Cancellation systems for multicarrier transceiver arrays

Details Cancellation systems for multicarrier transceiver arrays Cancellation systems for multicarrier transceiver arrays

2006-08-15

2006-08-15

Ho, Duc (Department: 2616)

Multiplex communications

Generalized orthogonal or special mathematical techniques

Fourier transform

C370S225000

Reexamination Certificate

active

07092352

ABSTRACT:
Frequency-dependent cancellation separates a plurality of interfering signals received by a plurality of receivers. Received wideband single-carrier signals or multicarrier signals are separated into a plurality of narrowband subcarriers. Sub-carrier frequencies and frequency-band characteristics may be selected with respect to channel characteristics (e.g., coherence bandwidth, interference, etc.). A cancellation circuit provides complex weights to the sub-carrier components. Weighted components associated with each sub-carrier frequency are combined to separate a plurality of interfering signals. Optionally, a plurality of the separated subcarriers may be combined to reconstruct at least one transmitted single-carrier signal from a plurality of frequency components. Combining may include decoding, such as to reconstruct a coded sequence of data symbols transmitted via direct-sequence coding, code division multiple access (CDMA), multicarrier CDMA, carrier interferometry (CI), CI coding, or coded orthogonal frequency division multiplexing.

REFERENCES:
patent: 6538436 (2003-03-01), Simola et al.
patent: 2001/0019264 (2001-09-01), Shattil
patent: 2002/0191535 (2002-12-01), Sugiyama et al.
patent: 2004/0213146 (2004-10-01), Jones et al.
J.H. Park, Jr., “Optimum Signal Processing For Adaptive Arrays with Broadband Signals and Interferers”, National Telecom. Conf., Nov.-Dec. 1985, vol. 2, pp. C7.6.1-C7.6.5.
J.H. Winters, “On the Capacity of radio communication systems with diversity in a rayleigh fading environment,” IEEE J. Sel. Areas Comm., vol. SAC-2, pp. 871-878, Jun. 1987.
P. Balaban, “Dual diversity combining and equalization in digital cellular mobile radio,” Vehicular Technology, IEEE Transactions on vol. 40, Issue 2, May 1991, pp. 342-354.
R.D. Gitlin et al., “The Capacity of Wireless Communication Systems Can Be Substantially Increased By The Use of Antenna Diversity”, Proc. First International Conference on Universal Personal Communications, Sep. 29-Oct. 2, 1992, Dallas, Tx, pp. 28-32.
P. Balaban et al., “Optimum diversity combining and equalization in data transmission with application to cellular mobile radio—Part I: Theoretical considerations,” IEEE Trans. Commun., vol. 40, pp. 885-894, May 1992.
J.G.Proakis, “Adaptive equalization for TDMA digital mobile radio,” IEEE Trans. Veh. Technol., vol. 40, pp. 333-341, May 1991.
A.Wittneben, “A new bandwidth efficient transmit antenna modulation diversity scheme for linear digital modulation,” in Proc. IEEE ICC'93 Geneva, Switzerland, vol. 3, 1993, pp. 1630-1634.
V.Weerackody, “Diversity for the direct-sequence spread spectrum system using multiple transmit antennas,” in Proc. ICC'93 Geneva, Switzerland, vol. III, May 1993, pp. 1503-1506.
J. Yang et al., “A digital Rayleigh fade compensation technology for coherent OQPSK system,” in Proc. IEEE VTC'90 Orlando, FL, May 1990, pp. 732-737.
A. Aghamohammadi, et al., “A new method for phase synchronization and automatic gain control of linearly modulated signals on frequency-flat fading channel,” IEEE Trans. Commun., vol. 39, pp. 25-29, Jan. 1991.
N. Jablon, “Adaptive beamforming with the generalized sidelobe canceller in the presence of array imperfections,” Antennas and Propagation, IEEE Transactions on vol. 34, Issue 8, Aug. 1986 pp. 996-1012.
R.S. Cheng, et al., “Capacity of root-mean-square bandlimited Gaussian multiuser channels,” Information Theory, IEEE Transactions on vol. 37, Issue 3, Part: 2, May 1991, pp. 453-465.
R.S. Cheng, et al., “Gaussian multiaccess channels with ISI: capacity region and multiuser water-filling,” Information Theory, IEEE Transactions on vol. 39, Issue 3, May 1993, pp. 773-785.
J.H.Winters, et al., “Adaptive Antennas for Digital Mobile radio,” Adaptive Antenna Systems Symposium, 1992, Proceedings of the IEEE Long Island Section, Nov. 1992, pp. 81-86.
J. Salz, et al., “Effect of fading correlation on adaptive arrays in digital wireless communications,” Communications, 1993. ICC 93. Geneva. Technical Program, Conference Record, IEEE International Conference, vol. 3, May 23-26, 1993, pp. 1768-1774.
A. Dembo et al., “On the least squares tap adjustment algorithm in adaptive digital echo cancellers,” Communications, IEEE Transactions on vol. 38, Issue 5, May 1990, pp. 622-628.
J.H. Winters, “Optimum Combining in Digital Mobile Radio with Cochannel Interference,” IEEE Journ.-Selected Areas in Comm., vol. Sac-2, No. 4, Jul. 1984, pp. 528-539.
J.Winters, “Optimum Combining for Indoor Radio Systems with Multiple Users,” Communications, IEEE Transactions on vol. 35, Issue 11, Nov. 1987, pp. 1222-1230.
L.J. Cimini, Jr., “Analysis and simulation of a digital mobile channel using orthogonal frequency division multiplexing,” 1985, IEEE, vol. 33, No. 7, pp. 665-675.
G. Forney, “Maximum-likelihood sequence estimation of digital sequences in the presence of intersymbol interference,” 1972, IEEE Trans. Inform. Theory, vol. IT-18(3), pp. 363-378.
A. Duel-Hallen, “Equalizers for multiple input multiple output channels and PAM systems with cyclostationary input sequences,” 1992, IEEE Journal of Sel. Areas in Comm., vol. 10(3), pp. 630-639.

Affiliated with

Also associated with

Rating

Cancellation systems for multicarrier transceiver arrays does not yet have a rating. At this time, there are no reviews or comments for this patent.

If you have personal experience with Cancellation systems for multicarrier transceiver arrays, we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Cancellation systems for multicarrier transceiver arrays will most certainly appreciate the feedback.

Rate now

Comments { 0 }

Profile ID: LFUS-PAI-O-3703235