Title :
Angular independent frequency selective surfaces for interference control in indoor wireless environments
Author :
Taylor, Philip S. ; Austin, Andrew C. M. ; Parker, Edward A. ; Neve, Michael J. ; Batchelor, John C. ; Yiin, Joseph T.-P ; Leung, Martin ; Rowe, Gerard B. ; Williamson, A.G. ; Sowerby, Kevin W.
Author_Institution :
Sch. of Eng. & Digital Arts, Univ. of Kent, Canterbury, UK
Abstract :
A study of electromagnetic wave propagation in buildings using a finite-difference time-domain algorithm has demonstrated that waves are incident on walls over a wide range of angles. If wall mounted frequency selective shielding is desired, it is argued that this behaviour requires shielding solutions that are angle insensitive. A simple single-layer annular ring frequency selective surface (which is relatively economic to fabricate) is shown to offer adequate angular stability of the transmission response, and is thus suitable for electromagnetic interference control in indoor wireless environments.
Keywords :
electromagnetic interference; electromagnetic wave propagation; frequency selective surfaces; indoor radio; angular independent frequency selective surfaces; electromagnetic interference control; electromagnetic wave propagation; finite-difference time-domain algorithm; indoor wireless environment; single-layer annular ring frequency selective surface; transmission response; wall mounted frequency selective shielding;
Journal_Title :
Electronics Letters
DOI :
10.1049/el.2011.3359
