中文

Electromagnetic Signal and Information Theory: A Continuous-Aperture Array Perspective

信息论 2026-05-14 v1 math.IT

摘要

Emerging wireless systems are evolving toward larger, denser, higher-frequency, and more reconfigurable apertures, which motivates the study of continuous-aperture arrays (CAPAs). Unlike conventional spatially discrete arrays (SPDAs), CAPAs are more naturally modeled as spatially continuous electromagnetic apertures and therefore call for a fundamental shift in both signal processing and information-theoretic analysis. In particular, the underlying channels, signals, and beamformers are no longer finite-dimensional vectors and matrices, but continuous fields and operators governed by Maxwell's equations. This paper provides a tutorial overview of CAPA systems from the perspective of electromagnetic signal and information theory (ESIT), with an emphasis on the transition from discrete array models to physics-consistent continuous-aperture formulations. We review the electromagnetic foundations of CAPAs, practical hardware implementations, line-of-sight and multipath channel modeling, continuous-space beamforming and channel estimation, and the fundamental degrees of freedom and capacity limits of CAPA systems. We also highlight how tools such as wavenumber-domain methods, functional analysis, and compressive sensing can transform challenging infinite-dimensional problems into tractable finite-dimensional ones while preserving the essential physical structure of the channel. Overall, this tutorial aims to clarify the key principles, analytical tools, and open challenges that shape CAPA-enabled wireless communications.

关键词

引用

@article{arxiv.2605.12910,
  title  = {Electromagnetic Signal and Information Theory: A Continuous-Aperture Array Perspective},
  author = {Zhaolin Wang and Chongjun Ouyang and Kuranage Roche Rayan Ranasinghe and Shuai S. A. Yuan and Giuseppe Thadeu Freitas de Abreu and Emil Björnson and Yuanwei Liu},
  journal= {arXiv preprint arXiv:2605.12910},
  year   = {2026}
}

备注

Submitted to an IEEE journal for possible publication