Call for Special Sessions

Invited sessions consist of 5 to 8 thematically related invited papers. Invited session proposals consist of a brief statement of purpose and extended abstracts of the included invited papers. Special-session proposals should be submitted by the prospective organizer(s) who will commit to promoting and handling the review process of their special session as Chairs or Co-Chairs of the event.
Please provide all the information requested above when preparing your special-session proposal via E-mail: icwoc_general@vip.163.com

Proposals should include the following information:
● Title;
● Name(s) of organizer(s);
● Email of main contact person;
● Brief bio(s) of organizer(s);
● Brief description;
● Related topics;
● Potential participants;

 

Special Session Application List 可申请专题列表

以下专题可以申请组织，请联系E-mail: icwoc_general@vip.163.com

一: 人工智能赋能的下一代无线网络 | AI-Empowered Next-Generation Wireless Networks
简介：本专题聚焦于人工智能与机器学习技术在无线通信系统的设计、优化与自主运维中的前沿应用。旨在应对6G及超5G网络在超高复杂性、动态性及异构集成方面带来的核心挑战，推动网络从传统范式向内生智能的根本转变。我们诚邀在算法创新、架构设计、协议优化及现网部署验证等方面的最新研究成果投稿。 
Introduction: This session focuses on cutting-edge applications of Artificial Intelligence (AI) and Machine Learning (ML) in the design, optimization, and autonomous operation of wireless communication systems. It aims to address the core challenges posed by the extreme complexity, dynamics, and heterogeneity of 6G and Beyond-5G (B5G) networks, facilitating a fundamental shift from traditional paradigms to native intelligence. We invite the latest research achievements in algorithmic innovation, architecture design, protocol optimization, and field deployment validation.
主题 / Topics of Interest:
1.  基于AI/ML的信道建模、估计与预测  /  AI/ML-based Channel Modeling, Estimation, and Prediction
2.  智能无线资源管理与网络切片  / Intelligent Radio Resource Management and Network Slicing
3.  面向O-RAN的智能控制与优化  /  Intelligent Control and Optimization for Open RAN
4.  分布式学习与联邦学习在无线网络中的应用  /  Applications of Distributed and Federated Learning in Wireless Networks
5.  AI驱动的网络节能与绿色通信  /  AI-driven Network Energy Saving and Green Communications
6.  智能频谱感知与动态共享  /  Intelligent Spectrum Sensing and Dynamic Sharing
7.  通算一体系统中的联合优化  / Joint Optimization in Integrated Communication and Computing Systems

 

二: 面向智慧社会的集成感知与通信 | Integrated Sensing and Communication for Smart Societies
简介：集成感知与通信是实现未来智能万物互联的基石技术。本专题聚焦于ISAC在理论突破、信号处理、系统架构及垂直行业应用方面的最新进展，旨在探索其如何为自动驾驶、智慧城市、元宇宙交互及工业物联网等关键场景提供核心能力，推动通感一体化的研究与产业化进程。 
Introduction: Integrated Sensing and Communication (ISAC) is a foundational technology for future intelligent connectivity of everything. This session focuses on the latest advances in ISAC regarding theoretical breakthroughs, signal processing, system architectures, and vertical applications. It aims to explore how ISAC provides core capabilities for key scenarios such as autonomous driving, smart cities, metaverse interaction, and Industrial IoT, promoting both research and industrialization of sensing-communication integration.
征稿主题 / Topics of Interest:
1.  ISAC联合波形与信号设计  /  Joint Waveform and Signal Design for ISAC
2.  基于通信基础设施的高精度感知与定位  / High-Precision Sensing and Positioning Based on Communication Infrastructure
3.  ISAC系统的干扰管理与资源分配  / Interference Management and Resource Allocation for ISAC Systems
4.  面向车联网与无人系统的ISAC技术  /  ISAC Technologies for Vehicular Networks and Unmanned Systems
5.  毫米波/太赫兹频段的ISAC实现  / ISAC Implementation in Millimeter-Wave/Terahertz Bands
6.  ISAC性能极限与一体化评估框架  / Performance Limits and Integrated Evaluation Frameworks for ISAC
7.  人工智能赋能的ISAC优化  / AI-empowered Optimization for ISAC

 

三: 星地融合网络的关键技术与挑战 | Key Technologies and Challenges in Satellite-Terrestrial Integrated Networks
简介：低轨巨型星座的部署正加速空天地海一体化网络时代的到来。本专题专注于星地融合网络在物理层传输、网络架构、协议设计及资源管理等领域面临的核心科学问题与工程挑战，征集旨在提升全球无缝覆盖能力、网络弹性与服务质量的创新解决方案，助力6G全域覆盖愿景的实现。 
Introduction: The deployment of mega-constellations in Low Earth Orbit (LEO) is accelerating the era of integrated space-air-ground-sea networks. This session focuses on the core scientific and engineering challenges in physical-layer transmission, network architecture, protocol design, and resource management for satellite-terrestrial integrated networks. We solicit innovative solutions aimed at enhancing global seamless coverage, network resilience, and service quality, contributing to the vision of 6G ubiquitous connectivity.
征稿主题 / Topics of Interest:
1.  星地异构网络的协同传输技术  / Cooperative Transmission Technologies for Satellite-Terrestrial Heterogeneous Networks
2.  高动态星地链路的移动性管理与切换  / Mobility Management and Handover for Highly Dynamic Satellite-Ground Links
3.  星地网络的联合资源管理与网络切片  / Joint Resource Management and Network Slicing for Integrated Satellite-Terrestrial Networks
4.  适用于长时延间断连接的网络协议  / Network Protocols for Long-Delay and Discontinuous Connectivity
5.  星地融合网络安全与隐私保护  / Security and Privacy Preservation in Satellite-Terrestrial Integrated Networks
6.  面向大规模物联网的卫星直接通信  / Direct Satellite Communications for Massive IoT
7.  标准化进展、原型系统与试验平台  / Standardization Progress, Prototyping, and Testbeds

 

四: 无线网络的安全、隐私与弹性 | Security, Privacy, and Resilience in Wireless Networks
简介：无线网络的开放性和新技术的引入不断催生新的安全威胁。本专题重点关注面向6G、O-RAN及物联网等环境的物理层安全、网络弹性架构、隐私增强计算与信任管理机制等核心安全议题。旨在构建能够自适应威胁、保护用户隐私、并从故障或攻击中快速自愈的可信未来无线网络。 
Introduction: The openness of wireless networks and the introduction of new technologies continually give rise to novel security threats. This session focuses on core security issues for 6G, O-RAN, IoT, and other environments, including physical-layer security, resilient network architectures, privacy-enhancing computation, and trust management mechanisms. It aims to build trustworthy future wireless networks that can adapt to threats, protect user privacy, and recover rapidly from failures or attacks.
征稿主题 / Topics of Interest:
1.  6G与B5G网络的新兴威胁模型与安全架构  / Emerging Threat Models and Security Architectures for 6G/B5G Networks
2.  基于人工智能的无线入侵检测与防御  /AI-based Intrusion Detection and Defense for Wireless Networks
3.  物理层安全密钥生成与轻量级认证  / Physical-Layer Security Key Generation and Lightweight Authentication
4.  O-RAN的安全挑战与零信任架构  / Security Challenges and Zero-Trust Architecture for O-RAN
5.  无线网络中的数据隐私保护与差分隐私  / Data Privacy Preservation and Differential Privacy in Wireless Networks
6.  对抗性机器学习对无线系统的攻击与防护  / Adversarial Machine Learning Attacks and Defenses for Wireless Systems
7.  网络弹性设计、自愈与生存性技术  / Network Resilience Design, Self-Healing, and Survivability Techniques

 

五: 新型光子器件、集成与智能化应用 | Novel Photonic Devices, Integration, and Intelligent Applications
简介：本专题聚焦下一代光通信与信号处理中的新型光子材料、器件与集成技术，特别关注通过智能化设计、控制与应用拓展光子技术潜力，征集从基础器件创新到片上系统及智能应用的前沿研究。
Introduction: This session focuses on novel photonic materials, devices, and integration for next-generation optical communication and signal processing. It highlights intelligent design and applications, soliciting cutting-edge research from fundamental device innovation to system-on-chip and intelligent applications.

征稿主题:
硅基光电子与异质集成技术 / Silicon Photonics and Heterogeneous Integration
薄膜铌酸锂及其他新兴光子材料 / Thin-film Lithium Niobate and Emerging Materials
面向人工智能的光计算与光子加速器 / Optical Computing and Photonic Accelerators for AI
智能光电融合的收发机技术 / Intelligent Opto-Electronic Transceivers
微波光子学与光载无线系统 / Microwave Photonics and Radio-over-Fiber Systems
基于光子芯片的传感与计量 / Photonic Chip-based Sensing and Metrology
先进光子封装与测试技术 / Advanced Photonic Packaging and Testing