topics include, but are not limited to:
THz band transceivers
Massive MIMO antenna arrays for THz mobile heterogeneous networks
Information and communications theoretic issues of THz band communication
THz band channel and propagation modeling
Novel waveforms for THz-band communications
Modulation and channel coding for the THz-band
MAC layer design for THz communication networks
Interference management for THz communications
Beamforming and spatial processing schemes
System-level modeling in THz communication networks
Architectural experimental demonstrations, tests and performance characterization of THz systems
Resource allocation aspects for THz communication systems
Standardization and business models for THz networks
W11: THz Communication Technologies for Systems Beyond 5G
5 JUNE 2018, Porto, Portugal
Time: 14:00 – 17:30
14.00-14.30 [INVITED] “5G Journey & Path Forward”, Shilpa Talwar, Wireless Communications Research Lab, Intel, US
14.30-14.50 “Statistical Characteristics Study of Human Blockage Effect in Future Indoor Millimeter and Sub-millimeter Wave Wireless Communications”, Bile Peng, Sebastian Rey, Dennis M. Rose, Soeren Hahn, Thomas Kuerner, Technische Universität Braunschweig, Germany
14.50-15.10 “Ultra-Massive MIMO Channel Modeling for Graphene-Enabled Terahertz-band Communications”, Chong Han1, Josep Miquel Jornet2, and Ian F. Akyildiz3 , 1Shanghai Jiao Tong University, China, 2University at Buffalo, The State University of New York, NY, USA, 3Georgia Institute of Technology, Atlanta, GA, USA
15.10-15.30 “Optical Characteristics Analysis of Resonant Tunneling Diode Photodiode based Oscillators”, Weikang Zhang1, Scott Watson1, Jue Wang1, José Figueiredo2, Edward Wasige1, Anthony E. Kelly1 , 1School of Engineering, University of Glasgow, United Kingdom, 2Departamento de Física, CEOT, Universidade do Algarve, Portugal
16.00-16.30 [INVITED] “Joint of Radar and Communication Systems for Beyond 5G”, Paulo Monteiro, IT-Aveiro, Portugal
16.30-16.50 “Stochastic Geometry Analysis for Band-Limited Terahertz Band Communications”, Joonas Kokkoniemi, Janne Lehtomaki, and Markku Juntti, Centre for Wireless Communications (CWC), University of Oulu, Finland
16.50-17.10 “Performance Evaluation of THz Wireless Systems Operating in 275−400 GHz Band”, Alexandros-Apostolos A. Boulogeorgos1, Evangelos N. Papasotiriou1, Joonas Kokkoniemi2, Janne Lehtomaki2, Angeliki Alexiou1, and Markku Juntti2, 1Department of Digital Systems, University of Piraeus, Greece, 2Centre for Wireless Communications (CWC), University of Oulu, Finland
17.10-17.30 Panel discussion and concluding remarks