t
                  T h e  l e e  C o m p r e h e n s i v e  M o d e  - 1  I n  e   g r a t i o n  o f  t h e  T h r e e  l e e  M o d e I s   395
               ways of modeling the medium are different. This section provides new material so that
               the reader can think of these problems differently.
                  In conclusion, the Lee comprehensive prediction model is a point-to-point model. It
               is based on wave propagation theory, statistical theory and empirical data. It is simple
               to use with a fair degree of accuracy. Since it composes the three Lee models from three
               different cell sizes, an overall predicted chart in a large system over a large area consist­
               ing of all the sizes of cells can be obtained. Of course, every prediction model from other
               authors has its merit and has been included in this book to give us plenty of leeway for
               a further improvement in prediction models in the future. Hopefully the propagation
               prediction models provided in this book can be used in designing the future 5G systems
               and beyond.
                  This book has referred to many different papers and books, which are listed in the
               reference list of each chapter. The authors would like to thank the contributions from
               these people.


          References
                1.  Fujimoto, K., and James, J. R., eds. "Mobile Antenna System Handbook." Artech House,
                   Inc. Norwood, MA 1994, Chap. 2, "Local- Mean Prediction Model - Lee's Model"
                   pp. 28-85.
                2.  Parsons, J. D. The Mobile Radio Propagation Channel. 2nd ed. New York: John Wiley
                   & Sons, 2000.
                3.  Saunders, S. Antennas and Propagation  o r Wireless Communication Systems. Wiley, &
                                                   f
                   Sons, 2000.
                4.  Stuber, Gordon L. Principles of   Mobile Communication. Boston: Kluwer Academic
                   Publishers,  1996.
                5.  Seybold, John S. Introduction to RF Propagation. New york: John Wiley & Sons,
                   2005.
                6.  IEEE VTS Committee on Radio Propagation. "Lee's Mobile." IEEE Transactions on
                   Vehicular T e chnology, February 1988, 68-70.
                7.  Lee, W. C. Y., and Lee, D. J. Y. "Microcell Prediction Enhancement for Terrain."
                   Personal, Indoor and Mobile Radio Communications, PIMRC '96, IEEE International
                   Symposium, vol. 2 (October 1996): 286-90.
                8.  Lee, D. J. Y., and Lee, W. C. Y. "Propagation Prediction in and through Buildings."
                   IEEE Transactions on Vehicular T e chnology, 49 (2000): 1529-33.
                9.  Lee, W. C. Y., and Lee, D. J. Y. "Pathloss Prediction from Microcell to Macrocell."
                   Proceedings of IEEE Vehicular Technology Conference, VTC-Spring, Tokyo, May
                   2000, 1988-92.
               10.  Lee, W. C. Y., and Lee, D. J. Y. "Microcell Prediction by Street and Terrain Data."
                   Proceedings of IEEE Vehicular Technology Conference, VTC-Spring, Tokyo, May
                   2000, 2167-71.
               11.  Lee, W. C. Y., and Lee, D. J. Y. "Microcell Prediction in Dense Urban Area." IEEE
                   Transactions on Vehicular T e chnology 47 (February 1998): 246-53.
               12.  Lee, W. C. Y., and Lee, D. J. Y. "Fine Tune Lee Model." Proceedings of IEEE Personal
                   Indoor Mobile Radio Conference, PIMRC, London, September 2000, 406-10.
               13.  Lee, W. C. Y., and Lee, D. J. Y. "Enhanced Lee Model from Rough Terrain Sampling
                   Data Aspect." Proceedings of IEEE Vehicular Technology Conference, VTC-Fall,
                   Ottawa, Sept.  2010.