This paper introduces the concept of Distributed Intelligent integrated Sensing and Communications (DISAC), which expands the capabilities of Integrated Sensing and Communications (ISAC) towards distributed architectures. Additionally, the DISAC framework integrates novel waveform design with new semantic and goal-oriented communication paradigms, enabling ISAC technologies to transition from traditional data fusion to the semantic composition of diverse sensed and shared information. This progress facilitates large-scale, energy-efficient support for high-precision spatial-temporal processing, optimizing ISAC resource utilization, and enabling effective multi-modal sensing performance. Addressing key challenges such as efficient data management and connect-compute resource utilization, 6G- DISAC stands to revolutionize applications in diverse sectors including transportation, healthcare, and industrial automation. Our study encapsulates the project vision, methodologies, and potential impact, marking a significant stride towards a more connected and intelligent world.

翻译：本文提出了分布式智能集成感知与通信（DISAC）的概念，将集成感知与通信（ISAC）的能力向分布式架构拓展。此外，DISAC框架将新型波形设计与语义及目标导向的新通信范式相结合，使ISAC技术能够从传统的数据融合过渡到多样化感知与共享信息的语义组合。这一进展推动了大规模、高能效支持高精度时空处理，优化了ISAC资源利用，并实现了有效的多模态感知性能。针对高效数据管理与连接-计算资源利用等关键挑战，6G-DISAC有望彻底改变交通、医疗保健和工业自动化等多个领域的应用。本研究概述了项目愿景、方法论及潜在影响，标志着向更互联、更智能的世界迈出了重要一步。