(Ucom 2023) International Conference on Ubiquitous Communication

Communication Engineering

Conference Date

Jul 07-Jul 09, 2023

Place

Xi'an, China

Submission Deadline

May 05, 2023

E-mail

Ucom@xidian.edu.cn

Telephone

147 0286 6895

Description

Full Name: 2023 International Conference on Ubiquitous Communication
Abbreviation: Ucom 2023
Date:July 7-9, 2023
Venue:Xi'an, China
Website:http://ucom.org.cn/

★Welcome to Ucom 2023:
The future communication system will be a ubiquitous communication system integrating air, space, ground, and sea, which can not only effectively improve the key performance of the network, but also break the geographical limitation, realize global seamless three-dimensional coverage, support users' access anytime and anywhere, and narrow the digital divide between different regions. In addition, the emergence of new services and scenarios (such as immersive experiences, unmanned services, digital twins, etc.) and their increasingly demanding key performance indicators require ubiquitous communication systems to integrate communication, information, big data, AI, control, and other technologies, thereby supporting cloudified, flexible, minimalist, intelligent/secure endogenous and open networks, and providing the distributed, cross-domain, flexible and agile capability. Although ubiquitous communication systems have been discussed in both academia and industry in recent years, the research on its network architectures, theories, key technologies, and challenges is still in its infancy. For this reason, the School of Telecommunications Engineering of Xidian University initiates the International Conference on Ubiquitous Communication (Ucom), aiming to establish a broad communication platform to invite world-renowned experts and scholars to propose innovative insights, methodologies, architectures, theories, modeling approaches, and industry development visions for ubiquitous communication systems. This conference will result in high-quality academic papers to jointly promote the development of ubiquitous communication systems. The technical scope of the conference includes, but is not limited to, communication theory and techniques, signal processing and image processing, networking, optical communication, machine learning and optimization for wireless systems, and emerging technologies, standards and applications in the field of ubiquitous communications. All teaching, research staff, and students engaged in the new theory of communication technology and its applications are welcome to attend.

★Organized by:
School of Telecommunications Engineerig, Xidian Univeristy
ISN State Key Laboratory

★Co-organized by:
Science and Technology on Communication Networks Laboratory

★Supported by:
Tsinghua University
Peking University
Zhejing University
Shanghai Jiao Tong University
Fudan University
Sun Yat-sen University
Beijing Institute of Technology
Southeast University
Northwestern Polytechnical University
Hunan University
Harbin Institute of Technology, Shenzhen
University of Electronic Science and Technology of China
Beijing University of Posts and Telecommunications
Beijing Jiaotong University
Nanjing University of Aeronautics and Astronautics
Harbin Engineering University

★Technical Sponsored by:
IEEE, IEEE Xi'an Chapter

★Steering Committee Chair:
Quan Yu Academician of the Chinese Academy of Engineering, Pengcheng Laboratory, IEEE Fellow;
Xinliang Zhang, Xidian University, OSA Fellow;
Khaled Ben Letaief, The Hong Kong University of Science and Technology, IEEE Fellow.

★Advisory Chairs:
(Alphabetical order of last name)
Tiejun Cui, Academician of Chinese Academy of Sciences, Southeast University;
Huitao Fan, Academicians of Chinese Academy of Engineering;
Dengguo Feng, Academician of Chinese Academy of Sciences;
Xiaohong Guan, Academician of Chinese Academy of Sciences, Xi'an Jiaotong University;
Lajos Hanzo, Fellow of the Royal Academy of Engineering, University of Southampton;
You He, Academicians of Chinese Academy of Engineering;
Huilin Jiang, Academicians of Chinese Academy of Engineering, Changchun University of Science and Technology;
Teng Long, Academicians of Chinese Academy of Engineering, Beijing Institute of Technology;
Zhi-Quan Luo, Foreign Members of the Chinese Academy of Engineering, The Chinese University of Hong Kong (Shenzhen);
Sherman Shen, Foreign Members of the Chinese Academy of Engineering, University of Waterloo;
Jiangzhou Wang, Royal Academy of Engineering Fellow, University of Kent;
Xianbing Wang, Fellow of the Canadian Academy of Engineering, Western University;
Fuqiang Yao, Academicians of Chinese Academy of Engineering, National University of Defense Technology;
Hong Yang, Academicians of Chinese Academy of Engineering;
Hao Yin, Academician of Chinese Academy of Sciences;
Hongke Zhang, Academicians of Chinese Academy of Engineering, Beijing Jiaotong University;
Ping Zhang, Academicians of Chinese Academy of Engineering, Beijing University of Posts and Telecommunications;
Zhicheng Zhou, Academicians of Chinese Academy of Engineering.

★Steering Committee Members:
(Alphabetical order of last name)
Bo Ai, Beijing Jiaotong University, IEEE Fellow;
Jianping An, Beijing Institute of Technology;
Kwang-cheng Chen, Taiwan University, IEEE Fellow;
Shanzhi Chen, China Information Communication Technologies Group Corporation;
Jingdong Chen, Northwestern Polytechnical University;
Nan Chi, Fudan University;
Shuguang Cui, The Chinese University of Hong Kong, Shenzhen, IEEE Fellow;
Zhiyong Feng, Beijing University of Posts and Telecommunications;
Zhu Han, University of Houston, IEEE Fellow;
Shi Jin, Southeast University;
Lingjiang Kong, University of Electronic Science and Technology of China;
Kenli Li, Hunan University;
Zan Li, Xidian University;
Zhaohui Li, SUN YAT-SEN University;
Keping Long, University of Science and Technology Beijing;
Zhisheng Niu, Tsinghua University, IEEE Fellow;
Lingyang Song, Peking University;
Rahim Tafazolli, University of Surrey, Fellow of The Royal Academy of Engineering;
Zhi Tian, George Mason University, IEEE Fellow;
Xinbing Wang, Shanghai Jiao Tong University;
Qihui Wu, Nanjing University of Aeronautics and Astronautics;
Kun Yang, University of Electronic Science and Technology of China;
Jingwei Yin, Harbin Engineering University;
Qinyu Zhang, Harbin Institute of Technology, Shenzhen;
Zhaoyang Zhang, Zhejiang University.

★Honorary Chair:
Quan Yu, Academician of the Chinese Academy of Engineering, Pengcheng Laboratory, IEEE Fellow.

★General Chair:
Xinliang Zhang, Xidian University, OSA Fellow.

★Executive Chair:
Zan Li, Xidian University.

★Executive Co-Chair:
Yunsong Li, Xidian University;
Min Sheng, Xidian University;
Huaxi Gu, Xidian University.

★Award Chair:
Bo Ai, Beijing Jiaotong University, IEEE Fellow;
Chengwen Xing, Beijing Institute of Technology;
Xiaoyan Zhu, Xidian University.

★Publications Chair:
Long Yang, Xidian University.

★Publicity Chair:
Jia Shi, Xidian University;
Xu Wang, Heriot-Watt University.

★Financial Chair:
Kai Liang, Xidian University.

★Local Arrangement Chair:
Deshui Yu, Xidian University.

★Technical Program Committee Chair:
Hsiao-Hwa Chen, National Cheng Kung University, IEEE Fellow.

★Track 1 Chair
Lie-Liang Yang, University of Southampton, IEEE Fellow
★Track 2 Chair
Pei Xiao, University of Surrey
★Track 3 Chair
Yue Gao, Fudan University
★Track 4 Chair
Ming Tang, Huazhong University of Science and Technology
★Track 5 Chair
Kun Yang, University of Electronic Science and Technology of China, IEEE Fellow
★Track 6 Chair
Wei Zhang, The University of New South Wales, IEEE Fellow
★Workshop1 Chair
Nan Wu, Beijing Institute of Technology
Haijun Zhang, University of Science and Technology Beijing
Liping Qian, Zhejiang University of Technology
★Workshop2 Chair
Shaoshi Yang, Beijing University of Posts and Telecommunications
★Workshop3 Chair
Xiaqing Miao, Beijing Institute of Technology

★Technical Program Committee:
(Alphabetical order of last name)
André L. F. de Almeida, Universidade Federal do Ceará;
Harith Ahmad, University of Malaysia;
Lin Bai, Beihang University;
Nicola Calabretta, Eindhoven University of Technology;
Nan Cheng, Xidian University;
Wenchi Cheng, Xidian University;
Guoru Ding, Army Engineering University of PLA;
Haiyang Ding, National University of Defense Technology;
Gaofeng Pan, Beijing Institute Of Technology;
Feifei Gao, Tsinghua University, IEEE Fellow;
Guan Gui, Nanjing University of Posts and Telecommunication;
Ruisi He, Beijing Jiaotong University;
Weigang Hou, Chongqing University of Posts and Telecommunications;
Jie Hu, University of Electronic Science and Technology of China;
Chunxiao Jiang, Tsinghua University;
Yuzhou Li, Huazhong University of Science and Technology;
Li Li, Huazhong University of Science and Technology;
Yun Lin, Harbin Engineering University;
Hilmi Othman, Tyndall National Institute;
Cong Pu, Oklahoma State University;
Liping Qian, Zhejiang Unviersity of Technology;
Zhiguo Shi, Zhejiang Unviersity;
Qingjiang Shi, Tongji University;
Theodoros A. Tsiftsis, University of Thessaly;
Huiming Wang, Xi'an Jiaotong University;
Nanan Wang, Xidian University;
Yongpeng Wu, Shanghai Jiao Tong University;
Shuiying Xiang, Xidian University;
Shaoshi Yang, Beijing University of Posts and Telecommunications;
Tingting Yang, Dalian Maritime University;
Weiwei Yang, Army Engineering University of PLA;
Changyan Yi, Nanjing University of Aeronautics and Astronautics;
Mingjin Zhang, Xidian University;
Yan Zhang, Xidian University;
Haijun Zhang, University of Science and Technology Beijing;
Jiayi Zhang, Beijing Jiaotong University;
Nan Zhao, Dalian University of Technology;
Yongli Zhao, Beijing University of Posts and Telecommunications;
Fuhui Zhou, Nanjing University of Aeronautics and Astronautics;
Haibo Zhou, Nanjing University.

★The technical scope of the conference includes, but is not limited to, communication theory and techniques, signal processing and image processing, networking, optical communication, machine learning and optimization for wireless systems, and emerging technologies, standards and applications in the field of ubiquitous communications:
Track 1. Communication Theory and Techniques
Channel Modeling and Estimation
Energy Harvesting and Low Energy Communication
Feedback and Two-Way Communication
Holographic Surfaces and Reconfigurable Surfaces
Information Theory and Channel Capacity
Integrated Sensing and Communications
Low Resolution Communication
Millimeter Wave and Terahertz
Next Generation MIMO and Massive MIMO
Physical Layer Security
Propagation and Interference Modeling
Relaying and Self-Backhauling
Short Packet and Finite Block Length Communications
Visible Light Communications
Modulation and Channel Coding
Wireless Power and Information Transfer

Track 2. Signal Processing & Image Processing
Waveforms, Coding and Modulation
Iterative Techniques, Detection, and Decoding
Nonlinear signal processing
Statistical signal processing
Multi-rate Signal Processing in Communications
Signal Processing in Mobile Communications
Signal Processing in Optical Communications
Signal Processing in Software Radio Realization
Radar and sonar signal processing
Sensor array and multichannel signal processing
Signal processing for computer vision and robotics
Signal processing over graphs and networks
Signal processing for the internet of things
Design/implementation of signal processing systems
Image/Video Processing and Coding
Multidimensional Signal Processing
Image Processing & Understanding
Image Compression and Transmission
Image Recovery
Watermarking and Information Hiding
Video Compression & Streaming

Track 3. Networking
Scheduling and Opportunism
Resource Management
URLLC, Time Sensitive and Deterministic Networking
Network Slicing
Routing and Congestion Control
Multi-hop Networks
Multiple Access and Contention
Cooperative Communication and Networking
Cognitive Radio and Networking
Spectrum Sensing, Access, and Sharing
Wireless Network Security and Privacy
Backscatter Communications
Edge Computing, Edge Intelligence and Fog Networks
Network Economics
Energy-Efficient and Green Networking
RAN Data Collection and Storage Enhancement
Unlicensed Spectrum and Licensed/Unlicensed Inter-networking

Track 4. Optical Communication
Optical Fibers and Fiber-based Devices
Optical Transmission Systems, Sub-systems and Technologies
Networks Architectures, Management and Applications
Materials, Devices and Optoelectronics Integration
Microwave Photonics and Optical Signal Processing
Quantum photonics and applications
Machine learning for photonics and communications
Performance analysis of optical communications and networks
Flexible-grid elastic optical networks
Energy-efficient/green optical communications and networks
Optical wireless communication applications for future networks
Hybrid radio frequency/optical wireless communication systems and networks

Track 5. Machine Learning & Optimization for Wireless Systems
Deep Learning for Wireless
Reinforcement Learning for Wireless
Federated Learning and Distributed Learning for Wireless Networks
Unsupervised, Semi-supervised Learning and Generative Models
Communication-inspired Machine Learning (ML) for 6G
End-to-end ML over Wireless Channels
Scalability of ML for Wireless
Performance Analysis of ML Techniques for Wireless
Beam Management based on ML
Data-driven Network Modelling and Optimization
Networking Architectures for Artificial Intelligence
AI Service Provisioning in Wireless Networks
Intelligent Green Wireless Networking
Bayesian Optimization for Wireless
Convex and Non-Convex Optimization for Wireless
Semantic and Goal-Oriented Communications
Game Theoretic Approaches to Wireless
Datasets for Wireless Systems and Channels

Track 6. Emerging Technologies, Standards, and Applications
Sensing and Localization
Joint Radar and Communications
Connected Vehicles and Vehicle to Everything (V2X)
UAVs and Non-Terrestrial Networks
Satellite and Deep Space Communications
Intelligent Beamforming Relays
Molecular and Nano Communications
IoT and Machine Type Communications
Software Defined Radio and Networks
5G NR and 6G standardization
802.11 and next generation Wi-Fi
Blockchain and Cryptography
Quantum Communications
Innovative implanted and wearable devices
Networking support for virtual and augmented reality
Backhaul/Fronthaul Networking & Communications
Integrated Sensing, Computing and Communications

Track 7: Workshop on Joint Communication, Sensing and Computing for Next Generation Network
Joint communication, sensing and computing architecture design
Performance analysis for joint communication, sensing and computing system or subsystems
Performance optimization for joint communication, sensing and computing system or subsystems
Distributed edge computing systems with communication and sensing ability
AI for joint communication, sensing and computing system or subsystems
Transmission modelling and signal processing for joint communication, sensing and computing system or subsystems
Hardware design and simulation for joint communication, sensing and computing system or subsystems
Big data collection and analysis for joint communication, sensing and computing system or subsystems
Air-ground integration and vehicular system for joint communication, sensing and computing system or subsystems

Track 8: Workshop on Space-Air Computing Networks for 6G
Application of edge/fog/cloud computing in space-air computing
Multi-type resource scheduling and allocation schemes for space-air computing
Software-defined networking and network function virtualization technology in space-air computing
Communication architecture for space-air computing
AI-enabled space-air computing
Standards and protocols in space-air computing networks for 6G
Design and evaluation of performance metrics in space-air computing
Security and privacy issues in space-air computing
Blockchain for space-air computing applications
Federated learning based on space-air computing
Application of distributed AI models in space-air computing
Exploitation of highly dynamic topologies in space-air computing
Routing techniques in space-air computing

Track 9: Workshop on Secure space-aerial communications
Security challenges in space-aerial/terrestrial communications
Physical layer security techniques for UAVs and satellite communications
Use of artificial intelligence and machine learning in space-aerial/terrestrial security
Encryption techniques for space-aerial/terrestrial communications
Cover space-aerial/terrestrial communications
Authentication, authorization, and accounting for space-aerial/terrestrial security
Design and evaluation of secure performance in space-aerial/terrestrial communications
Standards and protocols for secure space-aerial/terrestrial communications
Reconfigurable intelligent surface based secure space-aerial/terrestrial communication systems
Big data analytics tools/techniques in space-aerial/terrestrial security
Verticals and business (non-technical) security requirements and solutions for space-aerial/terrestrial communications
Quantum Safe Cryptography for space-aerial/terrestrial communications
Secure data storage, communications, and computing in space-aerial/terrestrial networks

★Publication:
After a careful reviewing process, all accepted papers after proper registration and presentation, will be published in the conference Proceedings by IEEE.

★Submission Method:
[Full Papers] Accepted full papers presented at the conference will be published into the conference proceedings.
All papers should be submitted electronically via the EasyChair System: https://easychair.org/conferences/?conf=ucom2023

★Contact Us:
Vicky Li
T: +86-28-87555888
M: +86-19182240053
E: Ucom@xidian.edu.cn
Website:http://ucom.org.cn/