A geometrical-based microcell mobile radio channel model
Wireless Networks
Spatial and temporal statistics for the geometrical-based hyperbolic macrocell channel model
Digital Signal Processing
Bounds on Inter-carrier Interference Power of OFDM in a Gaussian Scattering Channel
Wireless Personal Communications: An International Journal
Inter-carrier interference power of OFDM in a uniform scattering channel
Computer Communications
Prediction Models of an Indoor Smart Antenna System Using Artificial Neural Networks
Proceedings of the 2007 conference on Emerging Artificial Intelligence Applications in Computer Engineering: Real Word AI Systems with Applications in eHealth, HCI, Information Retrieval and Pervasive Technologies
Grid-search-based hybrid TOA/AOA location techniques for NLOS environments
IEEE Communications Letters
TOA and AOD statistics for down link Gaussian scatterer distribution model
IEEE Transactions on Wireless Communications
Performance of Gaussian and hyperbolic scattering channels in mobile OFDM systems
Digital Signal Processing
IEEE Transactions on Communications
A framework to calculate space-frequency correlation in multi-carrier systems
IEEE Transactions on Wireless Communications
Multi-Dimensional Bounds on Time-of-Arrival Statistics in Random Scattering Channels
Wireless Personal Communications: An International Journal
A blind equalization algorithm for biological signals transmission
Digital Signal Processing
Angle of Arrival Statistics for a 3-D Cylinder Model
Wireless Personal Communications: An International Journal
Analysis of fading statistics in cellular mobile communication systems
The Journal of Supercomputing
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Starting from a Gaussian distribution of scatterers around a mobile station, expressions are provided for the probability density function (PDF) in the angle of arrival, the power azimuth spectrum, the PDF in the time of arrival, and the time delay spectrum, all as seen from a base station. Expressions are also provided for some of the quantities of practical interest such as the root-mean-square (RMS) angular spread, the RMS delay spread, and the spatial cross-correlation function. Results for the Gaussian scatter density model are compared with those for the circular scattering model and the elliptical scattering model as well as with experimental results available for outdoor and indoor environments. Comparison is shown for the PDFs as well as for the power spectra in angle and delay. It is shown that the present model, in contrast to the previous models, produces results that closely agree with experimental results. With an appropriate choice of the standard deviation of the scattering region, the Gaussian density model can be made suitable both for environments with very small angular spreads as well as those with very large angular spreads. Consequently, the results provided in the paper are applicable to both macrocellular as well as picocellular environments