Page 360 - Integrated Wireless Propagation Models
P. 360

338    C h a p t e r   F i v e


               27.  Janssen, G. J. M. "Short Range Propagation Measurement at 2.4, 4.5, 11.5 GHz
                                        .
                   in  Indoor  Environment "   TNO  Physics  and  Electronics  Laboratory,  Report
                   FEL-92-B154, 2509 JG, The Hague, The Netherlands, May 1992.
               28.  Lee, W. C. Y. Mobile Communications Design Fundamentals. 2nd ed. New York: John
                   Wiley & Sons, 1993.
               29.  Nagy, L. "FDTD Field Strength Prediction for Mobile Microcells." ICECom 2005,
                   Dubrovnik, October 2005, 1-3.
               30.  Seidel, S. Y., and Rappaport, T. S. "Site-Specific Propagation Prediction for Wireless
                   In-building Personal Communication System Design." IEEE Transactions on Vehicular
                   T e chnology 43, no. 4 (November 1994): 879-91.
               3 1 .   Bertoni, H. L., and Walfisch, J. "Theoretical Model of UHF Propagation in Urban
                   Environments." IEEE Transactions on Antennas and Propagation 36 (December 1988):
                   1 7 88-96.
               32.  Parsons, D. The Mobile Radio Propagation Channel. New York: John Wiley & Sons,
                   1992.
               33.  Saunders, Simon R., and Aragon-Zavala, Alejandro. Antenna and Propagation f o r
                   Wireless Communication Systems. 2nd ed. New York: John Wiley & Sons, 2007.
               34.  Bertoni, Henry L. Radio Propagation  o r Modern Wireless Systems. Englewood Cliffs,
                                                 f
                   NJ: Prentice Hall, 2000.
               35.  de Toledo, A. F., and Turkmani, M. D. "Propagation into and within Buildings at 900,
                   1800, and 2300 MHz." IEEE 42nd Vehicular Technology Conference Proceedings,
                   vol. 2, 633-6.
               36.  deToledo, A. F., Turkmani, A. M. D., and Parsons, J. D. "Estimating Coverage of
                   Radio  Transmission into and within Buildings at 900, 1800 and 2300 MHz." IEEE
                   Personal Communication, 5 no. 2 (1998): 40-7.
               37.  Eswarappa, Channabasappa, and Hoefer, Wolfgang J. R., "Bridging the Gap between
                   TLM and FDTD. "IEEE Microwave and Guided Wave Letters 6, no. 1 (January 1996):
                   4-6.
               38.  Fugen,  Thomas,  Maurer,  Jurgen,  Kayser,  Thorsten,  and  Wiesbeck,  Werner.
                   "Capability of 3-D Ray Tracing for Defining Parameter Sets for the Specification
                   of Future Mobile Communications Systems." IEEE Transactions on Antennas and
                   Propagation 54 no. 11 (November 2006): 3125-37.
               39.  Catedra, M. F.,  Perez,  J., deAdana, F.S., and  Guutierrez,  0.  "Efficient Ray­
                   Tracing Techniques for Three-Dimentional Analyses of Propagation in Mobile
                   Communication: Application to Picocell and Microcell Scenarios." IEEE Antennas
                   and Propagation Magazine 14 (April 1998): 15-28.
               40.  Kostanic,  1.,  Guerra,  1., Faour, N., Zec, J., and Susani, M.  "Optimization and
                   Application of W.  C.  Y.  Lee  Microcell Model in 850 MHz  Frequency Band "
                                                                                      .
                              o
                   Proceedings  f  Wireless Networking Symposium, Austin, TX, October 22-24, 2003.
               41.  Borjeson, H., and de Backer, B. "Angular Dependency of Line-of-Sight Building
                                       1
                   Transmission Loss  at  . 8 GHz." In Proceedings  of   the IEEE Ninth  International
                   Symposium PIMRC (PIMRC'98), Boston, 1998, 466-70.
               42.  Lee, W. C. Y., and Lee, D. J. Y. "Pathloss Predictions from Microcell to Macrocell."
                   IEEE VTC, Tokyo, Spring, 2000, 1988-92.
               43.  Akerberg,  D .   "European  Advances  in  Cordless  Telephony."  National
                   Communications Forum '88, (NCF 88), Chicago 1988.
               44.  Akerberg, D. "Properties of a TDMA Pico Cellular Office Communication System."
                   IEEE GLOBECOM '88, Hollywood, FL, December 1, 1988, 1343-9.
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