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I n r o d u c t i o n t o M o d e I i n g M o b i I e S i g n a I s i n W i r e I e s s C o m m u n i c a t i o n s 47

12. Kostanic, Ivica, Rudie, Nikola, and Austin, Mark. "Measurement Sampling Criteria for
Optimization of the Lee's Macroscopic Propagation Model." 48th IEEE International
Conference on V e hicular Technology, VTC 98. V o l. 18-21, May 1998, 620-24.
13. Kostanic, I., Guerra, I., Faour, N., Zec, J., and Susani, M. "Optimization and
Application of W. C. Y. Lee Microcell Model in 850 MHz Frequency Ban . "
d
Proceedings of Wireless Networking Symposium, Austin, TX, October 22-24,
2003.
14. de la Vega, David, Lopez, Susanna, Gil, Unai, Matias, Jose M., Guerra, David,
Angueira, Pablo, and Ordiales, Juan L. "Evaluation of the Lee Method for the
Analysis of Long-Term and Short-Term Variations in the Digital Broadcasting
Services in the MW Band." 2008 IEEE International Symposium on Broadband
Multimedia Systems and Broadcasting, March 31, 2008-April 2, 2008, pp. 1-8.
15. Matias, Jose Maria, Pena, Ivan, de la Vega, David, Fernandez, Igor, Lopez, Susana,
and Angueira, Pablo. "Location Correction Factor for Coverage Planning Tools for
DRM (Digital Radio Mondiale) in the 26 MHz Band." IEEE International Symposium
on Broad Band Multimedia Systems and Broadcasting, May 13-15, 2009, pp. 1-5.
16. Lee, W. C. Y. "Elements of Cellalar Mobile Radio Systems." IEEE Transactions on
V e hicular T e chnology 35 (May 1986): 48-56.
17. Lee, W. C. Y. Mobile Communications Design Fundamentals, Ibid, Chap. .
1
1 8 . Lee, W. C. Y. and Yeh, Y. S. "On the Estimation f the Second-Order-Statistics
o
of Long-Normal Fading in Mobile Radio Environment." IEEE Transactions on
Communications 22 (June 1974): 869-73.
19. Lee, W. C. Y. "Estimate of Local Average Power of a Mobile Radio Signal." IEEE
Transactions on Vehicular T e chnology 34 (February 1985): 22-27.
20. Chuang, J. "The Effects of Time Delay Spread on Portable Communications Channels
with Digital Modulation." IEEE Journal on Selected Areas in Communications 5, no. 5
(June 1987): 879-89.
21. Fung, V., Rappaport, T. S., and Thomas, B. "Bit Error Simulation for % DQPSK
Mobile Radio Communication Using Two-Way and Measurement-Based Impulse
Resonse Models." IEEE Transactions on Vehicular T e chnology 21 (February 1972): 27-38.
22. Rappaport, Theodore S. Wireless Communications. Englewood Cliffs NJ: Prentice
Hall, 1996.
23. Lee, W. C .Y., Mobile Communications Engineering, Ibid, p. 256.
24. Lee, W. C. Y., Wireless and Cellular T e lecommunications, Ibid, Chap. 2.
25. Lee, W. C. Y., Mobile Communications Design Fundamentals, Ibid, Chapter 10.
26. Lee, W. C. Y., "Smaller Cells for Greater Performance." IEEE Communications
Magazine (1991): 19-23.
27. The six patents of Lee's microcell system:
1. U.S. Patent Office No. 4,932,049, 6/5/1990, "Cellular Telephone System"
2. U.S. Patent Office No. 5,067,147, 11/ 1 9 / 1991, "Microcell System for Cellular
Telephone System"
3
3. U.S. Patent Office No. 5,193,109, / 9 / 1993, "Zoned Microcell with Sector
Scanning for Cellular Telephone System"
9
4. U.S. Patent Office No. 5,243,598, / 7 /1993, "Microcell System in Digital Cellular"
4
5. U.S. Patent Office No. 5,504,936, / 2 / 1 9 96, "Microcells for Digital Cellular
Telephone Systems"
6. U.S. Patent Office No. 5,678,186, 0 / 1 4/1997, "Digital Microcells for Cellular
1
Networks"

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