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  3. Adaptive Wireless Communications
  • Cited by 89
Publisher:
Cambridge University Press
Online publication date:
May 2013
Print publication year:
2013
Online ISBN:
9781139519465
DOI:
https://doi.org/10.1017/CBO9781139519465
Subjects:
Communications and Signal Processing, Engineering, Wireless Communications
Information

Book description

Adopting a balanced mix of theory, algorithms and practical design issues, this comprehensive volume explores cutting-edge applications in adaptive wireless communications and the implications these techniques have for future wireless network performance. Presenting practical concerns in the context of different strands from information theory, parameter estimation theory, array processing and wireless communication, the authors present a complete picture of the field. Topics covered include advanced multiple-antenna adaptive processing, ad hoc networking, MIMO, MAC protocols, space-time coding, cellular networks and cognitive radio, with the significance and effects of both internal and external interference a recurrent theme throughout. A broad, self-contained technical introduction to all the necessary mathematics, statistics, estimation theory and information theory is included, and topics are accompanied by a range of engaging end-of-chapter problems. With solutions available online, this is the perfect self-study resource for students of advanced wireless systems and wireless industry professionals.

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Contents

Contents
References
References
References
[1] A. O., Hero III. Secure space-time communication. IEEE Transactions on Information Theory, 49(12):3235–3249, Dec. 2003.
[2] M., Abaramovitz and I., Stegun. Handbook of Mathematical Functions. Dover Publications, New York, 1970.
[3] N., Abramson. The ALOHA system – another alternative for computer communications. Proceedings of the Fall Joint Computer Conference AFIPS, 1970.
[4] V. D., Agrawal and Y. T., Lo. Mutual coupling in the phased arrays of randomly spaced antennas. IEEE Transactions on Antennas a nd Propagation, 20:288–295, May 1972.
[5] L. V., Ahlfors. Complex Analysis. McGraw-Hill, New York, 1953.
[6] I. F., Akyildiz, W.-Y., Lee, M. C., Vuran, and S., Mohanty. NeXt generation/dynamic spectrum access/cognitive radio wireless networks: a survey. Elsevier Computer Networks, 50(13):2127–2159, Sept. 2006.
[7] S., Alamouti and V., Tarokh. Transmitter diversity technique for wireless communications, 2001. U.S. Patent 6,185,258.
[8] S. M., Alamouti. A simple transmit diversity technique for wireless communications. IEEE Journal in Selected Areas in Communications, 16:1451–1458, Oct. 1998.
[9] O. B. S., Ali, C., Cardinal, and F., Gagnon. Performance of optimum combining in a Poisson field of interferers and Rayleigh fading channels. IEEE Transactions Wireless Communications, 9(8):2461–2467, Aug. 2010.
[10] V. S., Annapureddy and V. V., Veeravalli. Gaussian interference networks: Sum capacity in the low-interference regime and new outer bounds on the capacity region. IEEE Transactions on Information Theory, 55(7):3032–3050, 2009.
[11] George B., Arfken and Hans-Jurgen, Weber. Mathematical Methods for Physicists. Elsevier, 2005.
[12] Z. D., Bai and J. W., Silverstein. On the empirical distribution of eigenvalues of a class of large dimensional random matrices. Journal of Multivariate Analysis, 54:175–192, 1995.
[13] Z. D., Bai and J. W., Silverstein. On the signal-to-interference-ratio of CDMA systems in wireless communications. Annals of Applied Probability, 17(1):81–101, 2007.
[14] O., Bakr, M., Johnson, R., Mudumbia, and U., Madhow. Interference suppression in the presence of quantization errors. Allerton Conference on Communication, Control, and Computing, pages 1161–1168, Oct. 2009.
[15] C. A., Balanis. Antenna Theory: Analysis and Design. John Wiley & Sons, Hoboken, New Jersey, 2005.
[16] A., Barabell. Improving the resolution performance of eigenstructure-based direction-finding algorithms. IEEE International Conference on Acoustics, Speech, and Signal Processing (ICASSP), 8:336–339, April 1983.
[17] P., Bergmans. A simple converse for broadcast channels with additive white Gaussian noise. IEEE Transactions on Information Theory, 6:85–127, 1974.
[18] Dennis S., Bernstein. Matrix Mathematics: Theory, Facts, and Formulas. Princeton University Press, 2009.
[19] C., Berrou, A., Glavieux, and P., Thitimaijshima. Near Shannon limit error correcting coding and decoding: turbo-codes. Proceedings of ICC 1993, Geneva, 2:1064–1070, May 1993.
[20] Dimitri P., Bertsekas. Nonlinear Programming. Athena Scientific, 1995.
[21] D.P., Bertsekas and R.G., Gallager. Data Networks, volume 2. Prentice-hall Upper Saddle River, NJ, USA:, 1987.
[22] Ezio, Biglieri. MIMO Wireless Communications. Cambridge University Press, 2007.
[23] M., Biguesh, S., Gazor, and M. H., Shariat. Optimal training sequence for MIMO wireless systems in colored environments. IEEE Transactions on Signal Processing, 57(8):3144–3153, Aug. 2009.
[24] Patrick, Billingsley. Probability and Measure. John Wiley & Sons, Hoboken, New Jersey, 1995.
[25] C., Bissell. Vladimir Aleksandrovich Kotelnikov: pioneer of the sampling theorem, cryptography, optimal detection, planetary mapping. IEEE Communications Magazine, 47(10):24–32, Oct. 2009.
[26] B. A., Bjerke and J. G., Proakis. Multiple-antenna diversity techniques for transmission over fading channels. IEEE Wireless Communications and Networking Conference, 3:1038–1042, 1999.
[27] I., Blake and W., Lindsey. Level-crossing problems for random processes. IEEE Transactions on Information Theory, 19(3):295–315, May 1973.
[28] D. W., Bliss. Robust MIMO wireless communication in the presence of interference using ad hoc antenna arrays. Proceedings of MILCOM 03 (Boston), Oct. 2003.
[29] D. W., Bliss. Optimal SISO and MIMO spectral efficiency to minimize hidden-node network interference. IEEE Communications Letters, 14(7):620–622, July 2010.
[30] D. W., Bliss, A. M., Chan, and N. B., Chang. MIMO wireless communication channel phenomenology. IEEE Transactions on Antennas and Propagation, 52(8), Aug. 2004.
[31] D. W., Bliss and K. W., Forsythe. Angle of arrival estimation in the presence of multiple access interference for CDMA cellular phone systems. Proceedings of the 2000 IEEE Sensor Array and Multichannel Signal Processing Workshop, Cambridge, Mass., March 2000.
[32] D. W., Bliss and K. W., Forsythe. Information theoretic comparison of MIMO wireless communication receivers in the presence of interference. IEEE Asilomar Conference on Signals, Systems and Computers, 1:866–870, Nov. 2004.
[33] D. W., Bliss, K. W., Forsythe, A. O., Hero, and A. F., Yegulalp. Environmental issues for MIMO capacity. IEEE Transactions on Signal Processing, 50(9):2128–2142, Sept. 2002.
[34] D. W., Bliss, K. W., Forsythe, and A. F., Yegulalp. MIMO communication capacity using infinite dimension random matrix eigenvalue distributions. IEEE Asilomar Conference on Signals, Systems and Computers, 2:969–974, Nov. 2001.
[35] D. W., Bliss and S., Govindasamy. Minimizing hidden-node network interference by optimizing SISO and MIMO spectral efficiency. IEEE Asilomar Conference on Signals, Systems and Computers, pages 1588–1592, Nov. 2010.
[36] D. W., Bliss and P. A., Parker. Temporal synchronization of MIMO wireless communication in the presence of interference. IEEE Transactions on Signal Processing, 58(3):1794–1806, Mar. 2010.
[37] D. W., Bliss, P. A., Parker, and A. R., Margetts. Simultaneous transmission and reception for improved wireless network performance. Conference Proceedings of the IEEE Statistical Signal Processing Workshop, pages 478–482, Aug. 2007.
[38] D. W., Bliss, P. H., Wu, and A. M., Chan. Multichannel multiuser detection of space-time turbo codes: Experimental performance results. IEEE Asilomar Conference on Signals, Systems and Computers, 2:1343–1348, Nov. 2002.
[39] R. S., Blum. MIMO capacity with interference. IEEE Journal on Selected Areas in Communications, 21(5):793–801, June 2003.
[40] Mary L., Boas. Mathematical Methods in the Physical Sciences. John Wiley & Sons, Hoboken, New Jersey, 2006.
[41] H., Bolcskei. Blind estimation of symbol timing and carrier frequency offset in wireless OFDM systems. IEEE Transactions on Communications, 49(6):988–999, June 2001.
[42] H., Bolcskei and A. J., Paulraj. Performance of space-time codes in the presence of spatial fading correlation. IEEE Asilomar Conference on Signals, Systems and Computers, 1:687–693, Oct. 2000.
[43] H., Bolcskei and A.J., Paulraj. Space-frequency codes for broadband fading channels. In Information Theory, 2001. Proceedings. 2001 IEEE International Symposium on, page 219. IEEE, 2001.
[44] H., Bolcskei and I. J., Thukral. Interference alignment with limited feedback. IEEE International Sympo sium on Information Theory (ISIT), pages 1759–1763, 2009.
[45] Helmut, Bölcskei. Space-Time Wireless Systems: From Array Processing to MIMO Communications. Cambridge University Press, 2006.
[46] Joseph J., Boutros, Francesc Boixadera, and Catherine Lamy. Bit-interleaved coded modulations for multiple-input multiple-output channels. IEEE Symposium on Spread-Spectrum Technology and Applications, Sept. 2000.
[47] D. H., Brandwood. A complex gradient operator and its application in adaptive array theory. IEE Proceedings of Microwaves, Optics and Antennas, 130(1):11–16, Feb. 1983.
[48] Ira S., Brodsky. The History of Wireless: How Creative Minds Produced Technology for the Masses. Telescope Books, 2008.
[49] D. W., Browne, M. W., Browne, and M. P., Fitz. Singular value decomposition of correlated mimo channels. IEEE Global Telecommunications Conference (GLOBECOM), Dec. 2006.
[50] V., Cadambe and S. A., Jafar. Interference alignment and degrees of freedom of the k-user interference channel. IEEE Transactions on Information Theory, 54(8), Aug. 2008.
[51] J., Capon. High-resolution frequency-wavenumber spectrum analysis. Proceedings of the IEEE, 57(8):1408–1418, Aug. 1969.
[52] A., Carleial. A case where interference does not reduce capacity (corresp.). IEEE Transactions on Information Theory, 21(5):569–570, 1975.
[53] George F., Carrier, Max, Krook, and Carl E., Pearson. Functions of Complex Variable: Theory and Technique. Hod Books, Ithaca, NY, 1983.
[54] George F., Carrier, Max, Krook, and Carl E., Pearson. Functions of a Complex Variable: Theory and Technique. Classics in Applied Mathematics. Society for Industrial and Applied Mathematics, 2005.
[55] N. B., Chang, A. R., Margetts, and A. L., McKellips. Performance and complexity tradeoffs of space-time modulation and coding schemes. IEEE Asilomar Conference on Signals, Systems and Computers, pages 1446–1450, 2009.
[56] B., Chen and M. J., Gans. MIMO communications in ad-hoc networks. IEEE Transactions on Signal Processing, 54:2773–2783, July 2006.
[57] Z., Chen, J., Yuan, and B., Vucetic. Improved space-time trellis coded modulation scheme on slow rayleigh fading channels. Electronics Letters, 37(7):440–441, March 2001.
[58] Z., Chen, J., Yuan, and B., Vucetic. An improved space-time trellis coded modulation scheme on slow rayleigh fading channels. IEEE International Conference on Communications, 4:1110–1116, 2001.
[59] H. F., Chong, M., Motani, H. K., Garg, and H. El, Gamal. On the Han–Kobayashi region for the interference channel. IEEE Transactions on Information Theory, 54(7):3188–3195, 2008.
[60] L. J., Chu. Physical limitations of omni?directional antennas. Journal of Applied Physics, 19(12):1163, Dec. 1948.
[61] Lewis, Coe. Wireless Radio: A Brief History. McFarland, 1996.
[62] Cristina, Comaniciu, Rarayan, Mandayam, and H., Vincent. Wireless Networks: Multiuser Detection in Cross-Layer Design. Springer, 2005.
[63] J. P., Conti. The 10 greatest communications inventions. Communications Engineer, 5(1):14–21, 2007.
[64] A. D., Copeland, D. W., Bliss, and A. L., McKellips. Optimal windowing in MIMO OFDM for network interference suppression. IEEE Asilomar Conference on Signals, Systems and Computers, pages 1699–1703, Nov. 2009.
[65] R. M., Corless, G. H., Gonnet, D. E. G., Hare, D. J., Jeffrey, and D. E., Knuth. On the Lambert W function. Advances in Computational Mathematics, 5:329–359, Dec. 1996.
[66] L. M., Correia and R., Prasad. An overview of wireless broadband communications. IEEE Communications Magazine, 35(1):28–33, Jan. 1997.
[67] M., Costa. Writing on dirty paper. IEEE Transactions on Information Theory, 29(3):439–441, May 1983.
[68] T. M., Cover and J. A., Thomas. Elements of Information Theory, 2nd Edition. John Wiley & Sons, New York, 2006.
[69] H., Dai, A. F., Molisch, and H. V., Poor. Downlink capacity of interference-limited MIMO systems with joint detection. IEEE Transactions on Wireless Communications, 3(2), March 2004.
[70] D.J., Daley and D., Vere-Jones. An Introduction to the Theory of Point Processes, Volume I: Elementary Theory and Methods, volume 2. Springer Verlag, 2008.
[71] D.J., Daley and D., Vere-Jones. An Introduction to the Theory of Point Processes, Volume II: General Theory and Structure, volume 2. Springer Verlag, 2008.
[72] M. O., Damen, H. El, Gamal, and G., Caire. On maximum-likelihood detection and the search for the closest lattice point. IEEE Transactions on Information Theory, 49(10):2389–2402, Oct. 2003.
[73] A. V., Dandawate and G. B., Giannakis. Statistical tests for presence of cyclostationarity. IEEE Transactions on Signal Processing, 42(9):2355–2369, Sept. 1994.
[74] Michael, D'Antonio. A Ball, A Dog, and a Monkey: 1957 – The Space Race Begins. Simon & Schuster, New York, 2007.
[75] D., Dardari. Joint clip and quantization effects characterization in OFDM receivers. IEEE Transactions on Circuits and Systems, 53(8):1741–1748, Aug. 2006.
[76] Jon, Dattorro. Convex Optimization & Euclidean Distance Geometry. Meboo Publishing, 2008.
[77] D. F., Delong. Multiple signal direction finding with thinned linear arrays. Technical Report TST-68, DTIC:ADA128924, MIT Lincoln Laboratory, April 1983.
[78] D. F., Delong. Use of the weiss-weinstein bound to compare the direction-finding performance of sparse arrays. Technical Report AST-17, M.I.T. Lincoln Laboratory, Aug. 1991.
[79] L., Devroye. Bounds for the uniform deviation of empirical measures. Journal of Multivariate Analysis, 12:72–79, 1982.
[80] N., Devroye, P., Mitran, and V., Tarokh. Achievable rates in cognitive radio channels. IEEE Transactions on Information Theory, 52(5):1813–1827, May 2006.
[81] M., Dieckmann and R., Hell. Lichtelektrische bildzerlegerrehre fr fernseher, 1927. German Patent 450,187.
[82] A. E., Dolbear. Mode of electric communication, 1886. U.S. Patent 350,299.
[83] M., Donvito and S., Kassam. Characterization of the random array peak sidelobe. IEEE Transactions on Antennas and Propagation, 27(3):379–385, May 1979.
[84] Tolga M., Duman and Ali, Ghrayeb. Coding for MIMO Communication Systems. John Wiley & Sons, 2008.
[85] A., Edelman, T. A., Arias, and S. T., Smith. The geometry of algorithms with orthogonality constraints. SIAM Journal on Matrix Analysis and Applications, 20(2):303–353, 1999.
[86] H. El, Gamal and M. O., Damen. Universal space-time coding. IEEE Transactions on Information Theory, 49(5):1097–1119, May 2003.
[87] H. El, Gamal and A. R., Hammons. A new approach to layered space-time coding and signal processing. Information Theory, IEEE Transactions on, 47(6):2321–2334, 2001.
[88] Y. C., Eldar and G., Kutyniok. Compressed Sensing: Theory and Applications. Cambridge University Press, 2012.
[89] R., Etkin, D., Tse, and H., Wang. Gaussian interference channel capacity to within one bit. IEEE Transactions on Information Theory, 54(12), Dec. 2008.
[90] Albert Guillen I, Fabregas, Alfonso, Martinez, and Giuseppe, Caire. Bit-Interleaved Coded Modulation. Foundations and Trends in Communications and Information Theory. Now Publishers, 2008.
[91] P., Farnsworth. Television system, 1930. U.S. Patent 1,773,980.
[92] F. R., Farrokhi, G. J., Foschini, A., Lozano, and R. A., Valenzuela. Link-optimal space-time processing with multiple transmit and receive antennas. IEEE Communications Letters, 5:85–87, March 2001.
[93] William, Feller. An Introduction to Probability and Its Applications, Vol. II. John Wiley & Sons, 1971.
[94] B. A., Fette. Cognitive Radio Technology: 2nd Edition. Elsevier, Burlington, MA, 2009.
[95] L., De Forest. Space telegraphy, 1908. U.S. Patent 879,532.
[96] K. W., Forsythe. Utilizing waveform features for adaptive beamforming and direction finding with narrowband signals. MIT Lincoln Laboratory Journal, 10(2):99–126, 1997.
[97] K. W., Forsythe. Performance of space-time codes over a flat-fading channel using a subspace-invariant detector. IEEE Asilomar Conference on Signals, Systems and Computers, 1:750–755, Nov. 2002.
[98] K. W., Forsythe, D. W., Bliss, and C. M., Keller. Multichannel adaptive beamforming and interference mitigation in multiuser CDMA systems. IEEE Asilomar Conference on Signals, Systems and Computers, 1:506–510, Oct. 1999.
[99] G. J., Foschini. Layered space-time architecture for wireless communication in a fading environment when using multi-element antennas. Bell Labs Technical Journal, 1(2):41–59, Autumn 1996.
[100] Giorgio, Franceschetti and Sabatino, Stornelli. Wireless Networks: From the Physical Layer to Communication, Computing, Sensing, and Control. Elsevier Academic Press, 2006.
[101] M., Franceschetti, O., Dousse, D. N. C., Tse, and P., Thiran. Closing the gap in the capacity of wireless networks via percolation theory. IEEE Transactions on Information Theory, 53(3):1009–1018, March 2007.
[102] M., Franceschetti, M. D., Migliore, and P., Minero. The capacity of wireless networks: Information-theoretic and physical limits. IEEE Transactions on Information Theory, 55(8):3413–3424, July 2009.
[103] J., Freebersyser and B., Leiner. A DoD perspective on mobile ad hoc networks. In C. E., Perkins, editor, Ad Hoc Networking, pages 29–51. Addison-Wesley, 2001.
[104] B., Friedlander and A. J., Weiss. Direction finding in the presence of mutual coupling. IEEE Transactions on Antennas and Propagation, 39(3):273–284, March 1991.
[105] H., Gao, P. J., Smith, and M. V., Clark. Theoretical reliability of MMSE linear diversity combining in Rayleigh-fading additive interference channels. IEEE Transactions on Communications, 46(5):666–672, May 1998.
[106] W. A., Gardner. Exploitation of spectral redundancy in cyclostationary signals. IEEE Signal Processing Magazine, 8(2):14–36, April 1991.
[107] Patrick, Geddes. The Life and Work of Sir Jagadis C. Bose. Longmans, Green and Co., London, 1920.
[108] S. I., Gel'fand and M. S., Pinsker. Coding for channel with random parameters. Problems of Control Theory, 9(1):19–31, 1980.
[109] D., Gerlach and A., Paulraj. Adaptive transmitting antenna methods for multipath environments. IEEE Global Telecommunications Conference (GLOBECOM), 1:425–429, Nov. 1994.
[110] D., Gesbert, H., Bolcskei, D. A., Gore, and A. J., Paulraj. Outdoor MIMO wireless channels: models and performance prediction. IEEE Transactions on Communications, 50(12):1926–1934, Dec. 2002.
[111] D., Gesbert, T., Ekman, and N., Christophersen. Capacity limits of dense palm-sized MIMO arrays. IEEE Global Telecommunications Conference (GLOBECOM), 2:1187–1191, Nov. 2002.
[112] M., Godavarti, A. O., Hero III, and T. L., Marzetta. Min-capacity of a multiple-antenna wireless channel in a static Ricean fading environment. IEEE Transactions on Wireless Communications, 4(4):1715–1723, July 2005.
[113] M. J. E., Golay. Notes on digital coding. Proceedings of the IRE, 37, 1949.
[114] G. D., Golden, G. J., Foschini, R. A., Valenzuela, and P.W., Wolniansky. V-BLAST: A high capacity space-time architecture for the rich-scattering wireless channel. Fifth Workshop on Smart Antennas in Wireless Mobile Communications, July 1998.
[115] A., Goldsmith. Wireless Communications. Cambridge University Press, New York, 2005.
[116] A., Goldsmith, S. A., Jafar, N., Jindal, and S., Vishwanath. Capacity limits of MIMO channels. IEEE Journal on Selected Areas of Communications, 21(5), June 2003.
[117] Gene Howard, Golub and Charles F., Van Loan. Matrix Computations. Johns Hopkins Studies in the Mathematical Sciences. Johns Hopkins University Press, Baltimore, 1996.
[118] K., Gomadam, V. R., Cadambe, and S. A., Jafar. Approaching the capacity of wireless networks through distributed interference alignment. IEEE Global Telecommunications Conference (GLOBECOM), pages 1–6, 2008.
[119] D. A., Gore and A. J., Paulraj. Mimo antenna subset selection with space-time coding. Signal Processing, IEEE Transactions, 50(10):2580–2588, 2002.
[120] S., Govindasamy. Multiple-Antenna Systems in Ad-Hoc Wireless Networks. Ph.D. dissertation, Massachusetts Institute of Technology, Department of Electrical Engineering and Computer Science, 2008.
[121] S., Govindasamy, F., Antic, D. W., Bliss, and D., Staelin. The performance of linear multiple-antenna receivers with interferers distributed on a plane. IEEE International Workshop on Signal Processing Advances for Wireless Communications, 2005.
[122] S., Govindasamy and D., Bliss. On the spectral e.ciency of links with multiantenna receivers in non-homogenous wireless networks. In Proceedings of IEEE ICC, Kyoto, pages 1–6. IEEE, 2011.
[123] S., Govindasamy, D. W., Bliss, and D. H., Staelin. Spectral effciency in single-hop ad-hoc wireless networks with interference using adaptive antenna arrays. IEEE Journal on Selected Areas of Communications, 25(7):1358–1369, Sept. 2007.
[124] S., Govindasamy, D. W., Bliss, and D. H., Staelin. Asymptotic spectral efficiency of the uplink in spatially distributed wireless networks with multi-antenna base stations. IEEE Asilomar Conference on Signals, Systems and Computers, 2008.
[125] S., Govindasamy, D. W., Bliss, and D. H., Staelin. Asymptotic spectral efficiency of multi-antennas links in ad-hoc wireless networks with limited Tx CSI. IEEE Transactions on Information Theory, 58(8):5375–5387, August 2012.
[126] S., Govindasamy, D. W., Bliss, and D. H., Staelin. Asymptotic spectral efficiency of the uplink in spatially distributed wireless networks with multi-antenna base stations. To appear in IEEE Transactions on Communications, 2013.
[127] S., Govindasamy, D. W., Bliss, and D.H., Staelin. Spectral-efficiency of multi-antenna links in ad-hoc wireless networks with limited Tx CSI. IEEE Asilomar Conference on Signals, Systems and Computers, 2009.
[128] S., Govindasamy, R., Rangan, E., Koukina, and A., Lloyd. CDF of the spectral-efficiency of a simple distributed channel assignment algorithm in spatially distributed wireless networks. In IEEE Asilomar Conference on Signals, Systems and Computers, 2009.
[129] I. S., Gradshteyn and I. M., Ryzhik. Table of Integrals, Series, and Products. Academic Press, New York, 1994.
[130] A., Graham. Kronecker Products and Matrix Calculus. Ellis Horwood Limited, Chichester, England, 1981.
[131] G., Grimmet and D. R., Stirzaker. Probability and Random Processes. Oxford University Press, 2001.
[132] P., Gupta and P. R., Kumar. The capacity of wireless networks. IEEE Transactions on Information Theory, 46(2):388–404, March 2000.
[133] M., Haenggi, J. G., Andrews, F., Baccelli, O., Dousse, and M., Franceschetti. Stochastic geometry and random graphs for the analysis and design of wireless networks. IEEE Journal on Selected Areas of Communication, 27, Sept. 2009.
[134] R.W., Hamming. Notes on digital coding. Bell System Technical Journal, 29:147–160, 1950.
[135] T., Han and K., Kobayashi. A new achievable rate region for the interference channel. IEEE Transactions on Information Theory, 27(1):49–60, 1981.
[136] Lajos L., Hanzo, T. H., Liew, and B. L., Yeap. Turbo Coding, Turbo Equalisation and Space-Time Coding. John Wiley & Sons, 2002.
[137] F. J., Harris. On the use of windows for harmonic analysis with the discrete Fourier transform. Proceedings of the IEEE, 66(1):51–83, Jan. 1978.
[138] R. V. L., Hartley. Transmission of information. Bell System Technical Journal, pages 535–563, July 1928.
[139] B., Hassibi and B. M., Hochwald. How much training is needed in multiple-antenna wireless links?IEEE Transactions on Information Theory, 49(4):951–963, April 2003.
[140] M., Hata. Empirical formula for propagation loss in land mobile radio services. IEEE Transactions on Vehicular Technology, 29(3):317–325, Aug. 1980.
[141] G. F., Hatke, K. W., Forsythe, A. L., McKellips, and T. T., Phuong. Space-time-frequency adaptive processor design for ultra-sparse apertures. IEEE Asilomar Conference on Signals, Systems and Computers, Oct. 2006.
[142] Simon, Haykin. Adaptive Filter Theory. Prentice Hall, Upper Saddle River, New Jersey, 1996.
[143] M., Herman, B., Miller, and J., Goodman. The cube coefficient subspace architecture for nonlinear digital predistortion. IEEE Asilomar Conference on Signals, Systems and Computers, pages 1857–1861, Oct. 2008.
[144] Heinrich, Hertz. Untersuchungen ueber die Ausbreitung der Elektrischen Kraft. Johann Ambrosius Barth, Leipzig, 1892.
[145] A., Hjorungnes and D., Gesbert. Complex-valued matrix differentiation: techniques and key results. IEEE Transactions on Signal Processing, 55(6):2740–2746, June 2007.
[146] Sungook, Hong. Wireless: from Marconi's Black-box to the Audion. Transformations. MIT Press, 2001.
[147] A. M., Hunter, J. G., Andrews, and S., Weber. Transmission capacity of ad hoc networks with spatial diversity. IEEE Transactions on Wireless Communications, 7(12), Dec. 2008.
[148] A. M., Hunter, J. G., Andrews, and S., Weber. Transmission capacity of ad hoc networks with spatial diversity. IEEE Transactions on Wireless Communications, 2009.
[149] A. M., Hunter, J., Andrews, and S., Weber. Transmission capacity of ad hoc networks with spatial diversity. Wireless Communications, IEEE Transactions, 7(12):5058–5071, 2008.
[150] IEEE. IEEE standard for information technology – telecommunications and information exchange between systems – local and metropolitan area networks – specific requirements – part 11: Wireless LAN medium access control (MAC) and physical layer (PHY) specifications. IEEE Std 802.11-1997, 1997.
[151] IEEE. IEEE standard for information technology – telecommunications and information exchange between systems – local and metropolitan area networks – specific requirements part 11: Wireless LAN medium access control (MAC) and physical layer (PHY) specifications amendment 5: Enhancements for higher throughput. IEEE Std 802.11n-2009 (Amendment to IEEE Std 802.11-2007 as amended by IEEE Std 802.11k-2008, IEEE Std 802.11r-2008, IEEE Std 802.11y-2008, and IEEE Std 802.11w-2009), 29 2009.
[152] IEEE. IEEE standard for information technology–telecommunications and information exchange between systems wireless regional area networks (WRAN)–specific requirements part 22: Cognitive wireless RAN medium access control (MAC) and physical layer (PHY) specifications: Policies and procedures for operation in the TV bands. IEEE Std 802.22-2011, pages 1–680, 1 2011.
[153] Joseph, Mitola III. Cognitive Radio Architecture: The Engineering Foundations of Radio XML. John Wiley & Sons, Hoboken, New Jersey, 2006.
[154] J. D., Jackson. Classical Electrodynamics. John Wiley & Sons, Hoboken, New Jersey, 1975.
[155] S. A., Jafar. Exploiting channel correlations – simple interference alignment schemes with no CSIT. IEEE Global Telecommunications Conference (GLOBECOM), pages 1–5, 2010.
[156] S. A., Jafar. Interference Alignment – A New Look at Signal Dimensions in a Communication Network. Now Publishing, 2011.
[157] Hamid, Jafarkhani. Space-Time Coding: Theory and Practice. Cambridge University Press, 2005.
[158] A. K., Jagannatham and B. D., Rao. Cramer–Rao lower bound for constrained complex parameters. IEEE Transactions on Signal Processing Letters, 11(11):875–878, Nov. 2004.
[159] Alan T., James. Distributions of matrix variates and latent roots derived from normal samples. The Annals of Mathematical Statistics, 35(2):pp. 475–501, 1964.
[160] Mohinder, Jankiraman. Space-Time Codes and MIMO Systems. Artech House, 2004.
[161] Z., Ji and K. J. R., Liu. Dynamic spectrum sharing: a game theoretical overview. IEEE Communications Magazine, 45(5):88–94, May 2007.
[162] Y., Jiang, J., Li, and W. W., Hager. Joint transceiver design for MIMO communications using geometric mean decomposition. IEEE Transactions on Signal Processing, 53(10):3791–3803, Oct. 2005.
[163] N., Jindal, J. G., Andrews, and S., Weber. Bandwidth partitioning in decentralized wireless networks. IEEE Transactions on Wireless Communications, 7(12):5408–5419, 2008.
[164] N., Jindal, J. G., Andrews, and S., Weber. Rethinking MIMO for wireless networks: linear throughput increases with multiple receive antennas. IEEE International Conference on Communications (ICC), June 2009.
[165] N., Jindal, J. G., Andrews, and S., Weber. Multi-antenna communication in ad hoc networks: Achieving mimo gains with simo transmission. Communications, IEEE Transactions, 59(2):529–540, 2011.
[166] Y., Jing and B., Hassibi. Distributed space-time coding in wireless relay networks. Wireless Communications, IEEE Transactions on, 5(12):3524–3536, 2006.
[167] J. B., Johnson. Thermal agitation of electricity in conductors. Physical Review, 32:97–109, Jul 1928.
[168] D., Jonsson. Some limit theorems for the eigenvalues of a sample covariance matrix. Journal of Multivariate Analysis, 12:1–38, 1982.
[169] R., Kahn. The organization of computer resources into a packet radio network. IEEE Transactions on Communications, 25(1):169–178, Jan. 1977.
[170] S., Karmakar and M. K., Varanasi. Capacity of the mimo interference channel to within a constant gap. In Information Theory Proceedings (ISIT), 2011 IEEE International Symposium on, pages 2193–2197, 31 2011–Aug. 5 2011.
[171] Alan F., Karr. Probability. Springer-Verlag, 1993.
[172] Steven M., Kay. Fundamentals of Statistical Signal Processing: Estimation Theory. Prentice Hall, Upper Saddle River, NJ, 1993.
[173] E. J., Kelly and K. W., Forsythe. Adaptive Detection and Parameter Estimation for Multidimensional Signal Models. Technical Report 848, M.I.T. Lincoln Laboratory, April, 1989.
[174] Maurice, Kendall and Alan, Stuart. The Advanced Theory of Statistics. Macmillan Publishing, New York, 1979.
[175] H. S., Kim and A. O., Hero. Comparison of GLR and invariant detectors under structured clutter covariance. IEEE Transactions on Image Processing, 10(10):1509–1520, Oct. 2001.
[176] A. N., Kolmogorov. Stationary sequences in Hilbert space. Bulletin of Moscow University, 2(6):1–40, 1941.
[177] G., Kramer. Outer bounds on the capacity of Gaussian interference channels. IEEE Transactions on Information Theory, 50(3):581–586, 2004.
[178] John Daniel, Kraus and Daniel A., Fleisch, editors. Electromagnetics with Applications, 5th Edition. McGraw-Hill, New York, 1999.
[179] S., Kraut, L. L., Scharf, and R. W., Butler. The adaptive coherence estimator: a uniformly most-powerful-invariant adaptive detection statistic. IEEE Transactions on Signal Processing, 53(2):427–438, February 2005.
[180] Erwin, Kreyszig. Advanced Engineering Mathematics. John Wiley & Sons, 2006.
[181] A. R., Kuruc. Lower bounds on multiple-source direction finding in the presence of direction-dependent antenna-array-calibration errors. Technical Report TR-799, MIT Lincoln Laboratory, Oct. 1989.
[182] E. G., Larsson. MIMO detection methods: How they work [lecture notes]. IEEE Signal Processing Magazine, 26(3):91–95, May 2009.
[183] E. G., Larsson and P., Stoica. Space-Time Block Coding for Wireless Communications. Space-Time Block Coding for Wireless Communications. Cambridge University Press, 2008.
[184] R. E., Learned, A. S., Willsky, and D. M., Boroson. Low complexity optimal joint detection for oversaturated multiple access communications. IEEE Transactions on Signal Processing, 45(1):113–123, Aug. 1997.
[185] T. H., Lee and A., Hajimiri. Oscillator phase noise: a tutorial. IEEE Journal of Solid-State Circuits, 35(3):326–336, March 2000.
[186] Tom, Lewis. Empire of the Air: The Men Who Made Radio. Edward Burlingame, 1991.
[187] Yingbin, Liang, A., Somekh-Baruch, H. V., Poor, S., Shamai, and S., Verdu. Capacity of cognitive interference channels with and without secrecy. IEEE Transactions on Information Theory, 55(2):604–619, Feb. 2009.
[188] J. C., Liberti and T. S., Rappaport. A geometrically based model for line-of-sight multipath radio channels. IEEE Vehicular Technology Conference, 2:844–848, April 1996.
[189] Joseph C., Liberti and Theodore S., Rappaport. Smart Antennas for Wireless Communications: IS-95 and Third Generation CDMA Applications. Prentice Hall, 1999.
[190] J., Lin, J. G., Proakis, F., Ling, and H., Lev-Ari. Optimal tracking of time-varying channels: a frequency domain approach for known and new algorithms. IEEE Journal on Selected Areas in Communications, 13(1):141–154, Jan. 1995.
[191] Shu, Lin and Daniel J., Costello. Error Control Coding. Prentice Hall, 2005.
[192] Yi-Bing, Lin and Imrich, Chlamtac. Wireless and Mobile Network Architectures. John Wiley & Sons, 2008.
[193] M., Loomis. Improvement in telegraphing, 1872. U.S. Patent 129,971.
[194] R. H. Y., Louie, M. R., McKay, and I. B., Collings. Open-loop spatial multiplexing and diversity communications in ad hoc networks. Information Theory, IEEE Transactions, 57(1):317–344, 2011.
[195] D. J., Love, R. W., Heath, V. K. N., Lau, D., Gesbert, B. D., Rao, and M., Andrews. An overview of limited feedback in wireless communication systems. IEEE Journal on Selected Areas in Communications, 26(8):1341–1365, Oct. 2008.
[196] D. J., Love and R. W., Heath Jr., Limited feedback unitary precoding for orthogonal space-time block codes. IEEE Transactions on Signal Processing, 53(1):64–73, 2005.
[197] D. J., Love and R. W., Heath Jr., Multimode precoding for MIMO wireless systems. IEEE Transactions on Signal Processing, 53(10):3674–3687, Oct. 2005.
[198] D. J., Love, R. W., Heath Jr., and T., Strohmer. Grassmannian beamforming for multiple-input multiple-output wireless systems. IEEE Transactions on Information Theory, 49(10):1341–1365, Oct. 2003.
[199] R. W., Lucky and H. R., Rudin. Generalized automatic equalization for communication channels. Proceedings of the IEEE, 54(3):439–440, March 1966.
[200] X., Ma, G. B., Giannakis, and S., Ohno. Optimal training for block transmissions over doubly selective wireless fading channels. IEEE Transactions on Signal Processing, 51(5):1351–1366, May 2003.
[201] Z., Ma, X., Wu, and W., Zhu. An ICI–free synchronization algorithm in MIMO OFDM system. 2nd International Symposium on Wireless Pervasive Computing, ISWPC, Feb. 2007.
[202] David J. C., MacKay. Information Theory, Inference, and Learning Algorithms. Cambridge University Press, 2003.
[203] U., Madhow. Fundamentals of Digital Communication. Cambridge University Press, 2008.
[204] Dimitris G., Manolakis and Vinay K., Ingle. Applied Digital Signal Processing: Theory and Practice. Cambridge University Press, Cambridge, 2011.
[205] Dimitris G., Manolakis, Vinay K., Ingle, and Stephen M., Kogon. Stastistical and Adaptive Signal Processing. Artech House, 2005.
[206] V. A., Marcenko and L. A., Pastur. Distribution of eigenvalues for some sets of random matrices. Mathematics of the USSR-Sbornik, 1(4), 1967.
[207] A. R., Margetts, K.W., Forsythe, and D.W., Bliss. Direct space-time GF(q) LDPC modulation. IEEE Asilomar Conference on Signals, Systems and Computers, Oct. 2006.
[208] H. K., Markey and G., Antheil. Secret communication system, 1942. U.S. Patent 2,292,387.
[209] T. L., Marzetta and B. M., Hochwald. Capacity of a mobile multiple-antenna communication link in Rayleigh fading. IEEE Transactions on Information Theory, 45:139–158, January 1999.
[210] A. M., Mathai. An Introduction to Geometrical Probability. Gordon and Breach, 1999.
[211] J. C., Maxwell. A dynamic theory of electromagnetic field. Philosophical Transactions of the Royal Society of London, 155:459–512, 1865.
[212] Robert J., McEliece. The Theory of Information and Coding. Encyclopedia of Mathematics and Its Applications. Cambridge University Press, 2002.
[213] Merriam-Webster, . The Merriam-Webster Dictionary. Perfection Learning, 2005.
[214] R. M., Metcalfe and D. R., Boggs. Ethernet: distributed packet switching for local computer networks. Communications of the ACM, 19:395–404, July 1976.
[215] R., Mhiri, D., Masse, and D., Schafhuber. Synchronization for a DVB-T receiver in presence of co-channel interference. IEEE International Symposium on Personal, Indoor and Mobile Radio Communications, pages 2307–2311, Sept. 2002.
[216] R. E., Miles. On the homogeneous planar Poisson point process. Mathematical Biosciences, 6:85–127, 1970.
[217] Kenneth S., Miller. Some Eclectic Matrix Theory. Robert E. Krieger Publishing, New York, 1987.
[218] Pratap, Misra and Per, Enge. Global Positioning System: Signals, Measurements, and Performance. Ganga-Jamuna Press, Hoboken, NJ, 2006.
[219] J., Mitola III and G. Q., Maguire Jr., Cognitive radio: making software radios more personal. IEEE Personal Communications, 6(4):13–18, Aug. 1991.
[220] Sanjit Kumar, Mitra. Digital Signal Processing: A Computer Based Approach. McGraw-Hill, New York, 2006.
[221] A. N., Mody and G. L., Stuber. Synchronization for MIMO OFDM systems. IEEE Global Telecommunications Conference (GLOBECOM), 1:509–513, 2001.
[222] A. F., Molisch, M. Z., Win, and J. H., Winters. Space-time-frequency (stf) coding for mimo-ofdm systems. Communications Letters, IEEE, 6(9):370–372, 2002.
[223] R. A., Monzingo and T. W., Miller. Introduction to Adaptive Arrays. John Wiley & Sons, New York, 1980.
[224] A. S., Motahari and A. K., Khandani. Capacity bounds for the Gaussian interference channel. IEEE Transactions on Information Theory, 55(2):620–643, 2009.
[225] J. C., Mundarath, P., Ramanathan, and B. D., Van Veen. A cross layer scheme for adaptive antenna array based wireless ad hoc networks in multipath environments. Wireless Networks, 13:597–615, October 2007.
[226] A.F., Naguib, V., Tarokh, N., Seshadri, and A.R., Calderbank. A space-time coding modem for high-data-rate wireless communications. Selected Areas in Communications, IEEE Journal, 16(8):1459–1478, 1998.
[227] J. R., Nash. Equilibrium points in n-person games. Proceedings of the National Academy of Sciences of the United States of America, 36(1):48–49, Jan. 1950.
[228] B., Nazer, S. A., Jafar, M., Gastpar, and S., Vishwanath. Ergodic interference alignment. IEEE International Symposium on Information Theory (ISIT), pages 1769–1773, 2009.
[229] A., Nehorai and E., Paldi. Vector-sensor array processing for electromagnetic source localization. IEEE Transactions on Signal Processing, 42(2):376–398, February 1994.
[230] David L., Nicholson. Spread Spectrum Signal Design: LPE and AJ Systems. Computer Science Press, New York, 1988.
[231] D., Niyato and E., Hossain. Market-equilibrium, competitive, and cooperative pricing for spectrum sharing in cognitive radio networks: analysis and comparison. IEEE Transactions on Wireless Communications, 7(11):4273–4283, Nov. 2008.
[232] A., Nuttall. Some integrals involving the qm function. IEEE Transactions on Information Theory, 21(1):95–96, Jan. 1975.
[233] H., Nyquist. Thermal agitation of electric charge in conductors. Physical Review, 32:110–113, July 1928.
[234] H., Ochiai, P., Mitran, H. V., Poor, and V., Tarokh. Collaborative beamforming for distributed wireless ad hoc sensor networks. IEEE Transactions on Signal Processing, 53(11):4110–4124, Nov. 2005.
[235] Atsuyuki, Okabe, Barry, Boots, Kokichi, Sugihara, and Sung Nok, Chiu. Spatial Tessellations. Concepts and Applications of Voronoi Diagrams. With a foreword by DG Kendall. John Wiley & Sons, Hoboken, New Jersey, 2000.
[236] B. M., Oliver. Thermal and quantum noise. Proceedings of the IEEE, 53(5):436–454, May 1965.
[237] E., Ollila, V., Koivunen, and J., Eriksson. On the Cramer–Rao for the constrained and unconstrained complex parameters. IEEE Sensor Array and Multichannel Signal Processing Workshop, pages 414–418, July 2008.
[238] Alan V., Oppenheim, Ronald W., Schafer, and John R., Buck. Discrete-Time Signal Processing. Prentice Hall, Upper Saddle River, NJ, 1999.
[239] H. C., Ørsted, K., Jelved, A. D., Jackson, and O., Knudsen. Selected Scientific Works of Hans Christian Ørsted. Princeton University Press, 1998.
[240] A., Ozgur, O., Leveque, and D., Tse. Hierarchical cooperation achieves optimal capacity scaling in ad-hoc networks. IEEE Transactions on Information Theory, 53(10):3549–3572, Oct. 2007.
[241] Athanasios, Papoulis and S. Unnikrishna, Pillai. Probability, Random Variables, and Stochastic Processes, 4th Edition. McGraw-Hill, New York, 2002.
[242] M., Park, S.-H., Choi, and S. M., Nettles. Cross-layer mac design for wireless networks using MIMO. IEEE Global Telecommunications Conference (GLOBECOM), 5:5 pp. –2874, Dec. 2005.
[243] P. A., Parker and D. W., Bliss. Outer bounds for the MIMO interference channel. IEEE Asilomar Conference on Signals, Systems and Computers, pages 1108–1112, Oct. 2008.
[244] P. A., Parker, P., Mitran, D. W., Bliss, and V., Tarokh. On bounds and algorithms for frequency synchronization for collaborative communication systems. IEEE Transactions on Signal Processing, 56(8):3742–3752, Aug. 2008.
[245] A. J., Paulraj and T., Kailath. Increasing capacity in wireless broadcast systems using distributed transmission/directional reception (dtdr), 1994. U.S. Patent 5,345,599.
[246] A. J., Paulraj and C. B., Papadias. Space-time processing for wireless communications. IEEE Signal Processing Magazine, 14(6):49–83, Nov. 1997.
[247] Arogyswami, Paulraj, Rohit, Nabar, and Dhananjay, Gore. Introduction to Space-Time Wireless Communications. Cambridge University Press, Cambridge, 2003.
[248] S. U., Pillai and C. S., Burrus. Array Signal Processing. Springer-Verlag, 1989.
[249] P., Pirenen. Cellular topology and outage evaluation for ds-uwb system with correlated lognormal multipath fading. The 17th Annual IEEE International Symposium on Personal, Indoor and Mobile Radio Communications, 2006.
[250] H. V., Poor. An Introduction to Signal Detection and Estimation. Springer-Verlag, 1994.
[251] H. V., Poor and G. W., Wornell. Wireless Communications: Signal Processing Perspectives. Prentice Hall, 1998.
[252] David M., Pozar. Microwave Engineering. John Wiley & Sons, Hoboken, New Jersey, 2005.
[253] N., Prasad and M. K., Varanasi. Outage theorems for MIMO block-fading channels. IEEE Transactions on Information Theory, 52(12):5284–5296, Dec. 2006.
[254] R., Price. and P. E., Green. A communication technique for multipath channels. Proceedings of the Institute of Radio Engineers, 46(3):555–570, March 1958.
[255] John G., Proakis. Digital Communications. McGraw-Hill, New York, 2001.
[256] John G., Proakis and Dimitris G., Manolakis. Digital Signal Processing. Pearson Prentice Hall, 2007.
[257] R. W., Heath Jr., and G. B., Giannakis. Exploiting input cyclostationarity for blind channel identification in OFDM systems. IEEE Transactions on Signal Processing, 47(3):848–856, March 1999.
[258] C., Rao and B., Hassibi. Analysis of multiple-antenna wireless links at low snr. IEEE Transactions on Information Theory, 50(9):2123–2130, Sept. 2004.
[259] P. B., Rapajic and D., Popescu. Information capacity of a random signature multiple-input multiple-output channel. IEEE Transactions on Information Theory, 48(8):1245–1248, Aug. 2000.
[260] T. S., Rappaport. Wireless Communications: Principles & Practice. Prentice Hall, 1996.
[261] Behzad, Razavi. RF Microelectronics. Pearson Education, 2011.
[262] Reinhold, Remmert. Theory of Complex Functions. Springer-Verlag, New York, 1991.
[263] C. D., Richmond. Mean squared error and threshold SNR prediction of maximum-likelihood signal parameter estimation with estimated colored noise covariances. IEEE Transactions on Information Theory, 52(5):2146–2164, May 2006.
[264] F., Rief. Fundamentals of Statistical and Thermal Physics. McGraw-Hill, New York, 1965.
[265] Gordon, Rottman. World War II Battlefield Communications. Osprey Publishing, Oxford, 2010.
[266] R., Roy and T., Kailath. ESPRIT-estimation of signal parameters via rotational invariance techniques. IEEE Transactions on Acoustics, Speech and Signal Processing, 37(7):984–995, July 1989.
[267] M., Sadek, A., Tarighat, and A. H., Sayed. A leakage-based precoding scheme for downlink multi-user MIMO channels. IEEE Transactions on Wireless Communications, 6(5), May 2007.
[268] H., Sampath, P., Stoica, and A., Paulraj. Generalized linear precoder and decoder design for MIMO channels using the weighted MMSE criterion. IEEE Transactions on Communications, 49(12):2198–2206, Dec. 2001.
[269] S., Sandhu, R., Heath, and A., Paulraj. Space-time block codes versus spacetime trellis codes. In Communications, 2001. ICC 2001. IEEE International Conference, volume 4, pages 1132–1136. IEEE, 2001.
[270] S., Sandhu and A., Paulraj. Space-time block codes: A capacity perspective. Communications Letters, IEEE, 4(12):384–386, 2000.
[271] I., Sason. On achievable rate regions for the Gaussian interference channel. IEEE Transactions on Information Theory, 50(6):1345–1356, June 2004.
[272] H., Sato. The capacity of the Gaussian interference channel under strong interference (corresp.). IEEE Transactions on Information Theory, 27(6):786–788, 1981.
[273] Ali H., Sayed. Adaptive Filters. John Wiley & Sons, Hoboken, New Jersey, 2008.
[274] A., Scaglione, P., Stoica, S., Barbarossa, G. B., Giannakis, and H., Sampath. Optimal designs for space-time linear precoders and decoders. IEEE Transactions on Signal Processing, 50(5):1051–1064, May 2002.
[275] Louis, Scharf and Cedric, Demeure. Statistical Signal Processing: Detection, Estimation, and Time Series Analysis. Addison-Wesley, Reading, MA, 1991.
[276] R. O., Schmidt. A signal subspace approach to multiple emitter location and spectral estimation. Ph.D. dissertation, Stanford University, 1981.
[277] P., Schniter. Low-complexity equalization of OFDM in doubly selective channels. IEEE Transactions on Signal Processing, 52(4):1002–1011, April 2004.
[278] R. A., Scholtz. The origins of spread-spectrum communications. IEEE Transactions on Communications, 30(5):822–854, May 1982.
[279] M., Schwartz. Edouard Branly, the coherer, and the Branly effect [history of communications]. IEEE Communications Magazine, 47(9):20–26, Sept. 2009.
[280] Mischa, Schwartz, William R., Bennett, and Seymour, Stein. Communication Systems and Techniques. McGraw-Hill, New York, 1966.
[281] X., Shang, B., Chen, G., Kramer, and H. V., Poor. Interference suppression in the presence of quantization errors. Allerton Conference on Communication, Control, and Computing, pages 700–707, Sept. 2008.
[282] X., Shang, B., Chen, G., Kramer, and H. V., Poor. Capacity regions and sumrate capacities of vector gaussian interference channels. IEEE Transactions on Information Theory, 56(10):5030–5044, Oct. 2010.
[283] Xiaohu, Shang, Biao, Chen, and Michael J., Gans. On the achievable sum rate for MIMO interference channels. IEEE Transactions on Information Theory, 52(9), September 2006.
[284] C. E., Shannon. A mathematical theory of communication. Bell System Technical Journal, 27:379–423, July 1948.
[285] D. F., Sievenpiper, D. C., Dawson, M. M., Jacob, T., Kanar, S., Kim, J., Long, and R. G., Quarfoth. Experimental validation of performance limits and design guidelines for small antennas. IEEE Transactions onAntennas and Propagation, 60(1):8–19, Jan. 2012.
[286] J. W., Silverstein. Eigenvalues and eigenvectors of large dimensional sample covariance matrices. Contemporary Mathematics, 50:153–159, 1986.
[287] Bernard, Sklar. Digital Communications: Fundamentals and Applications. Prentice Hall, 1988.
[288] S. T., Smith. Statistical resolution limits and the complexified Cramer–Rao bound. IEEE Transactions on Signal Processing, 53(5):1597–1609, May 2005.
[289] D. H., Staelin, D. W., Bliss Jr, D. A., Hinton, et al. Protocols for multi-antenna ad hoc wireless networking in interference environments. PhD thesis, Massachusetts Institute of Technology, 2010.
[290] D. H., Staelin, A. W., Morgenthaler, and J. A., Kong. Electromagnetic Waves. Prentice Hall Englewood Cliffs, NJ, 1994.
[291] William, Stallings. Data and Computer Communications. Pearson/Prentice Hall, 2007.
[292] A., Stefanov and T. M., Duman. Turbo coded modulation for wireless communications with antenna diversity. Proceedings of IEEE Vehicular Technology Conference, Amsterdam, 3:1565–1569, Sept. 1999.
[293] S., Stein. Unified analysis of certain coherent and noncoherent binary communications systems. IEEE Transactions on Information Theory, 10(1):43–51, Jan. 1964.
[294] Bernard D., Steinberg. Principles of Aperture and Array System Design: Including Random and Adaptive Arrays. John Wiley & Sons, New York, 1976.
[295] P., Stoica, E.G., Larsson, and A. B., Gershman. The stochastic CRB for array processing: a textbook derivation. IEEE Signal Processing Letters, 8(5):148–150, May 2001.
[296] P., Stoica and A., Nehorai. MUSIC, maximum likelihood, and Cramer–Rao bound. IEEE Transactions on Acoustics, Speech and Signal Processing, 37(5):720–741, May 1989.
[297] Petre, Stoica and Randolph, Moses. Introduction to Spectral Analysis. Prentice Hall, 1997.
[298] D., Stoyan, W. S., Kendall, and J., Mecke. Stochastic Geometry and Its Applications. John Wiley & Sons, Hoboken, New Jersey, 1995.
[299] Dietrich, Stoyan, Wilfrid S., Kendall, and Joseph, Mecke. Stochastic Geometry and Its Applications, 2nd Edition. John Wiley & Sons, 1995.
[300] P. D., Sutton, K. E., Nolan, and L. E., Doyle. Cyclostationary signatures in practical cognitive radio applications. IEEE Journal on Selected Areas in Communications, 26(1):13–24, Jan. 2008.
[301] T., Svantesson. A double-bounce channel model for multi-polarized MIMO systems. IEEE Vehicular Technology Conference, 2:691–695, Fall 2002.
[302] T., Svantesson and A. L., Swindlehurst. A performance bound for prediction of mimo channels. IEEE Transactions on Signal Processing, 54(2):520–529, Feb. 2006.
[303] A., Taherpour, M., Nasiri-Kenari, and S., Gazor. Multiple antenna spectrum sensing in cognitive radios. IEEE Transactions on Wireless Communications, 9(2):814–823, Feb. 2010.
[304] Tapan K., Sarkar et al. History of Wireless. John Wiley & Sons, Hoboken, New Jersey, 2006.
[305] V., Tarokh, H., Jafarkhani, and A. R., Calderbank. Space-time block codes from orthogonal designs. IEEE Transactions on Information Theory, 45(5):1456–1467, July 1999.
[306] V., Tarokh, A., Naguib, N., Seshadri, and A.R., Calderbank. Combined array processing and space-time coding. Information Theory, IEEE Transactions on, 45(4):1121–1128, 1999.
[307] V., Tarokh, N., Seshadri, and A. R., Calderbank. Space-time codes for high data rate wireless communication: performance criterion and code construction. IEEE Transactions on Information Theory, 44(2):744–765, March 1998.
[308] I. E., Telatar. Capacity of multi-antenna Gaussian channels. European Transactions on Telecommunications, 10(6):585–595, Nov.–Dec. 1999.
[309] N., Tesla. System of transmission of electrical energy, 1890. U.S. Patent 645,576.
[310] N., Tesla. On light and other high frequency phenomena. Record of Franklin Institute, 1893.
[311] S. C., Thompson, J. G., Proakis, and J. R., Zeidler. The effectiveness of signal clipping for PAPR and total degradation reduction in OFDM systems. IEEE Global Telecommunications Conference (GLOBECOM), 5:5 pp. –2811, Dec. 2005.
[312] H. L., Van Trees. Detection, Estimation, and Modulation Theory, Part I. John Wiley & Sons, New York, 1968.
[313] D., Tse and S., Hanly. Linear multiuser receivers: effective interference, effective bandwidth and user capacity. IEEE Transactions on Information Theory, 45(2):641–657, 1999.
[314] David, Tse and Pramod, Viswanath. Fundamentals of Wireless Communication. Cambridge University Press, Cambridge, 2005.
[315] Antonia M., Tulino and Sergio, Verdu. Random Matrix Theory and Wireless Communications. Now Publishers, 2004.
[316] G., Ungerboeck. Trellis-coded modulation with redundant signal sets part i: introduction. IEEE Communications Magazine, 25(2):5–11, Feb. 1987.
[317] G., Ungerboeck. Trellis-coded modulation with redundant signal sets part ii: state of the art. IEEE Communications Magazine, 25(2):12–21, Feb. 1987.
[318] A., van den Bos. A Cramer–Rao lower bound for complex parameters. IEEE Transactions on Signal Processing, 42(10), Oct. 1994.
[319] R., van Nee and R., Prasad. OFDM Wireless Multimedia Communications. Artech House, Boston, 2000.
[320] M. K., Varanasi, C. T., Mullis, and A., Kapur. On the limitation of linear MMSE detection. IEEE Transactions on Information Theory, 52(9):4282–4286, Sept. 2006.
[321] R., Vaze and R. W., Heath. Transmission capacity of ad-hoc networks with multiple antennas using transmit stream adaptation and interference cancellation. Information Theory, IEEE Transactions, 58(2):780–792, 2012.
[322] S., Verdu. Optimum multi-user signal detection. Ph.D. Thesis, Dept. of Electrical and Computer Engineering, University of Illinois, Aug. 1984.
[323] S., Verdu and S., Shamai (Shitz). Spectral efficiency of CDMA with random spreading. IEEE Transactions on Information Theory, 45(2):622–640, March 1999.
[324] Sergio, Verdu. Multiuser Detection. Cambridge University Press, Cambridge, 1998.
[325] E., Visotsky and U., Madhow. Space-time transmit precoding with imperfect feedback. IEEE Transactions on Information Theory, 47(6):2632–2639, Sept. 2001.
[326] P., Viswanath and D., Tse. Sum capacity of the vector gaussian broadcast channel and uplinkdownlink duality. IEEE Transactions on Information Theory, 49, August 2003.
[327] A., Viterbi. Error bounds for convolutional codes and an asymptotically optimum decoding algorithm. IEEE Transactions on Information Theory, 13(2):260–269, April 1967.
[328] A.J., Viterbi et al. CDMA: Principles of spread spectrum communication, volume 129. Addison-Wesley, 1995.
[329] M., Vu and V., Tarokh. Scaling laws of single-hop cognitive networks. IEEE Transactions on Wireless Communications, 8(8):4089–4097, Aug. 2009.
[330] Mai, Vu and A., Paulraj. MIMO wireless linear precoding. IEEE Signal Processing Magazine, 24(5):86–105, Sept. 2007.
[331] Branka, Vucetic and Jinhong, Yuan. Space-Time Coding. John Wiley & Sons, 2003.
[332] J. W., Wallace, Chan, Chen, and M. A., Jensen. Key generation exploiting MIMO channel evolution: Algorithms and theoretical limits. European Conference on Antennas and Propagation, (EuCAP), pages 1499–1503, March 2009.
[333] D., Wang and J., Zhang. Timing synchronization for MIMO OFDM WLAN systems. IEEE Wireless Communications and Networking Conference, pages 1177–1182, March 2007.
[334] X., Wang. Volumes of generalized unit balls. IMathematics Magazine, 78(5):390–395, Dec. 2005.
[335] X., Wang and H. V., Poor. Space-time multiuser detection in multipath CDMA channels. IEEE Transactions on Signal Processing, 47(9):2356–2374, Sept. 1999.
[336] J., Ward and R. T., Compton Jr., Improving the performance of a slotted ALOHA packet radio network with an adaptive array. IEEE Transactions on Communications, 40(2):292–300, Feb. 1992.
[337] J., Ward and R. T., Compton Jr., High throughput slotted ALOHA packet radio networks with adaptive arrays. IEEE Transactions on Communications, 41(3):460–470, March 1993.
[338] W. W., Ward. The NOMAC and Rake systems. Lincoln Laboratory Journal, 5(3):351–366, 1992.
[339] M., Wax and T., Kailath. Detection of signals by information theoretic criteria. IEEE Transactions on Acoustics, Speech and Signal Processing, 33(2):387–392, April 1985.
[340] S., Weber, X., Yang, J. G., Andrews, and G., de Veciana. Transmission capacity of wireless ad-hoc networks with outage constraints. IEEE Transactions on Information Theory, pages 4091–4102, Dec. 2005.
[341] H., Weingarten, Y., Steinberg, and S., Shamai (Shitz). The capacity region of the Gaussian multiple-input-multiple-output broadcast channel. IEEE Transactions on Information Theory, 52(9), Sept. 2006.
[342] E., Weinstein and A. J., Weiss. A general class of lower bounds in parameter estimation. IEEE Transactions on Information Theory, 34:338–342, March 1988.
[343] E. T., Whittaker and G. N., Watson. A Course of Modern Analysis. Cambridge University Press, Cambridge, 1927.
[344] B., Widrow and S. S., Haykin. Least-Mean-Square Adaptive Filters. John Wiley & Sons, Hoboken, New Jersey, 2003.
[345] B., Widrow and M. E., Hoff Jr.Adaptive switching circuits. Convention Record of IRE WESCON, 4:96–104, 1960.
[346] Norbert, Wiener. Extrapolation, Interpolation, and Smoothing of Stationary Time Series. John Wiley & Sons, New York, 1949.
[347] E. P., Wigner. Characteristic vectors of bordered matrices with infinite dimensions. Annals of Mathematics, 62(3):548, Nov. 1955.
[348] William H., Tranter, et al., editor. The Best of the Best: Fifty Years of Communications and Networking Research. John Wiley & Sons, Hoboken, New Jersey, 2007.
[349] J., Winters. On the capacity of radio communication systems with diversity in a Rayleigh fading environment. IEEE Journal on Selected Areas in Communications, 5(5):871–878, June 1987.
[350] J. H., Winters, J., Salz, and R. D., Gitlin. The capacity of wireless communication systems can be substantially increased by the use of antenna diversity. Proceedings of the 1st International Conference on Universal Personal Communications, pages 02.01/1–02.01/5, 1992.
[351] J. H., Winters, J., Salz, and R. D., Gitlin. The impact of antenna diversity on the capacity of wireless communication systems. IEEE Transactions on Communications, 42(234):1740–1751, 1994.
[352] W., Wirtinger. Zur formalen Theorie der Functionen von mehr complexen Vernderlichen. Mathematische Annalen, 97(1):357–375, 1927.
[353] P. W., Wolniansky, G. J., Foschini, G. D., Golden, and R. A., Valenzuela. V-BLAST: an architecture for realizing very high data rates over the rich-scattering wireless channel. IEEE International Symposium on Signals, Systems, and Electronics (ISSSE), pages 295–300, 1998.
[354] K. A., Woyach, A., Sahai, G., Atia, and V., Saligrama. Crime and punishment for cognitive radios. Allerton Conference on Communication, Control, and Computing, pages 236–243, Sept. 2008.
[355] John M., Wozencraft and Irwin Mark, Jacobs. Principles of Communication Engineering. John Wiley & Sons, New York, 1965.
[356] J., Yang and A. L., Swindlehurst. The effects of array calibration errors on DF-based signal copy performance. IEEE Transactions on Signal Processing, 43(11):2724–2732, Nov. 1995.
[357] S. F., Yau and Y., Bresler. A compact Cramer–Rao bound expression for parametric estimation of superimposed signals. IEEE Transactions on Signal Processing, 40(5):1226–1230, May 1992.
[358] T., Yucek and H., Arslan. A survey of spectrum sensing algorithms for cognitive radio applications. IEEE Communications Surveys & Tutorials, 11(1):116–130, 2009.
[359] A., Zanella, M., Chiani, and M. Z., Win. On the marginal distribution of the eigenvalues of Wishart matrices. IEEE Transactions on Communications, 57(4):1050–1060, April 2009.
[360] Ephraim, Zehavi. 8-PSK trellis codes for a Rayleigh channel. IEEE Transactions on Communications, 40(5):873–884, May 1992.
[361] L., Zheng and D., Tse. Optimal diversity-multiplexing tradeo. in multiple antenna fading channels. IEEE Asilomar Conference on Signals, Systems and Computers, Nov. 2001.
[362] L., Zheng and D. N. C., Tse. Diversity and multiplexing: a fundamental trade-off in multiple-antenna channels. IEEE Transactions on Information Theory, 49(5):1073–1096, May 2003.
[363] A., Zhu and T. J., Brazil. Behavioral modeling of RF power amplifiers based on pruned Volterra series. IEEE Microwave and Wireless Components Letters, 14(12):563–565, Dec. 2004.
[364] J., Zhu and S., Govindasamy. Performance of multi-antenna mmse receivers in non-homogenous poisson networks. In Communications (ICC), 2012 IEEE International Conference. IEEE, 2012.
[365] V. K., Zworykin. Television system, 1938. U.S. Patent 2,141,059.

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