1
Hebrew University
Givat Ram Campus
Autumn Semester-2010
Modern Radio Communications
Course # 67732
List of References
Professor I. Kalet
13 September 2010
2
Important Articles
(Including many survey articles)
History of Communications
1.
C. Bissell, “Vladimir Aleksandrovich Kotelnikov: Pioneer of the sampling
theorem, cryptography, optimal detection, planetary mapping…”, IEEE
Communications Magazine. October 2009, Volume 47, Issue 10, pp. 24-32.
2.
S. B Weinstein, “ The history of orthogonal frequency-division multiplexing”,
IEEE Communications Magazine. November 2009, Volume 47, Issue 11, pp. 26-35.
3.
L. Kleinrock, “ An early history of the Internet” –IEEE Communications
Magazine, August 2010, Volume 48, Issue 8, pp. 26-36.
4.
M. Schwartz, “ Armstrong’s invention of noise suppressing FM”, IEEE
Communications Magazine. April 2009, Volume 47, Issue 4, pp. 20-23.
Analog Communications
Edwin Armstrong, “A method of reducing disturbances in radio signaling by a system
of frequency modulation”, New York Section of IRE, November 6, 1935.
M. Schwartz, “ Armstrong’s invention of noise suppressing FM” –IEEE
Communications Magazine. April 2009, Volume 47, Issue 4, pp. 20-23.
Fading Channels
5. J. Proakis, “Digital Communications,” Fourth Edition, McGraw-Hill, New York,
2001, Chapter XIV.
6. J. G. Proakis and M. Saheli , “Digital Communications,” Fifth Edition, McGrawHill, New York, 2008, Chapters XIII, XIV and XV.
7. M. Schwartz, W.R. Bennett and S. Stein," Communications Systems and
Techniques", New York, McGraw-Hill, 1966. (Reissued IEEE Press, 1997),
Chapter IX-XI
8. B. Sklar, “Rayleigh fading channels in mobile digital communication systems –
Part I: Characterization, and Part II: Mitigation”, IEEE Comm. Magazine,
September 1997, pp. 136-146.
3
MIMO and BLAST
9. G.J. Foschini, “Layered space-time architecture for wireless communication in a
fading environment when using multiple antennas”, Bell Labs Technical Journal,
Vol. 1, No. 2, Autumn 1996, pp. 41-59.
10. G.J. Foschini and M.J. Gans, “On limits of wireless communications in a fading
environment when using multiple antennas”, Wireless Personal Communications,
Vol. 6, No. 3, 1998, pp. 311-335.
11. G. D. Golden, G. J. Foschini, R. A. Valenzuela and P. W. Wolniansky, “Detection
algorithm and initial laboratory results using V-Blast space-time communications
architecture,” Electronic Letters, November 1998.
12. A. Lorenzo, F. R. Farrokhi and R. A. Valenzuela, “Lifting the limits on high-speed
data access using antenna arrays”, IEEE Communications Magazine, Vol. 39,
No.9, September 2001, pp. 156-162.
13. E. Telatar, “Capacity of multi-antenna gaussian channels”, European
Transactions on Comm., Vol. 10, No. 6, November-December 1999.
14. S. Verdú, “Multiuser Detection”, Adv. Statis. Signal Processing, Vol. 2, 1993, pp.
369-409.
15. L. Zheng and D. N. C. Tse, “Diversity and multiplexing: A fundamental tradeoff
in multiple-antenna channels”, IEEE Transactions on Information Theory, Vol.
49, No. 5, May 2003, pp.1073-1096.
16. A. J. Paulraj, D. A. Gore, R. U. Nabar and H. Bolcskei, “An overview of MIMOcommunications-A key to gigabit wireless”, Proceedings of the IEEE, Vol. 92,
No.2, February 2004, pp. 198-218.
17. M. Sellathurai and S. Haykin, “Space-Time Layered Information Processing for
Wireless Communications”,John Wiley-IEEE Press, April 2009. (Book)
18. B. Vucetic and J. Yuan, “Space-Time Coding”, J.Wiley and Sons, England, 2003.
(Book)
Minimum Shift Keying
19. S. Pasupathy, “Minimum Shift Keying: A spectrally efficient modulation”, IEEE
Comm. Mag., July 1979, pp. 14-22.
20. S. A. Gronemeyer and A.L. McBride, “MSK and Offset QPSK modulation”, IEEE
Transactions on Communications, Vol. COM-24, No. 8, August 1976, pp. 809-819.
4
Information Theory
21. C. Shannon, “A mathematical theory of communication,’’ Bell System Telephone
Journal, Vol. 27, July and October 1948, pt. I, pp. 379-423; pt. II, pp. 623-656.
22. C. E. Shannon, “Communications in the presence of noise”, Proceedings of the
IRE, Vol. 37, No. 1, January 1949, pp. 10-21.
23. D. C. Cox, “Fundamental limitations on increasing data rate in wireless systems”,
IEEE Communications Magazine, Volume 46, Number 12, December 2008, pp.
16-17
Multitone Modulation, DMT and ADSL
24. J.A.C. Bingham, “Multicarrier modulation for data transmission: An idea whose
time has come’’, IEEE Communications Magazine, Vol. 28, No. 5, May 18, 1990,
pp. 5-14.
25. I. Kalet, “The multitone channel”, IEEE Transactions on Communications, Vol.
37, No. 2, February 1989, pp. 119-124.
26. S. B. Weinstein and P. M. Ebert, “Data transmission by frequency division
multiplexing using the discrete Fourier transform”, IEEE Trans. on Comm. Tech.,
Vol. COM-19, October 1971, pp.628-634.
27. P.S. Chow, J.C. Tu and J.M. Cioffi, “A discrete multitone transceiver for HDSL
applications”, IEEE J. on Sel. Areas in Commun., Vol. SAC-9, Aug. 1991, pp. 895908.
28. P. S. Chow, J. M. Cioffi and J. A. C. Bingham, “ A practical discrete multitone
transceiver loading algorithm for data transmission over spectrally shaped
channels”, IEEE Transactions on Communications, Vol. 43, No. 2/3/4, February,
March and April 1995, pp.773-775.
29. B.R. Saltzberg, “Comparison of single-carrier and multitone digital modulation
for ADSL applications”, IEEE Comm. Mag., November 1998, pp. 114-121.
OFDM and SC-FDMA
30. L. J. Cimini, Jr., “Analysis and simulation of a digital mobile channel using
orthogonal frequency division multiplexing”, IEEE Trans. on Comm., Vol. 33, No.
7, July 1985, pp. 665-675.
31. T. Keller and L. Hanzo, “Adaptive multicarrier modulation: A convenient
framework for time-frequency processing in wireless communications”, IEEE
Proceedings, Vol. 88, No. 5, May 2000, pp.611-640.
32. A. R. S. Bahai, B. R. Saltzberg and M. Ergen, “Multi-Carrier Digital
Communications (Theory and Applications of OFDM)”, Springer-Verlag, 2005.
5
33. L. Hanzo, M. Münster, B. J. Choi and T. Keller, “OFDM and MC-CDMA for
Broadband Multi-User Communications, WLANs and Broadcasting”, John Wiley
and Sons, New York, 2003.
34. S. E. Han and J. H. Lee, “An overview of peak-to-average power ratio reduction
techniques for multicarrier transmission”, IEEE Wireless Communications, Vol.
12, No. 2, April 2005, pp. 56-65.
35. S. C. Thompson, A. U. Ahmed, J. G. Proakis and J. R. Zeidler, “Constant
envelope OFDM”, IEEE Transactions on Communications, Vol. 56, No.8, August
2008, pp. 1300-1312.
36. S. C. Thompson, A. U. Ahmed, J. G. Proakis and J. R. Zeidler, “Constant
envelope OFDM phase modulation: Spectral containment, signal space properties
and performance”, Proceedings of IEEE MILCOM 2004, Monterey, CA,
November 2004, pp. 1129-1135.
37. Y.-P. Lin and S.-M. Phoong, “OFDM transmitters: Analog representation and
DFT-based implementation”, IEEE Transactions on Signal Processing, Vol. 51,
No. 9, September 2003, pp. 2450-2453.
38. H. G. Myung, J. Lim and D. J. Goodman, “Single carrier FDMA for uplink
wireless transmission”, IEEE Vehicular Technology Magazine, September 2006,
pp. 30-38.
39. D. D. Falconer, S. L. Ariyavisitakul, A. Benyamin-Seeyar and B. Eldson,
“Frequency domain equalization for single-carrier broadband wireless systems”,
IEEE Communications Magazine, April 2002, pp. 58-66.
40. H. Sari, G. Karam and I. Jeanclaude, “Transmission techniques for digital
terrestial TV broadcasting”, IEEE Communications Magazine, Vol. 23, No.2,
February 1995, pp. 100-109.
41. F. Pancaldi, G.M. Vitetta, R.Kalbasi, N. Al-Dhahir, M. Uysal and H. Mheidat, “
Single-carrier frequency domain equalization”, IEEE Signal Processing Magazine,
September 2008, pp. 37-56.
42. H. Holma and A. Toskala, “LTE for UMTS-OFDMA and SC-FDMA Based Radio
Access”, J. Wiley and Sons, New York, 2009. (Book)
43. S. B Weinstein, “ The history of orthogonal frequency-division multiplexing”,
IEEE Communications Magazine. November 2009, Volume 47, Issue 11, pp. 2635.
OFDM-MIMO (BLAST) and Coding
44. W. Zhang, X.-G. Xia and K. Ben Letaif, “Space-time/frequency coding for MIMOOFDM in next generation broadband wireless systems, “ IEEE Communications
Magazine, Vol. 45, No.6, June 2007, pp. 32-45.
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45. W.P. Siriwongpairat, W. Su, M. Olfat and K. J. R. Liu, “Multiband-OFDM MIMO
coding framework for UWB communication systems”, IEEE Transactions on Signal
Processing, Vol. 54, No. 1, January 2006, pp.214-224.
46. H. Bolcskei, “MIMO-OFDM wireless systems: Basics, perspectives and challenges”,
IEEE Wireless Communications, Vol. 13, No.4, August 2006, pp. 31-37.
Viterbi Algorithm and Trellis Coding
47. A.J. Viterbi, “Error bounds for convolutional codes and an asymptotically optimum
coding algorithm”, IEEE Trans. on Infor. Theory, Vol. IT-13, April 1967, pp. 260269.
48. G.D. Forney, Jr., “The Viterbi Algorithm”, Proc. IEEE, Vol. 61, pp. 268-277, March
1977.
49. G.D. Forney, Jr., “Maximum likelihood sequence estimation of digital sequences in
the presence of intersymbol interference”, IEEE Trans. Info. Theory, Vol. IT-18,
No.3, May 1972, pp. 363-378.
50. G. Ungerboeck, “Channel coding with multilevel/phase signals”, IEEE Transactions
on Info. Theory, Jan.1982, pp.55-67
51. G. Ungerboeck, “Trellis-Coded Modulation with redundant signal sets”, IEEE
Comm. Mag., Feb.1987, pp.5-11-Part I (Part II is in same issue).
52. R. Calderbank and J. Mazo, “A new description of trellis codes”,
IEEE Transactions on Info. Theory, November 1984, pp.784-791.
53. G.D. Forney, Jr., R.G. Gallager, G.R. Lang, F.M. Longstaff and S.U. Qureshi,
“Efficient modulation for band-limited channels”, IEEE Journal on Selected Areas in
Communication’’, Vol. SAC-2, September 1984, pp. 632-647.
Turbo-Coding and LDPC Codes
54. C. Berrou, A. Glavieux and P. Thitimajshima, “Near Shannon limit error-correcting
coding and decoding: Turbo-Codes”, Proceedings IEEE International Conference on
Communications, ICC'93, Geneva, 1993, pp.1064-1070.
55. C. Berrou and A. Glavieux, “Near optimum error correcting codes”, IEEE Trans. on
Comm., Vol. 44, No. 50, October 1996, pp. 1261–1271.
56. C. Berrou, “The ten-year-old Turbo-Codes are entering into service”, IEEE
Communications Magazine, Vol. 41, No.8, August 2003, pp.110-116.
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57. L.R. Bahl, J. Cocke, F. Jelink and J. Raviv, “Optimal decoding of linear codes for
minimizing symbol error rate”, IEEE Trans. on Info. Theory, Vol. 20, March 1974,
pp.284-287.
58. S. Benedetto, D. Divsalar, G. Montorsi and F. Pollara, “Serial concatenation of
interleaved codes: Performance analysis, design and iterative decoding, IEEE Trans
on Info. Theory, May 1998, pp. 409-429.
59. R. G. Gallager, “Low-density parity-check codes”, IRE Transactions on Information
Theory, Vol. IT-8, January 1962, pp.21-28.
60. D. J. C. MacKay, “Good error-correcting codes based on very sparse matrices”, IEEE
Transactions on Info. Theory, Vol. 45, No. 2, March 1999, pp.399-431.
61. T. Richardson and R. Urbanke, “The renaissance of Gallager’s low-density paritycheck codes”, IEEE Communications Magazine, Vol. 41, No.8, August 2003, pp.126131.
Capacity of Rayleigh Fading Channels and MIMO
Channels
62. G.J. Foschini and M.J. Gans, “On Limits of Wireless Communications in a Fading
Environment When Using Multiple Antennas”, Wireless Personal
Communications, Vol. 6, No. 3, 1998, pp. 311-335.
63. E. Telatar, “Capacity of multi-antenna gaussian channels”, European
Transactions on Comm., Vol. 10, No. 6, November-December 1999.
64. B. Vucetic and J. Yuan, “Space-Time Coding”, J. Wiley and Sons, New York,
2003.
65. W. C. Y. Lee, “Estimate of channel capacity in Rayleigh fading environment,”
IEEE Trans. on Vehicular Technology, Vol. 39, Aug. 1990, pp. 187-190.
66. A. J. Goldsmith and P. P. Varaiya, “ Capacity of fading channels with channel side
information”, IEEE Transactions on Information Theory, November 1997, pp. 19861992.
67. A. Goldsmith, S.S. Jafar, N. Jindal and S. Vishwanath, “Capacity limits on MIMO
channels”, IEEE Journal on Selected Areas in Communications, MIMO Systems and
Applications: Part II, Vol. 21, No. 5, June 2003, pp.684-701.
68. S. Verdù, “Spectral efficiency in the wideband regime”, IEEE Transactions on
Information Theory, Vol. 48, No. 6, June 2002, pp. 1319-1343
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69. S. Verdu, “Recent results on the capacity of wideband channels in the low-power
regime”, IEEE Wireless Communications, Vol. 9, No. 4, August 2002 pp.40-45.
70. H. Bolcskei, D. Gesbert and A. J. Paulraj, “On the capacity of OFDM-based
spatial multiplexing systems”, IEEE Trans. on Comm., Vol. 50, No. 2, February
2002, pp. 225-234.
71. G. G. Raleigh and J. M. Cioffi, “Spatio-temporal coding for wireless
communication”, IEEE Trans. on Comm., Vol. 46, No.3, March 1998, pp.157-166.
72. A. J. Paulraj, D. A. Gore, R. U. Nabar and H. Bolcskei, “An overview of MIMO
communications-A key to gigabit wireless”, Proceedings of the IEEE, Vol. 92,
No.2, February 2004, pp. 198-218.
73. G. L. Stuber, J. R. Barry, S. W. McLaughlin, Y. Li, M. A. Ingram and T. G. Pratt,
“Broadband MIMO-OFDM wireless communications”, Proceedings of the IEEE,
Vol. 92, No.2, February 2004, pp. 271-294.
74. H. Yang, “A road to future broadband wireless access: MIMO-OFDM-Based air
interface”, IEEE Communications Magazine, Vol. 43, No. 1, January 2005, pp. 5360.
75. A. Goldsmith, S.A. Jafar, N. Jindal and S. Vishwanath, “Capacity limits of MIMO
channels”, IEEE Journal on Selected Areas in Communications, Vol. 21, No. 5,
June 2003, pp. 684-702.
76. J. Winters, “On the capacity of radio communication systems with diversity in a
Rayleigh fading environment”, IEEE Journal on Selected Areas in
Communications, Vol. 5, June 1987, pp. 871-878.
77. S. Catreux, L. J. Greenstein and V. Erceg, “Some results and insights on the
performance gains of MIMO systems”. IEEE Journal on Selected Areas in
Communications, Vol. 21, No.5, June 2003, pp. 839-847.
78. D. Gesbert and J. Akhtar, “ Breaking the barriers of Shannon’s capacity: An
overview of MIMO wireless systems”, Telenor’s Journal-Telektronikk, January
2002, pp.1-9.
79. O. Oyman, R. U. Nabar, H. Bolcskei and A. J. Paulraj, “Characterizing the
statistical properties of mutual information in MIMO channels”, IEEE
Transactions on Signal Processing, Vol. 51, No. 11, November 2003, pp. 2784-2795.
Space-Time Coding
80. S. M. Alamouti, “A simple transmit diversity technique for wireless communication”,
IEEE J. on Selected Areas in Communications, Vol. SAC-16, No. 8, October 1998, pp.
1451-1458.
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81. V. Tarokh, N. Seshadri and A. R. Calderbank, “Space-time codes for high data rate
wireless communications: performance criterion and code construction”, IEEE
Trans. On Info. Theory, Vol. 44,No. 2, March 1998, pp.744-765.
82. Y. Hong, J. Yuan, Z. Chen, and B.Vucetic, “Space-time turbo trellis codes for two,
three, and four transmit antennas”, IEEE Transactions on Vehicular Technology,
Volume: 53 , Issue: 2 , March 2004, pp. 318 – 328.
83. B. Vucetic and J. Yuan, “Space-Time Coding”, J.Wiley and Sons, New York, 2003.
84. W. Zhang, X.-G. Xia and K. Ben Letaif, “Space-time/frequency coding for MIMOOFDM in next generation broadband wireless systems, “ IEEE Communications
Magazine, Vol. 45, No.6, June 2007, pp. 32-45.
Multiuser Diversity
85. P. Viswanath, D. V. N. C. Tse and R. Laroia, “Opportunistic beamforming using
dumb antennas”, IEEE Transactions on Information Theory, Vol.48, Issue 6, June
2002, pp. 1277-1294.
86. R. Knopp and P. A. Humblet, “Information capacity and power-control in single-cell
multiuser communications”, IEEE International Conference on Communications,
ICC’95, Seattle, WA., June 1995, pp.331-335.
87. E.G. Larsson, ”On the combination of spatial diversity and multiuser diversity”,
IEEE Communications Letters, Vol. 8, No.8, August 2004, pp.517-519.
Continuous Phase Modulation-CPM
88. C.-E. W. Sundberg, “Continuous Phase Modulation”, IEEE Communications
Magazine., April 1986, pp.25-38.
89. T. Aulin and C.-E. W. Sundberg, “Continuous Phase Modulation-Parts I and II”,
IEEE Trans. on Comm., March 1981, pp. 196-209, 210-255
90. F. de Jager and C.B. Dekker, “Tamed Frequency Modulation- A novel method to
achieve spectrum economy in digital transmission”, IEEE Trans. on Comm., Vol.
COM-26, No. 5, May 1978, pp. 534-542.
91. K. Chung, “Generalized Tamed Frequency Modulation and its application for
mobile radio communications”, IEEE Journal on Selected Areas in
Communications, Vol. SAC-2, No. 4, July 1984, pp. 487-497.
92. K. Murota and K. Hirade, “GMSK Modulation for digital mobile radio telephony”, IEEE
Trans. on Comm., Vol. COM-29, No. 7, July 1981, pp. 1044-1050.
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93. M. Fitch, K. Briggs, I. Boyd and F. Stentiford, “Gaussian multi-level FM for highbandwidth satellite communications”, 29th World Telecommunications Congress, Seoul,
12-15 September, 2004.
CPM-FM Receiver Detection
94. T.T. Tjhung and D.H. Wittke, “Carrier transmission of binary data in a restricted
band”, IEEE Trans. of Com. Tech., Vol. COM-18, August 1970, pp. 295-304.
95. K. Chung, “Generalized tamed frequency modulation and its application for
mobile radio communications”, IEEE Journal on Selected Areas in
Communications, Vol. SAC-2, No. 4, July 1984, pp. 487-497.
Cellular Communications and CDMA
96. IEEE Communications Magazine, August 2010, Vol. 48, No. 8, pp.38-92.
97. D. C. Cox, “Fundamental limitations on increasing data rate in wireless systems”,
IEEE Communications Magazine, Volume 46, Number 12, December 2008, pp.
16-17
98. G.R. Cooper, R. W. Nettleton and D. P. Grybos, “Cellular land-mobile radio:
Why spread spectrum”, IEEE Communications Magazine, Vol.17, No.2, March
1979, pp.17-23.
99. H. Holma and A. Toskala, “WCDMA for UMTS-Second Edition”, J. Wiley and
Sons, New York, 2002.
100. IEEE Personal Communications Magazine, “Third Generation Wireless
Mobile Communications and Beyond”, December 2000, Vol.7, No. 6.
101. A. J. Viterbi, “CDMA-Principles of Spread Spectrum Communications”, Reading,
MA, Addison-Wesley, 1995.
102. R. Price and P.E. Green, Jr. “A communication technique for multipath channels”,
Proc. IRE, Vol. 46, March 1958, pp. 555-570.
103. K. S. Gihousen, I. M. Jacobs, R. Padovani, A.J. Viterbi, L. A. Weaver and C. E.
Wheatley, “On the capacity of a cellular CDMA system”, IEEE Transactions on
Vehicular Tech., Vol. 40, May 1991, pp. 303-312.
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104. H. Ekstrom, A. Furuskar, J. Karlsonn, M. Speyer, S. Parkvall, J. Torsner and M.
Wahlqvist, “Technical solutions for the 3G long-term evolution, IEEE
Communications Magazine, March 2006, pp. 38-45.
105. E. Dahlman, H. Ekstrom, A. Furuskar,Y. Jading, J. Karlsonn, M. Lundevall, and S.
Parkvall, , “The 3G Long-Term Evolution-Radio interface concepts and performance
evaluation”, IEEE Vehicular Technology Conference,VTC 2006, Melbourne,
Australia, May 2006.
106. K. Cheun, “Performance of direct-sequence spread-spectrum RAKE receivers with
random spreading sequences”, IEEE Transactions on Communications, Vol. 45, No.
9, September 1997, pp. 1130-1143.
107. D. Lopez-Perez, A. Valcarce, G. de la Roche and J.Zhang, “OFDMA Femtocells: A
roadmap on interference avoidance”, IEEE Communications Magazine, Vol. 47, No.9,
September 2009, pp. 41-48. (Also see other articles in same issue)
56 kbps Modem (V.90 and V.92) and the V.34
Modem
108. I. Kalet, B.R. Saltzberg and J. Mazo, “The capacity of voiceband channels”,
Proceedings of International Conference on Communications, ICC '93, June 1993,
Geneva, Switzerland.
109. P.A. Humblet and M.G. Troulis, “The information driveway”, IEEE Comm.
Mag., December 1996, pp. 64-68.
110. G.D. Forney, et al, “The V.34 High-Speed Modem Standard”, IEEE Comm.
Mag., December 1996, pp. 28-33.
111. D.-Y. Kim, P.A. Humblet, M.V. Eyuboglu, L. Brown, G.D., Forney, Jr. and S.
Mehrabanzad, “V.92: The last dial-up modem?”, IEEE Trans. on
Communications, Volume 52, No. 1, Jan. 2004, pp.54 – 61.
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Decision Feedback Equalization and Tomlinson
Filtering
112. R. Price, “Nonlinearly feedback-equalized PAM vs. capacity for noisy filter
channels’’, International Conference on Communication, ICC`72, Philadelphia,
PA, June 1972, pp. 22.12-22.17.
113. M. Tomlinson, “New automatic equalizer employing modulo arithmetic”,
Electronic Letters, Vol. 7, March 1971, pp. 138-139.
114. H. Harashima and H. Miyakawa, “Matched-transmission technique for channels
with intersymbol interference”, IEEE Transactions on Communications, Vol.
COM-20, No. 1, August 1972, pp. 774-780.
115. N. Zervos and I. Kalet, “Optimized decision feedback equalization versus
optimized orthogonal frequency division multiplexing for high-speed data
transmission over the local cable network”, International Conference on
Communications, ICC’89, Philadelphia, June 1989, pp. 35.2-35.2.6.
Power-Line Communications
116. E. Biglieri, “Coding and modulation for a horrible channel”, IEEE
Communications Magazine, Volume 41, No. 5, May 2003
pp. 92 – 98.
117. M. Gotz, M. Rapp and K. Dostert, “Power line channel characteristics and
their effect on communication system design”, IEEE Communications Magazine,
Volume 42, No. 4, April 2004, pp.78 – 86.
118. N. Pavlidou, A. J. Han Vinck, J. Yazdani and B. Honary, “Power line
communications: state of the art and future trends”, IEEE Communications
Magazine, Volume 41, No. 4, April 2003, pp. 34 – 40.
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Cooperative Diversity
(Multi-Hop and Ad Hoc Networks)
119. V. Stankovic, A. Host-Madsen and Z. Xiong, “Cooperative diversity for wireless
ad hoc networks”, IEEE Signal Processing Magazine, September 2006, pp.37-49.
120. S. W. Peters and R. W. Heath, Jr., “The future of WiMax: Multihop relaying
with IEEE 802.16j”, IEEE Communications Magazine, Vol. 47, No.1, January
2009, pp. 104-111.
121. J. Andrews, S. Shakkottai, R. Heath, N. Jindal, M. Haenggi, R, Berry, D. Guo, M.
Neely, S. Weber, F. Jafar and A. Yener, “Rethinking information theory for mobile
ad hoc networks”, IEEE Communications Magazine, Volume 46, Number 12,
December 2008, pp. 94-101.
Cognitive Radio
122. I. Budiarjo, H. Nikookar and L.P. Ligthart, “Cognitive radio modulation
techniques”, IEEE Signal Processing Magazine, November 2008, pp. 24-34.
123. D. Cabric, “Addressing the feasibility of cognitive radios”, IEEE Signal
Processing Magazine, November 2008, pp. 85-93.
124. C. R. Stevenson, G. Chouinard, Z. Lei, W. Hu, S. J. Shellhammer and W.
Caldwell, “IEEE 802.22: The first cognitive radio wireless regional area network
standard”, IEEE Communications Magazine, Vol. 47, No.1, January 2009, pp.
130-138.
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Wireless Systems
125. C. Wijting, et al, “Key technologies for IMT-Advanced mobile communication
systems”, IEEE Wireless Communications, June 2009, Volume 16, No.3, pp. 76-85.
126. S. Ahmadi, “An overview of next-generation mobile WiMax Technology”, IEEE
Communications Magazine, June 2009, Volume 47, No.6, pp. 84-98.
127. IEEE Communications Magazine, August 2010, Vol. 48, No. 8, Articles in pages
pp.38-92.
Underwater Wireless Communications
128. M. Stonjanovic and J. Preisig, “Underwater acoustic communication channels:
Propagation Models and statistical characterization”, IEEE Communications
Magazine, January 2009, Volume 47, No.1, pp. 84-89.
Simulations
129. Michel C. Jeruchim, Philip Balaban and K. Sam Shanmugan, “Simulation of
communication systems: modeling, methodology, and techniques”, Kluwer
Academic/ Plenum Press, New York, 2000.
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SOME “GOOD” BOOKS
1. S. Haykin, “Communications Systems”, J. Wiley and Sons, New York,
Fourth Edition, 2001.
2. H. L. Van Trees, “Detection, Estimation and Modulation Theory
-Volume I,” McGraw-Hill, New York, 1965. (Part I –Reissued in SoftCover Edition-2001).
3. B. Sklar, “Digital Communications: Fundamentals and ApplicationsSecond Edition”, Englewood Cliffs, N.J., Prentice-Hall, 2001.
4. J. G. Proakis and M. Saheli, “Digital Communications”, McGraw-Hill,
New York, Fifth Edition, 2008.
5. R. E. Ziemer and W. H. Tranter, “Principles of Communications-Systems,
Modulation and Noise- Sixth Edition”, J. Wiley and Sons, New York,
2009.
6. R. D. Gitlin, J. Hayes and S. B. Weinstein, “Data Communications Principles”,
Plenum Press, 1992.
7. M.Schwartz, W.R. Bennett and S. Stein, “Communication Systems and
Techniques”, McGraw-Hill Co., New York, 1966 (Re-issued by IEEE
Press, 1997).
8. A. R. S. Bahai, B. R. Saltzberg and M. Ergen, “Multi-carrier Digital
Communications (Theory and Applications of OFDM)”, Springer-Verlag, 2005.
9. M. Schwartz, “Mobile Wireless Communications”, Cambridge University Press,
Cambridge, England, 2005.