1. Wolfle G. and Landstorfer F. M. Dominant Paths for the Field Strength Prediction. // International Symposium on Personal, Indoor, and Mobile Radio Communications (PHMRC), Sept., 1994.- PP. 486-490.
2. Carciofi C, Cortina A., Passerini C, and Salvietti S. Fast Field Prediction Techniques for Indoor Communication Systems.// 2nd European Personal and Mobile Communications Conference (EPMCC), Bonn, November, 1997.- PP. 37 – 42.
3. Degli E. V., Carciofi C, FruUone M., and Riva G., "Sensitivity of Ray-Tracing Indoor Field Strength Prediction to Environment Modelling," in European Cooperation in the Field of Scientific and Technical Research (COST), COST 259 TD(97)049, (Lisbon), Sept. 1997.
4. Landron O., Feuerstein M. J. and Rappaport T. S. A Comparison of Theoretical and Empirical Reflection Coefficients for Typical Exterior Wall Surfaces in a Mobile Radio Environment.// IEEE Transactions on Antennas and Propagation, vol. 44, Mar., 1996.- PP. 341-351.
5. Gibson T. B. and Jenn D. C. Prediction and Measurement of Wall Insertion Loss.// IEEE Transactions on Antennas and Propagation, vol. 47, , Jan. 1999.- PP. 55-57.
6.  Danielle P., Degli E. V., Falciasecca G. J. R. G., Fru Uone M. Evaluation of the Reliability of a Ray Tracing Microcellular Field Prediction Model // Progress in Electromagnetics Research Symposium (PIERS), (Innsbruck, Austria), July 1996.- P.513.
7. Qiang G. Status of 802.20 channel models, IEE 802.20 WG session #6, Jaunary 12-15, 2004.
8. John C. S. Indoor radio WLAN performance Part II: Range Performance in a dense office environment, May - 2000.
9. Lahteenmaki J. Indoor Propagation Models // COST Action 231: Digital mobile radio towards future generation systems: Final report. 1999. P.175-179.
10. Saunders S.R. Antennas and propagation for wireless communication systems. England: John Wiley & Sons Ltd, 2007.
11. Motley A., Keenan J. Indoor Propagation Models // COST Action 231: Digital mobile radio towards future generation systems: Final report. 1999. PR. 175-179.
12. Willam C.Y. Lee. Mobile Cellular Telecommunications. Analog and Digital Systems, Second Edition. - International Editions, 1995.
13. Ponomarev G.A., Kulikov A.H., Telpuxovskiy E. D. Rasprostranenie UKV v gorode. - Tomsk: MP «Rasko», 1991.
14. Svyaz s podvijnыmi ob‘ektami v diapazone SVCH / Pod red. U.K. Djeyksa. -M.: Svyaz, 1979.
15. Wolfle G., Landstorfer F. M., Gahleitner R., and Bonek E. Extensions to the Field Strength Prediction Technique based on Dominant Paths between Transmitter and Receiver in Indoor Wireless Communications // 2nd European Personal and Mobile Communications Conference (EPMCC), (Bonn), Nov., 1997.- PP. 29 - 36.
16. Patwari N., Wang Y., and O‘Dea R. J., ―The importance of the multipoint-to-multipoint indoor radio channel in ad hoc networks,‖ in IEEE Wireless Commun. Networking Conf., Mar. 2002, PP. 608–612.
17. Heddergott R., Bernhard U. P., Fleury B. H. Stochastic radio channel model for advanced indoor mobile communication systems.// Proc. IEEE 8th Int. Symp. on Personal, Indoor and Mobile Radio Communications, vol.1,Sep., 1997, PP. 140–144.
18. Saleh AAM, Valenzuela RA., ―A statistical model for indoor multipath propagation,‖ IEEE Journal on Selected Areas in Communication , Vol. 5, 1987.- PP.128–137.
19. Ho-Shin Cho, Jae Kyun Kwon, and Dan Keun Sung, "High Reuse Efficiency of Radio Resources in Urban Cellular Systems," IEEE Trans. on VT, Vol. 49, No. 5, , Sep., 2000.- PP. 1669-1677.
20. R. Heddergott, U. P. Bernhard, and B. Fleury, ``Stochastic radio channel model for advanced indoor mobile communication systems// Proc. of the 8th IEEE Int. Symp. on'97), (Helsinki, Finland), Sept. 1997.
21. Steven J. H. and Kaveh P. Autoregressive Modeling of Wide-Band Indoor Radio Propagation, IEEE Transaction on Communications, vol 40, No.9, September, 1992.
22. Homayon H. Impulse Response Modeling of Indoor Radio Propagation Channels, IEEE Journal of Selected Areas in Communications, vol. 11, No.7, September, 1993.
23. Hirofumi S. A Statistical Model for Urban Radio Propagation, IEEE Transactions on Communications, vol. com-25, No. 7, July, 1977.
24. Laura D., Guido T. and Fiorenzo T. Statistical Analysis of Measured Impulse Response Functions of 2.0 GHz Indoor Radio Channels, IEEE Journal on Selected Areas in Communications, vol. 14, No. 3, April, 1996.
25. Adel A. M. S. and Reinaldo A. V. A statistical Model for Indoor Multipath Propagation, IEEE Journal on Selected Areas in Communications, vol. sac-5, No.2, February, 1987.
26. Robert J.C. V. and Keith G. B. Propagation Characteristics on Microcellular Urban Mobile Radio Channels at 910 MHz, IEEE Journal on Selected Areas in Communications, vol.7, No.1, January, 1989.
27. Carciofi G, Cortina A., Passerini C, and Salvietti S., Fast Field Prediction Techniques for Indoor Communication Systems.// 2nd European Personal and Mobile Communications Conference (EPMCC), (Bonn), Nov. 1997.- PP.37-42,
28. SeidelSi Y. and Rappaport T. S. A Ray Tracing Technique to Predict Path boss and Delay Spread Inside Buildings.//Proc. IEEE GlobeCom,1992.- PP.649-653.
29. Pahlavan K.,.et all, Wideband radio propagation modeling for indoor geolocation applications.// IEEE Communications Magazine, April, 1998.- PP.60-65.
30. Patwari N., et all. The Importance of the Multipoint-to-MuItipoint Indoor Radio Channel in Ad Hoc Networks.//Proc. IEEE WCNC 2002.
31. Hills A., et all. Estimating Signal Strengths in the Design of an Indoor Wireless Network. //IEEE Trans. Wireless Comm. vol. 3, January 2004.- PP.17-19.
32. Kivinen Jt., et all. Empirical Characterization of Wideband Indoor Radio Channel at 5.3 GHz. //IEEE Trans. Ant. and Prop., vol. 49, August , 2001.-PP.1192-1203.
33. Zhang Z.,Yun Z. and Iskander M.F. Ray Tracing Method for Propagation. Models in Wireless Communication Systems. //Electron. Lett., vol.36, No.5, Mar. 2000.- PP.464-465.
34. Hassan-Ali M. and Pahlavan K. A New Statistical Model for Site-specific Indoor Radio Propagation Prediction Based on Geometric Optics and Geometric Probability.-//IEEE Transactions on Wireless Communications, vol.1, Jan., 2002.-PP.112-124.
35. Wolfle G. Propagation Models for Indoor Radio Network Planning including Tunnels.//AP2000, Davos, Switzerland, April, 2000.
36. MotleyA.J.and KeenanJ.M. Radio Coverage in Buildings.//Bell System Technical Journal (BSTJ), vol.8, Jan.,1990.-PP.19-24.
37. Aung M.E., CHjo N. L., Kondratov A.V., Lujnov M.S. Geometricheskaya model rasprostraneniya radiovoln v pomeщeniyax G-obraznoy konfiguratsii.// Vserossiyskaya mejvuzovskaya nauchno-texnicheskaya konferensiya ctudentov i aspirantov «Mikroelektronika i informatika». Tezisы dokladov. M.:MIET, 2008.- S.223.
38. John S. T., Perter M. G., and Eernard M. Smart Antenna Arrays for CDMA systems, IEEE Communications Magazine, Vol. 22, No. 8, April, 1998.
39. Robert J.C. V.. Measurement Characterization and Modeling of Indoor 800/900MHz Radio Channels for Digital Communications, IEEE Communications Magazine, Vol. 25, No. 6, June, 1987.
40. Aung Mint Ey, Pronin A.A. i Kondratov A.V. Eksperimentalnoe issledovanie zatuxaniya radiovoln vnutri pomeщeniy na chastote 433 MGs.// Izvestiya VUZov, Elektronika, №5, 2007. – C.86-88.
41. Rekomendatsiya MSE-R P.1238-7 Dannыe o rasprostranenii radiovolni i metod prognozirovaniya dlya planirovaniya sistem radiosvyazi vnutri pomeщeniy i lokalnix zonovыx radiosetey v chastotnom diapazone 900 MGs –100 GGs.