IEEE International Conference on Communications
14-18 June 2021 // Montreal, Canada
Connectivity – Security – Privacy

WS-15: 1st Workshop on Orthogonal Time Frequency Space Modulation (OTFS) for 6G and Future High-mobility Communications

WS-15: 1st Workshop on Orthogonal Time Frequency Space Modulation (OTFS) for 6G and Future High-mobility Communications

1ST WORKSHOP ON ORTHOGONAL TIME FREQUENCY SPACE MODULATION (OTFS) FOR 6G AND FUTURE HIGH-MOBILITY  COMMUNICATIONS

 June 2021, Montreal, Canada

WORKSHOP CO-CHAIRS:

STEERING COMMITTEE MEMBERS:

KEYNOTE SPEAKERS:

  • Dr. Ronny Hadani, Chief Scientific Officer, Cohere Technologies, US
  • Prof. Emanuele Viterbo, Monash University, Australia

SCOPE AND TOPICS OF THE WORKSHOP

Future wireless networks are expected to provide high speed and ultra-reliable communications for a wide range of emerging mobile applications, including online gaming, vehicle-to-everything (V2X), and high-speed railway systems. Communications in high mobility scenarios suffer from severe channel Doppler spreads, which deteriorate the performance of the widely adopted orthogonal frequency division multiplexing (OFDM) modulation in the current fourth-generation (4G) and emerging fifth-generation (5G) networks. On the other hand, the spectrum congestion under 6 GHz frequency bands and data hungry applications make communications over high frequency bands desirable, such as millimeter wave (mmWave) bands ranging from 30 GHz to 300 GHz with much wider available bandwidth.

Recently, a new two-dimensional (2D) modulation scheme referred to as orthogonal time frequency space (OTFS) was proposed, where the information symbols are multiplexed in the Delay-Doppler (DD) domain rather than the time-frequency (TF) domain as the traditional modulation techniques. The DD domain multiplexing provides the possibility to embrace the channel impairments, such as delay and Doppler shifts, and to provide the benefits of delay- and Doppler-resilience. More importantly, OTFS enjoys the full time-frequency diversity of the channel, which is the key to provide reliable communications. In addition, OTFS modulation effectively transforms a time-variant channel into an effective 2D time-invariant channel in the DD domain, where attractive properties, such as separability, compactness, stability, and possibly sparsity, exhibit and are potential to be exploited for OTFS system designs.

As existing wireless communication design principles and technologies were mainly for low-mobility channel characteristics at a low carrier frequency, OTFS introduces new critical challenges for transceiver architecture and algorithm designs. To fully unleash the potential of OTFS, challenging fundamental research problems and many practical design issues must be addressed, including channel estimation, detection techniques, and multiple antenna and multiple user systems design. This workshop aims at bringing together academic and industrial researchers in an effort to identify and discuss the major technical challenges, recent breakthroughs, and new applications related to OTFS. Topics of interest include but are not limited to:

  • Channel measurement and modeling in the DD domain
  • Fundamental information theoretical limits for OTFS
  • Capacity scaling of OTFS for multiple antenna and multiuser systems
  • Signal processing for OTFS transceiver designs
  • Channel estimation for OTFS
  • Receiver design for OTFS
  • Machine learning/AI enhanced OTFS
  • MIMO and massive MIMO design for OTFS
  • Multiple access schemes for OTFS
  • Network architectures and transmission protocols for OTFS
  • System-level simulation, prototyping, and field-tests for OTFS
  • Standardization of OTFS
  • Joint radar and communication via OTFS
  • DD domain and TF domain filter designs for OTFS
  • Transmit and receive window designs for OTFS
  • Coded OTFS system performance analysis
  • Coexisting of 5G and OTFS signaling
  • FDD and TDD OTFS systems
  • OTFS for URLLC
  • Security and privacy issues in OTFS
  • The application of OTFS in mmWave and Tera Hertz

IMPORTANT DATES

Paper submission January 20, 2021
Notification of acceptance February 20, 2021
Final papers submission March 1, 2021
Workshop date TBA

SUBMISSION LINK

https://edas.info/N27513

Sponsors