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4.8: References

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    [1] S. Ramo, J. Whinnery, and T. Van Duzer, Fields and Waves in Communication Electronics. John Wiley & Sons, 1965.

    [2] C. A. Balanis, “Antenna theory: A review,” Proc. IEEE, vol. 80, no. 1, pp. 7–23, 1992.

    [3] C. Balanis, Antenna Theory: Analysis and Design. John Wiley & Sons, 2005.

    [4] T. L. Wilson, K. Rohlfs, and S. H ¨uttemeister, Tools of radio astronomy, 6th ed. Springer, 2013.

    [5] J. L. Pawsey and R. N. Bracewell, “Radio astronomy,” Oxford, Clarendon Press, 1955.

    [6] J. Doble, Introduction to Radio Propagation for Fixed and Mobile Communications. Norwood, MA, USA: Artech House, Inc., 1996.

    [7] M. Born and E. Wolf, “Two-dimensional diffraction of a plane wave by a half-plane,,” in Principles of Optics: Electromagnetic Theory of Propagation, Interference, and Diffraction of Light, 7th ed. Cambridge University Press, 1999, section 11.5.

    [8] A. Abdi, C. Tepedelenlioglu, M. Kaveh, and G. Giannakis, “On the estimation of the k parameter for the rice fading distribution,” IEEE Communications Letters, vol. 5, no. 3, pp. 92–94, Mar. 2001.

    [9] A. Saleh and R. Valenzuela, “A statistical model for indoor multipath propagation,” IEEE J. on Selected Areas in Communications, vol. 5, no. 2, pp. 128–137, Feb. 1987.

    [10] D. Devasirvatham, “Time delay spread measurements of wideband radio signals within a building,” Electronics Letters, vol. 20, no. 23, pp. 950–951, 8 1984.

    [11] A. Acampora and J. Winters, “System applications for wireless indoor communications,” IEEE Communications Magazine, vol. 25, no. 8, pp. 11–20, Aug. 1987.

    [12] A. Siamarou and M. Al-Nuaimi, “Multipath delay spread and signal level measurements for indoor wireless radio channels at 62.4 ghz,” in 2001 IEEE VTS 53rd Vehicular Technology Conf., 2001, pp. 454–458.

    [13] R. Gibson and R. Murray, “Systems organization for multichannel cordless telephones,” in Int. Zurich Seminar on Digital Communicatio, 1982, pp. 59–61.

    [14] J. Andersen, T. Rappaport, and S. Yoshida, “Propagation measurements and models for wireless communications channels,” IEEE Communications Magazine, vol. 33, no. 1, pp. 42–49, Jan. 1995.

    [15] T. Sarkar, Z. Ji, K. Kim, A. Medouri, and M. Salazar-Palma, “A survey of various propagation models for mobile communication,” IEEE Antennas and Propagation Magazine, vol. 45, no. 3, pp. 51–82, Jun. 2003.

    [16] M. Murotani and K. Kohriyama, “Representation by approximate numerical formulas of radio-relay antenna beam bending due to atmospheric refraction,” IEICE Trans., vol. E72- E, no. 2, pp. 101–103, Feb. 1989.

    [17] J. Seybold, Introduction to RF Propagation. John Wiley & Sons, 2005.

    [18] P. Papazian, “Basic transmission loss and delay spread measurements for frequencies between 430 and 5750 mhz,” IEEE transactions on antennas and propagation, vol. 53, no. 2, pp. 694–701, 2005.

    [19] J. Van Rees, “Measurements of the wideband radio channel characteristics for rural, residential, and suburban areas,” IEEE Transactions on Vehicular Technology, vol. 36, no. 1, pp. 2–6, 1987.

    [20] J. A. Wepman, J. R. Hoffman, and L. H. Loew, “Characterization of macrocellular pcs propagation channels in the 1850-1990 MHz band,” in Proceedings of 1994 3rd IEEE International Conference on Universal Personal Communications, 1994, pp. 165–170.

    [21] E. S. Sousa, V. M. Jovanovic, and C. Daigneault, “Delay spread measurements for the digital cellular channel in toronto,” IEEE Transactions on Vehicular Technology, vol. 43, no. 4, pp. 837–847, 1994.

    [22] D. Devasirvatham, “Radio propagation studies in a small city for universal portable communications,” in 38th IEEE Vehicular Technology Conference, 1988, pp. 100–104.

    [23] D. Cox and R. Leck, “Distributions of multipath delay spread and average excess delay for 910-MHz urban mobile radio paths,” IEEE Transactions on Antennas and Propagation, vol. 23, no. 2, pp. 206–213, 1975.

    [24] T. S. Rappaport, S. Y. Seidel, and R. Singh, “900-MHz multipath propagation measurements for us digital cellular radiotelephone,” IEEE Transactions on Vehicular Technology, vol. 39, no. 2, pp. 132–139, 1990.

    [25] J.-P. De Weck, P. Merki, and R. W. Lorenz, “Power delay profiles measured in mountainous terrain (radiowave propagation),” in 38th IEEE Vehicular Technology Conference, 1988, pp. 105–112.

    [26] T. Tanaka, S. Kozono, and A. Akeyama, “Urban multipath propagation delay characteristics in mobile communications,” Electronics and Communications in Japan (Part I: Communications), vol. 74, no. 8, pp. 80–88, 1991.

    [27] Y. Azar, G. N. Wong, K. Wang, R. Mayzus, J. K. Schulz, H. Zhao, F. Gutierrez Jr, D. Hwang, and T. S. Rappaport, “28 GHz propagation measurements for outdoor cellular communications using steerable beam antennas in new york city.” in ICC, 2013, pp. 5143–5147.

    [28] T. S. Rappaport, Y. Qiao, J. I. Tamir, J. N. Murdock, and E. Ben-Dor, “Cellular broadband millimeter wave propagation and angle of arrival for adaptive beam steering systems,” in 2012 IEEE Radio and Wireless Symposium. IEEE, 2012, pp. 151–154.

    [29] Phased array radiation pattern, Phased array radiation pattern.gif, By Maxter315 [CC BY-SA 4.0 (], from Wikimedia Commons.

    This page titled 4.8: References is shared under a CC BY-NC license and was authored, remixed, and/or curated by Michael Steer.

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