BER 1. 1. 10 2 1. 10 4 1. 10 6 1. 10 8 0 5 10 15 20 25 30 K in .NET

Generation qr barcode in .NET BER 1. 1. 10 2 1. 10 4 1. 10 6 1. 10 8 0 5 10 15 20 25 30 K
BER 1. 1. 10 2 1. 10 4 1. 10 6 1. 10 8 0 5 10 15 20 25 30 K
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FIGURE 12.18. BER as a function of K.
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e FIGURE 12.19. BER as a function of C.
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parameter is decreased, from 10 2 for K % 5 to 10 6 for K % 20 (corresponding to communication channels with high BS antenna and quasi-LOS for any user located in the area of service). At the same time, as expected, the spectral ef ciency is also increased (see Fig. 12.19). Hence, with the increase of the spectral ef ciency of the data stream a simultaneous sharp decrease of BER is also observed.
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[1] Syski, R., Introduction to Congestion Theory in Telephone Systems, 2nd edition, New York, 1986. [2] Nelson R., Stochastic Processes and Queuing Theory, Springer-Verlag, 1994. [3] Alanyali, M., and B. Hajek, On simple algorithm for dynamic load balancing, Proc. IEEE INFOCOM, vol. 1, 1995, pp. 230 238. [4] Yuan, W. et al., Loading balancing in wireless networks, Proc. GLOBECOM, 1997, pp. 1616 1620. [5] Papavassiliou, S., and L. Tassiulas, Joint optimal channel base station and power assignment for wireless access, IEEE Trans. Network., vol. 4, 1996, pp. 857 872. [6] Freedman, A., A. Gil, and R. Giladi An impact of unbalanced availability on GOS of wireless systems, Wireless Personal Communications, vol. 20, 2002, pp. 21 40. [7] Blaunstein N., A. Freedman, R. Giladi, and M. Levin, Uni ed approach of GOS optimization for xed wireless access, IEEE Trans. on Veh. Technolog., vol. 51, 2002, pp. 101 110. [8] Blaunstein N., and R. Hassanov, Grade of service design in wireless systems operating in multipath fading environments, J. Business Brie ng: Wireless Technology 2004, 2004, pp. 121 124. [9] Lee, W. Y. C., Mobile Communication Engineering, New York, McGraw Hill, 1985. [10] Jakes, W. C., Microwave Mobile Communications, J. Wiley & Sons, New York, 1974.
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[11] 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. [12] Steele, R., Mobile Radio Communication, IEEE Press, New York, 1995. [13] Saunders, S.R., Antennas and Propagation for Wireless Communication Systems, John Wiley & Sons, New York, 1999. [14] Rappaport, T. S., Wireless Communications, Prentice Hall PTR, New York, 1996. [15] Faruque, S., Cellular Mobile Systems Engineering, Artech House, Boston-London, 1994. [16] Feuerstein, M. L., and T. S. Rappaport, Wireless Personal Communication, Artech House, Boston-London, 1992. [17] Lee, W. Y. C., Mobile Cellular Telecommunications Systems, McGraw Hill Publications, New York, 1989. [18] Linnartz, J. P., Narrowband Land-Mobile Radio Networks, Artech House, BostonLondon, 1993. [19] Mehrotra, A., Cellular Radio Performance Engineering, Artech House, Boston-London, 1994. [20] Blaunstein, N., and M. Levin, Propagation loss prediction in the urban environment with rectangular grid-plan streets, Radio Sci., vol. 32, no. 2, 1997, pp. 453 467. [21] Blaunstein, N., Average eld attenuation in the non-regular impedance street waveguide, IEEE Trans. Anten. and Propagat., vol. 46, no. 12, 1998, pp. 1782 1789. [22] Blaunstein, N., Prediction of cellular characteristics for various urban environments, IEEE Anten. Propagat. Magazine, vol. 41, no. 6, 1999, pp. 135 145. [23] Xia, H. H., and H. L. Bertoni, Diffraction of cylindrical and plane waves by an array of absorbing half screens, IEEE Trans. Antennas and Propagation, vol. 40, 1992, pp. 170 177. [24] Bertoni, H. L., W. Honcharenko, L.R. Maciel, and H.H. Xia, UHF propagation prediction for wireless personal communications, Proc. IEEE, vol. 82, no. 9, Sept. 1994, pp. 1333 1359. [25] Rustako, A. J., Jr., N. Amitay, M.J. Owens, et al., Radio propagation at microwave frequencies for line-of-sight microcellular mobile and personal communications, IEEE Trans. Veh. Technol., vol. 40, no. 2, Feb. 1991, pp. 203 210. [26] Tan, S.Y., and H. S. Tan, UTD propagation model in an urban street scene for microcellular communications, IEEE Trans. Electromag. Compat., vol. 35, no. 4, Nov. 1993, pp. 423 428. [27] Gamst, A., and E. G. Zinn, Cellular radio network planning, IEEE Aerosp. Electron. Syst. Magazine, vol. 1, no. 1, 1985-1986, pp. 8 11. [28] Akl, R. G., M.V. Hegde, M. Naraghi-Pour, and P. S. Min, Cell placement in CDMA network, in Proc. of the IEEE Wireless Communic. and Networking Conf., vol. 2, 1999, pp. 903 907. [29] Eisenblatter, A., A. Fugenschuh, T. Koch, et al., Modeling feasible network con gurations for UMTB, ZIB, Berlin, Tech. Rep. March 2002, pp. 02 16. [30] Hurley, S., Planning effective cellular mobile radio networks, IEEE Trans. Veh. Technol., vol. 51, No.2, 2002, pp. 48 56. [31] Santiago, R. Ch., and V. Lyandres, A sequential algorithm for optimal base station location in a mobile radio network, in Proc. of 2004 IEEE 15th Int. Symp. on Personal, Indoor and Mobile Radio Communic., Barcelona, Spain, Sept. 2004, pp. 5 8.
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