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[54] Algans, A., K. I. Pedersen, and P. E. Mogensen, Experimental analysis of the joint statistical properties of azimuth spread, delay spread, and shadow fading, IEEE J. Select. Areas Communic., vol. 20, no. 3, 2002, pp. 523 531. [55] Ponomarev, G. A., A. N. Kulikov, and E. D. Telpukhovsky, Propogation of Ultra Short Waves in Urban Environments, Tomsk, Rasko, USSR, 1991. [56] Blaunstein, N., Distribution of angle of arrival and delay from array of building placed on rough terrain for various elevation of base station antenna, Journal of Communic. and Networks, vol. 2, no. 4, 2000, pp. 305 316. [57] Blaunstein, N., Wireless Communication Systems, Ch. 12 in Handbook of Engineering Electromagnetics, Ed. R. Bansal, New Jersey: Marcel Dekker, 2004. [58] Blaunstein, N., Prediction of cellular characteristics for various urban environments, IEEE Antennas and Propogat. Magazine, vol. 41, no. 6, 2000, pp. 135 145. [59] Blaunstein, N., D. Katz, D. Censor, et al., Prediction of loss characteristics in built-up areas with various buildings overlay pro les, IEEE Anten. Propagat. Magazine, vol. 43, no. 6, 2001, pp. 181 191. [60] Blaunstein, N., and Y. Ben-Shimol, Frequency dependence of path loss characteristics and link budget design for various terrestrial communication links, IEEE Trans. on Antennas and Propagat., vol. 52, no. 10, 2004, pp. 2719 2729. [61] Blaunstein, N. and Y. Ben-Shimol, Spectral properties of signal fading and Doppler spectra distribution in urban communication mobile links, Wireless Communic. and Mobile Computing, vol. 6, no. 1, 2006. [62] Blaunstein, N., and E. Tsalolihin, Signal distribution in the azimuth, elevation and time delay domains in urban radio communication links, IEEE Antennas and Propagation Magazine, vol. 46, no. 5, 2004, pp. 101 109. [63] Blaunstein, N., M. Toeltsch, C. Christodoulou, et al., Azimuth, elevation and time delay distribution in urban wireless communication channels, Antennas and Propagat, Magazine, vol. 48, no. 2, 2006, pp. 160 167. [64] Abdi, A., J. Barger, and M. Kaveh, A parametric model for distribution of the angle of arrival and the associated cor. fun. and power spectrum at the MS, IEEE Trans. Veh. Technol., vol. 51, no. 3, 2002, pp. 425 434. [65] Jenison, R., and K. Fissell, A comparison of the von Mises and Gaussian basis function for approximating spherical acoustic scatter, IEEE Trans. Neural Networks, vol. 6, no. 5, 1995, pp. 1284 1287. [66] Bertoni, H., Radio Propagation for Modern Wireless Systems, Prentice Hall, New Jersey, 2000. [67] Kloch, C., G. Liang, J. B. Andersen, et al., Comparison of measured and predicted time dispersion and direction of arrival for multipath in a small cell environment, IEEE Trans. Antennas Propagat, vol. 49, no. 9, 2001, pp. 867 876. [68] Pedersen, K. I., P. Mogensen, and B. H. Fleury, A stochastic model of the temporal and azimuthal dispersion seen at the base station in outdoor propagation environments, IEEE Trans. Antennas Propagat., vol. 49, 2000, pp. 437 447. [69] Pedersen, K. I., P. Mogensen, and B. H. Fleury, Experimental analysis of the joint statistical properties of azimuth spread, delay spread, and shadow fading, IEEE J. Select. Areas Communic., vol. 20, no. 3, 2002, pp. 523 531.
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