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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 397
33. Abdi, A., Lau, C. W., Alouini, M., and Kaveh, M. "A New Simple Model for Land
Mobile Satellite Channels: First- and Second-Order Statistics." IEEE Transactions
on Wireless Communications 2, no. 3 (2003): 519-28.
34. Mehmood, Asad, and Mohammed, Abbas, "Characterisation and Channel
Modelling for Satellite Communication Systems." In Satellite Communications, edited
by Nazzareno Diodato. Shanghai. In Tech, 2010, 133-51.
35. Loo, C. " A Statistical Model for a Land Mobile Satellite Links." IEEE Transactions on
Vehicular T e chnology 34, no. 3, (1985): 122-27.
36. Loo, C., and Butterworth, J. S. "Land Mobile Satellite Measurements and Modelling."
IEEE Proceding 86, no. 7, (1998): 1442-62.
37. Corraza, G. E., and Vatalaro, F. "A Statistical Channel Model for Land Mobile
Satellite Channels and, Its Application to Nongeostationary Orbit Systems." IEEE
Transactions on Vehicular T e chnology 43, no. 3 (1994): 738-42.
38. Suzuki, H. "A Statistical Model for Urban Radio Propagation." IEEE Transactions on
Communications 25, no. 7 (1977): 673-80.
39. Xie, Y., and Fang, Y. "A General Statistical Channel Model for Mobile Satellite
Systems." IEEE Transactions on Vehicular T e chnology 49, no. 3 (2000): 744-52.
40. Ming, H., Dongya, Y., Yanni, C., Jie, X., Dong, Y., Jie, C., and Anxian, L. "A New Five
State Markov Model for Land Mobile Satellite Channels." International Symposium
of Antennas, Propagation and EM Theory, 2008, 1512-15.
41. Karasawa, Y., Kimura, K., and Minamisono, K. "Analysis of Availability Improvement
in LMSS by Means of Satellite Diversity Based on Three-State Propagation Channel
Model." IEEE Transations on V e hicular T e chnology 46, no. 4 (1997): 1047-56.
.
42. M. Stojanovic. "Acoustic (Underwater) Communications " In Encyclopedia of
T e lecommunications, edited by John G. Proakis. New York: John Wiley & Sons, 2003.
43. Stojanovic, Milica. "Underwater Wireless Communications: Current Achievements
and Research Challenges." Oceans '95. MTS/IEEE. 'Challenges of Our Changing
Global Environment' Conference Proceedings, vol. 2 San Diego, CA, October 9-12,
1995, 1189-96.
44. Sozer, E. M., Stojanovic, M., and Proakis, J. G. "Underwater Acoustic Networks."
(
IEEE Journal of Oceanic Engineering 25, no. 1 J anuary 2000): 72-83.
45. Bello, P. A. "Aeronautical Channel Characterization." IEEE Transactions on
Communications 21, no. 5 (May 1973): 548-63.
46. Dedryvere, Arnaud, Roturier, Benoit, and Chateau, Beatrice. "A General Model
for VHF Aeronautical Multipath Propagation Channel." AMCP /WG-D/WP6,
Aeronautical Mobile Communications Panel (AMCP), Working Group D, Agenda
Item: 2, Honolulu, January 19-28, 1999.
47. Elnoubi, Said M. "A Simplified Stochastic Model for the Aeronautical Mobile Radio
channel." IEEE 42nd Vehicular Technology Conference, Denver, CO, May 10-13,
1992, 960-63.
48. Dyer, G., and Gilbert, T. Gaudette. "Channel Sounding Measurements in the VHF
/
A/G Radio Communications Channel." AMCP WG/D8, WP 1 9, Oberpfafenhoffen,
Germany, December 2-11, 1997.
49. Chateau, B. "VHF Propagation Channel, Modeling for Aeronautical Mobile
Communications." PhD Report (in French), Toulouse, October 1998.
50. Hoeher, P., and Haas, E. " Aeronautical Channel Modeling at VHF Band." DLR note,
July 22, 1998.

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