Title :
Modelling of MIMO channels for the populated indoor environment
Author :
Scanlon, W.G. ; Ziri-Castro, K.
Author_Institution :
Centre for Commun. Eng., Ulster Univ., Newtownabbey, UK
Abstract :
The use of multiple-input multiple-output (MIMO) channels has recently attracted considerable interest as an approach that can yield significant capacity gains over conventional smart antenna arrays. This paper presents a new channel model for MIMO systems operating in populated indoor environments. The model is based on geometrical optics and a detailed radar cross-section (RCS) representation of the human body, and it is capable of estimating the temporal response and the capacity bounds for MIMO channels in the presence of pedestrian traffic. For a single room environment, the new channel model predicts an increase in capacity from 19.1 bits/s/Hz to 31.4 bits/s/Hz solely caused by the movement of pedestrians. The new channel modelling technique offers an efficient solution to the performance evaluation of MIMO wireless systems in populated indoor environments.
Keywords :
MIMO systems; channel capacity; electromagnetic wave absorption; electromagnetic wave diffraction; electromagnetic wave scattering; finite difference time-domain analysis; indoor radio; physiological models; radar cross-sections; ray tracing; 2.45 GHz; FDTD; MIMO channels; RCS representation; absorption; channel capacity; diffraction; geometrical optics; human body phantom; multiple-input multiple-output channels; pedestrian traffic; populated indoor environment; radar cross-section representation; ray tracing; scattering; wave blocking;
Conference_Titel :
MIMO: Communications Systems from Concept to Implementations (Ref. No. 2001/175), IEE Seminar on
DOI :
10.1049/ic:20010203
