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13. Lee, W. . Y. Mobile Communications Design Fundamentals. 2nd ed. New York: John
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14. Grosskopf, Rainer, "Comparison of Different Methods for the Prediction of the
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35, no. 7 J uly 1987): 852-59.
15. Hata, M. "Empirical Formula for Propagation Loss in Land Mobile Radio Services."
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/
17. Ibrahim, M. F., and Parsons, J. D. "Signal Strength Prediction in Built-Up Areas,
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9
20. Delisle, G. Y., Lefevre, J. P., Lecours, M., and Chouin, J. Y. "Propagation Loss
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23. The Telecommunications Industry Association (TIA) recommends its publication
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Independent Methodology for the Modeling, Simulation and Empirical Verification
of Wireless Communications System Performance in Noise and Interference Limited
Systems Operating on Frequencies between 30 and 1500 MHz." TIA TR8 Working
Group, IEEE Vehicular Technology Society Propagation Committee, May 1997.
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1988): 1788-96.
25. Maciel, L. R., Bertoni, H. L., and Xia, H. H. "Unified Approach to Prediction of
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27. Ikegami, F., Yoshida, S., Tacheuchi, T., and Umehira, M. "Propagation Factors
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and Propagation 32, no. 8 (1984): 822-29.
1
28. COST 231 Final Report, Digital Mobile Radio: COST 23 . "View on the evolu
tion towards 3rd Generation Systems." Brussels: Commission of the European
Communities and COST Telecommunications, 1999.
