Simulation of a wideband reconfigurable multi-antenna system with space-time coding
Paper i proceeding, 2008
Multiple-Input Multiple-Output (MIMO) systems will play a crucial role in the future of wireless systems,
for example multiple antenna techniques can be a key to boost the performance of modern wireless
systems. In order to study the performance and complexity of MIMO systems, a suitable simulation tool is
essential. Simulation is important in system architecture exploration, algorithm optimization and
bottleneck detection. Simulation is also a powerful tool when designing various components in an antenna
system like electromagnetic solvers for radiation patterns and circuit simulation for amplifiers, but
simulating an entire antenna system is not usual. In this paper the capabilities of MathWorks Simulink as a
simulation platform for MIMO systems have been investigated and a typical MIMO-WCDMA link has
been developed. Some of the blocks were used from the WCDMA library and others were developed
accordingly. The Space-Time encoder and decoder for a general MIMO link were also developed.
Furthermore, in order to be able to test different antenna types in a system, the antenna block is separated
from the channel. Henceforth a double directional channel has been developed based on the SCM (spatial
channel model) proposed by 3GPP (3rd Generation Partnership Project), which is an environmental
channel independent from the antenna. The results of the simulation shows that Simulink is a capable
platform for simulation of an entire communication link.
Spatial Channel Model
Space-Time Coding
MIMO-WCDMA
Alamouti
Diversity