TY - GEN
T1 - A generic model for MIMO wireless propagation channels
AU - Molisch, Andreas
PY - 2002
Y1 - 2002
N2 - We study the MIMO wireless channel, and derive a generic channel model that we believe has the ability to explain all important effects, including (i) interdependency of directions-of-arrival and directions-of-departure, (ii) large delay and angle dispersion by propagation via far clusters, (iii) rank reduction of the transfer function matrix. We point out the relevant propagation effects, and propose a geometry-based model that includes the relevant effects. The required parameters for the complete definition of the model are enumerated, and typical simulation results for urban macrocells are presented
AB - We study the MIMO wireless channel, and derive a generic channel model that we believe has the ability to explain all important effects, including (i) interdependency of directions-of-arrival and directions-of-departure, (ii) large delay and angle dispersion by propagation via far clusters, (iii) rank reduction of the transfer function matrix. We point out the relevant propagation effects, and propose a geometry-based model that includes the relevant effects. The required parameters for the complete definition of the model are enumerated, and typical simulation results for urban macrocells are presented
KW - dispersive channels
KW - delays
KW - cellular radio
KW - MIMO systems
KW - electromagnetic wave diffraction
KW - electromagnetic wave scattering
KW - radiowave propagation
KW - transfer function matrices
U2 - 10.1109/ICC.2002.996860
DO - 10.1109/ICC.2002.996860
M3 - Paper in conference proceeding
SN - 0-7803-7400-2
VL - 1
SP - 277
EP - 282
BT - IEEE International Conference on Communications, 2002. ICC 2002.
T2 - IEEE International Conference on Communications, ICC 2002
Y2 - 2 January 0001
ER -