Special Session Ⅲ

Intelligent ISAC: Frontier Convergence and AI Integration (Submission Deadline: May 5, 2026)
智能通感一体化：前沿交叉与人工智能融合

Chairs:		Co-chairs:

Linsong Du	Qingpeng Liang	Xiaoxu Zhang	Yue Xiao
Southwest Jiaotong University, China	Southwest Jiaotong University, China	Southwest Jiaotong University, China	Southwest Jiaotong University, China

Keywords:

ISAC (通感一体化)
Artificial Intelligence (人工智能)
Space-Air-Ground Integrated Network (空天地一体化网络)
Integrated Sensing, Communication and Computing (通感算协同)
Intelligent Reflecting Surface (智能超表面)

Topics:

System Architecture and Standardization Progress for ISAC (通感一体化系统架构与标准化进展)
Fundamental Theories and Novel Signal Processing for ISAC (通感一体化基础理论与新型信号处理)
ISAC System Architecture and Optimization for Space-Air-Ground Integrated Networks (面向空天地一体化网络的ISAC系统架构与优化)
AI and Machine Learning Driven Intelligent Resource Coordination for ISAC (人工智能与机器学习驱动的ISAC资源智能协同)
Interference Mitigation and Performance Enhancement in ISAC (通感一体化中的感知通信互扰消除与性能增强)
Edge Intelligence, Computing Power Network, and Integrated Sensing, Communication and Computing (边缘智能、算力网络与通感算一体化)
ISAC Applications in Vertical Industries: Low-Altitude Economy, Vehicular Networks, Industrial IoT, etc. (ISAC在低空经济、车联网、工业互联网等垂直行业应用)
Optoelectronic Fusion Communication and Sensing Technologies (光电融合通信与感知技术)
ISAC Empowered by Novel Hardware and Enabling Technologies (新型硬件与使能技术赋能的ISAC)
Security, Privacy, and Trustworthiness Evaluation for ISAC Systems (ISAC系统的安全、隐私与可信评估)
ISAC Standardization, Channel Measurement, Experimental Platforms, and Prototype Verification (ISAC标准化、信道测量、实验平台与原型验证)
Semantic Communications and Information Extraction/Utilization for ISAC (语义通信与ISAC的信息提取和利用)
Digital Twin-Driven Simulation, Optimization, and Control for ISAC Systems (数字孪生驱动的ISAC系统仿真、优化与控制)
Reconfigurable Intelligent Surfaces and Intelligent Reflecting Environments for ISAC (面向ISAC的可重构智能表面与智能反射环境)
Deep Integration of Native AI Network Architecture and ISAC (内生智能网络架构与ISAC的深度融合)
Green Communications and Energy Efficiency Optimization for ISAC (面向ISAC的绿色通信与能量效率优化)
Federated Learning and Distributed Intelligence for Cross-Domain ISAC (面向跨域通感一体化的联邦学习与分布式智能)
Intent-Driven Network and ISAC Coordination (意图驱动网络与ISAC的协同)
Terahertz Integrated Communication and Sensing Technologies (太赫兹通信与感知一体化技术)
Exploration of AI Large Models in ISAC (大模型在ISAC中的应用探索)

Summary:

Integrated Sensing and Communication is a core enabling technology for 6G and future networks, aiming to achieve deep synergy and performance multiplication of communication and sensing functions through shared spectrum and hardware resources. The integration of Artificial Intelligence brings disruptive optimization capabilities and intelligent potential to this complex system. This session focuses on the cutting-edge interdisciplinary field of Intelligent ISAC and AI, aiming to explore its fundamental theories, key technologies, system architectures, and innovative applications. The scope includes novel signal processing, intelligent resource coordination, integrated sensing-communication-computing, space-air-ground integrated network optimization, as well as enabling technologies such as intelligent reflecting surfaces, terahertz integration, and semantic communications. It also delves into practical applications in vertical industries like the low-altitude economy, vehicular networks, and industrial IoT, alongside related issues of security, privacy, standardization, and experimental verification. We cordially invite researchers from academia and industry to share their latest findings and jointly promote the transition of this field from theoretical innovation to industrial integration.

通感一体化是6G及未来网络的核心使能技术，旨在通过共享频谱与硬件资源，实现通信与感知功能的深度协同与性能倍增。人工智能的融合为这一复杂系统带来了颠覆性的优化能力与智能化潜能。本专题聚焦于智能通感一体化与人工智能的前沿交叉领域，旨在探讨其基础理论、关键技术、系统架构与创新应用。征稿范围涵盖从新型信号处理、智能资源协同、通感算一体化、空天地一体化网络优化，到智能超表面、太赫兹集成、语义通信等使能技术，并深入探索其在低空经济、车联网、工业互联网等垂直行业的落地实践，以及相关的安全、隐私、标准化与实验验证。我们诚邀学术界与产业界的研究者分享最新成果，共同推动该领域从理论创新走向产业融合。