IEEE International Conference on Communications
28 May – 01 June 2023 // Rome, Italy
Sustainable Communications for Renaissance

WS-06: Workshop on Edge Learning for 5G Mobile Networks and Beyond

WS-06: Workshop on Edge Learning for 5G Mobile Networks and Beyond

WELCOME TO THE WORKSHOP ON "EDGE LEARNING for 5G MOBILE NETWORKS AND BEYOND"

                                                 28 May – 01 June 2023, Rome, Italy

 

 

STEERING COMMITTEE MEMBERS:

WORKSHOP CO-CHAIRS:

KEYNOTE SPEAKERS:

SCOPE AND TOPICS OF THE WORKSHOP

Nowadays, standard machine learning approaches require centralizing the training data on a single data center or cloud. Since massive data samples need to be uploaded to the data center, transmission delay can be very high and user privacy is not guaranteed in standard centralized machine learning approaches. However, low-latency and privacy requirements are important in the emerging application scenarios, such as unmanned aerial vehicles, extended reality (XR) services, autonomous driving, which makes centralized machine learning approaches inapplicable. Moreover, due to limited communication resources, it is impractical for all the wireless devices that are engaged in learning to transmit all of their collected data to a data center that uses a centralized learning algorithm for data analytic or network self-organization. Therefore, it becomes increasingly attractive to deploy learning algorithms at edge devices, called edge learning.  A typical edge learning framework (e.g., federated learning) features distributed learning over many wireless end-user devices cooperating with edge devices, such as access points or base stations, to train a common AI model using local data. This scenario typically involves an iterative learning process, repeatedly downloading and uploading of possibly high-dimensional (millions to billions) model parameters or their updates by tens to hundreds of edge devices. This may generate substantial data traffic, placing a heavy burden on already congested radio access networks. The training problem cannot be efficiently solved using traditional wireless techniques targeting rate maximization and decoupled from learning. Achieving the goal of edge learning with high communication efficiencies calls for the designs of new wireless techniques based on a communication-and-learning integration approach.

Thus, this workshop seeks to bring together researchers and experts from academia, industry, and governmental agencies to discuss and promote the research and development needed to overcome the major challenges that pertain to this cutting-edge research topic. Suitable topics for this workshop include, but are not limited to, the following areas:

  • Secrecy of edge learning algorithms
  • Over-the-air computation for edge learning
  • Fundamental limits of edge learning systems
  • Wireless network optimization for improving the performance of edge learning
  • Data compression for edge learning
  • Adaptive transmission for edge learning
  • Techniques for wireless crowd labelling
  • Modeling and performance analysis of edge learning networks
  • Energy efficiency of implementing machine learning over wireless edge networks
  • Ultra-low latency edge learning and inference    
  • Experiments and testbeds on edge learning
  • Privacy and security issues in edge learning
  • Edge learning for intelligent signal processing
  • Edge learning for user behavior analysis and inference
  • Distributed reinforcement learning for network decision making, network control, and management

IMPORTANT DATES

Paper Submission Deadline: 20 January 2023
Notification of Acceptance: 6 March 2023
Camera-ready Papers: 15 March 2023
Workshop Date: TBD

MAIN CONTACT

Changsheng You, Southern University of Science and Technology, China.(youcs@sustech.edu.cn)

PAPER SUBMISSION

All papers for Workshops should be submitted via EDAS. Full instructions on how to submit papers are provided on the IEEE ICC 2023 website: https://icc2023.ieee-icc.org/

Patrons