Wireless Communications: Principles and Practice
Wireless Communications: Principles and Practice
On Limits of Wireless Communications in a Fading Environment when UsingMultiple Antennas
Wireless Personal Communications: An International Journal
Fundamentals of wireless communication
Fundamentals of wireless communication
Spatial fading correlation model using mixtures of Von Mises Fisher distributions
IEEE Transactions on Wireless Communications
Three-dimensional modeling and simulation of wideband MIMO mobile-to-mobile channels
IEEE Transactions on Wireless Communications
Dual-polarized wireless communications: from propagation models to system performance evaluation
IEEE Transactions on Wireless Communications
GQR models for multipath Rayleigh fading channels
IEEE Journal on Selected Areas in Communications
Effect of antenna polarization on the capacity of a multiple element system in an indoor environment
IEEE Journal on Selected Areas in Communications
Polarized MIMO channels in 3-D: models, measurements and mutual information
IEEE Journal on Selected Areas in Communications
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A three-dimensional (3D) model for wide-band dual-polarized (DP) multiple-input-multiple-output (MIMO) mobile-to-mobile (M2M) channels is proposed. Using geometrical scattering based on concentric spheres at the transmitter (Tx) and at the receiver (Rx), a 3D parametric reference model for 2×2 M2M DP multipath fading channels is developed. The channel model assumes the use of colocated half-wavelength dipole antennas for vertical and horizontal polarizations at both transmit and receive stations. Model parameters include the velocities of the Tx and Rx nodes, the distance between the nodes, the 3D antenna pattern gains, the azimuth and elevation angles of arrival and departure, the geometrical distribution of the scatterers, the Rician K-factors defining the fading envelope distributions, the maximum Doppler frequency, the scattering loss factors, the cross-polar power discrimination ratio (XPD), and the copolarization power ratio (CPR). Using the proposed model, expressions for joint time-frequency correlation functions (TFCFs) are derived which are used to investigate system behavior over different wide sense stationary uncorrelated scattering (WSSUS) channel realizations. The numerical results illustrate the sensitivities of the TFCF to simultaneous time and frequency offsets for the 2 × 2 DP-MIMO architectures.