Integrated Sensing and Communication (ISAC) is recognized as a promising technology for the next-generation wireless networks. In this paper, we provide a general framework to reveal the fundamental tradeoff between sensing and communications (S&C), where a unified ISAC waveform is exploited to perform dual-functional tasks. In particular, we define the Cramer-Rao bound (CRB)-rate region to characterize the S&C tradeoff, and propose a pentagon inner bound of the region. We show that the two corner points of the CRB-rate region can be achieved by the conventional Gaussian waveform and a novel strategy referred to as successive hypersphere coding, respectively. Moreover, we also offer our insights into transmission approaches achieving the boundary of the CRB-rate region, namely the Shannon-Fisher information flow.
翻译:综合遥感和通信(ISAC)被认为是下一代无线网络的一种有希望的技术,在本文中,我们提供了一个总框架,揭示遥感和通信之间的根本权衡,利用统一的ISAC波形进行双重功能任务,特别是我们界定Cramer-Rao约束率区域,以说明S&C交易的特征,并提出该区域的五角内圈。我们表明,CRB率区域的两个角点可以通过传统的高斯波形和被称为先后的超镜编译的新战略来实现。此外,我们还就达到CRB-Fisher区域边界的传输方法,即香农-Fisher信息流动,提出了我们的看法。