EE 381V Advanced Wireless: Space-Time Communication
Fall 2005
Lecture 1. Introduction to Space-Time Communication.
[1-1] D. Gesbert, M. Shafi, D. Shiu, P. Smith, A. Naguib, 'From Theory to Practice: An Overview of MIMO Space-Time Coded Wireless Systems,' IEEE Journal on Select Areas in Communications, Vol. 21, No.3, pp.281-302, April 2003
Lecture 2. The MIMO discrete-time signal model. Narrowband, broadband, and MIMO-OFDM. Rayleigh channel model. Simple channel estimation.
[2-1] P. Kyritsi, A. Valenzuela, D. Cox, 'Channel and Capacity Estimation Errors,' IEEE Communications Letters, Vol.6, No.12, pp.517-519, Dec. 2002
Lecture 3,4. MIMO Information Theory.
[4-1] G. Foschini, M. Gans, 'On Limits of Wireless Communications in a Fading Environment when Using Multiple Antennas,' Wireless Personal Communicatinos, pp.311-335, 1998
[4-2] A. Goldsmith, S. Jafar, N. Jindal, S. Vishwanath, 'Capacity Limits of MIMO Channels,' IEEE Journal on Select Areas in Communications, Vol. 21, No. 5, pp.684-702, June 2003
Lecture 5. MIMO propogation channel modeling - physical channel models. SIMO, MISO, MIMO models. Uniform linear arrays. Ring Model. Guest lecture by Antonio Forenza
Lecture 6. MIMO propagation channel modeling - stochastic channel models. Correlated channels, line-of-sight channels, capacity performance, Guest lecture by Antonio Forenza
[6-1] D.Shiu, G. Foschini, M. Gans, J. Kahn, 'Fading Correlation and Its Effect on the Capacity of Multielement Antenna Systems,' IEEE Trans. on Communications, Vol. 48, No. 3, pp. 502-513, March, 2000
[6-2] K. Yu, B. Ottersten, 'Models for MIMO Propagation Channels, A Review,' Wiely Journal on Wireless Communications and Mobile Computing special Issue on Adaptive Antennas and MIMO Systems, July, 2002
[6-3] IEEE802.11n, 'TGnSync Channel Models,' May, 2004
[6-4] A. Forenza, D. J. Love, R. W. Heath, Jr., 'A Low Complexity Algorithm to Simulate the Spatial Covariance Matrix for Clustered MIMO Channels,.'in Proc. of IEEE Vehicular Tech. Conf. , vol. 2, pp. 889 - 893, May, 2004.
Lecture 7. Error probability analysis of space-time transmission with maximum likelihood receivers. Rank and determinant criteria.
[7-1] V. Tarokh, N. Seshadri, A. Calderbank, 'Space-Time Codes for High Data Rate Wireless Communicatino: Performance Criterion and Code Construction,' IEEE Trans. on. Information Theory, Vol. 44, No.2, pp.744-765, March 1998
Lecture 8. Single symbol space, time code, the Alamouti code.
[8-1] S. Alamouti, 'A Simple Transmit Diversity Technique for Wireless Communications,' IEEE Journal on Select Areas in Communications, Vol. 16, No. 8, Oct., 1998
Lecture 9. Orthogonal space-time
block codes - properties
[9-1] V. Tarokh, H. Jafarkhani, A. Calderbank,
'Space-Time Block Codes from Orthgonal
Designs,' IEEE Trans. on Information Theory, Vol.
45, No. 5, pp.1456-1467, July, 1999
Lecture 10. Quasi-orthogonal space-time
block codes. Delay diversity. Space-time trellis codes.
[10-1] H. Jafarkhani, 'A
Quasi-orthogonal Space-Time Block Code,' IEEE Trans.
on Communications, Vol. 49, pp. 1-4, Jan., 2001
[10-2] V. Tarokh, N. Seshadri, A. Calderbank,
'Space-Time Codes for High Data Rate
Wireless Communicatino: Performance Criterion and Code
Construction,' IEEE Trans. on. Information Theory,
Vol. 44, No.2, pp.744-765, March 1998
Lecture 11. Spatial multiplexing.
Suboptimal receivers.
[11-1] G. Foschini, 'Layered
Space-Time Architecture for Wireless Communication in a
Fading Environment When Using Multi-Element Antennas,'
Bell Labs Technical Journal, Autumn, 1996.
[11-2] X. Zhu, R. Murch, 'Performance
Analysis of Maximum Likelihood Detection in a MIMO Antenna
System,' IEEE Trans. on Communications, Vol.50,
No.2, Feb. 2002
[11-3] D. Wiibben, R. Bohnke, V. Kuhn, K. Kammeyer,
'Near-Maximum-Likelihood Detection of
MIMO Systems using MMSE-Based Lattice-Reduction', in
Proc. of IEEE ICC2004, 2004
[11-4] A. Burg, M. Borgmann, M. Wenk, M. Zellweger, W.
Fichtner, H. Bolcskei, 'VLSI Implementation of MIMO
Detection Using the Sphere Decoding Algorithm,' IEEE Journal
of Solid-state Circuits, Vo.40, Issue 7, pp. 1566-1577,
July, 2005
[11-5] R. W. Heath, Jr., S. Sandhu, A. J. Paulraj, 'Antenna
selection for spatial multiplexing systems with linear
receivers,' IEEE Communication Letters, vol. 5,
no. 4, pp. 142-144, April 2001.
Lecture 12. Linear dispersion codes.
[12-1] B. Hassibi, B. Hochwald, 'High-Rate Codes That Are Linear in Space and Time,
IEEE Trans. on Information Theory, Vol.48, No.7,
pp.1804-1824, July 2002
[12-2] R. W. Heath, A. Paulraj, 'Linear Dispersion Codes for MIMO Systems based on Frame
Theory,' IEEE Trans. on Signal Processing, Vol.
50, No. 10, pp.2429-2441, Oct. 2002
Lecture 13. Introduction to closed-loop
MIMO. TDD versus FDD. Types of feedback. Applications of
feedback.
[13-1] Calibration Techniques -
Sony, IEEE 802.11n, 2004
[13-2] Calibration Techniques -
Intel, IEEE802.11n, 2004
Lecture 14. Midterm
Lecture 15. Linear precoding for spatial
multiplexing. Precoder design criteria.
[15-1] A. Scaglione, P. Stoica, S. Barbarossa, G. B.
Giannakis, H. Sampath, 'Optimal
designs for space-time linear precoders and decoders,'
IEEE Trans. on Signal Processing, Vol. 50, Issue 5,
pp. 1051-1064, May, 2002
Lecture 16. Multiuser MIMO transmission,
linear precoding.
[16-1] Z. Pan, K. Wong, T. Ng,
'Generalized Multiuser Orthogonal Space-division
Multiplexing,' IEEE Trans. on Wireless Communications,
Vol. 3, pp. 1969-1973, Nov., 2004
[16-2] R. Chen, R. W. Heath, Jr., J. G. Andrews,
'Transmit Selection Diversity for Unitary Precoded Multiuser
Spatial Multiplexing Systems with Linear Receivers,'
IEEE Trans. on Signal Processing, 2005
Lecture 17. Adaptive Modulation in MIMO
Systems.
[17-1] S. Catreux, V. Erceg, D. Gesbert, and R. W. Heath
Jr., 'Adaptive modulation and MIMO
coding for broadband wireless data networks,' IEEE
Comm. Mag., vol. 2, pp. 108-115, June 2002
Lecture 18. Limited feedback MIMO.
Quantized precoding.
[18-1] R. W. Heath,Jr., S. Sandhu, and A. J. Paulraj,
'Antenna selection for spatial
multiplexing systems with linear receivers,' IEEE
Communication Letters, vol. 5, no. 4, pp. 142-144, April
2001.
[18-2] D. Gore, A. J. Paulraj, 'MIMO
Antenna Subset Selection with Space-Time Coding,' IEEE
Trans. on Signal Processing, Vol. 50, pp. 2580-2588,
Oct., 2002
[18-3] D. J. Love and R. W. Heath, Jr.,
'Limited Feedback Unitary Precoding
for Spatial Multiplexing,' IEEE Trans. on Infomation
Theory, vol. 51, no. 8, pp. 2967 - 2976, August 2005.
[18-4] D. J. Love, R. W. Heath, Jr., and T. Strohmer,
'Grassmannian Beamforming for
Multiple-Input Multiple-Output Wireless Systems,'
IEEE Trans. on Information Theory special issue on MIMO
Communication, vol. 49, pp. 2735-2747, Oct. 2003.
Lecture 19. Multi-mode precoding,
switching between multiplexing and diversity.
[19-1] R. W. Heath, Jr. and A. J. Paulraj,
'Switching Between Diversity and
Multiplexing in MIMO Systems,' IEEE Trans. on
Communications, vol. 53, no. 6, pp. 962-968, June 2005.
[19-2] D. J. Love and R. W. Heath, Jr.,
'Multimode Precoding for MIMO
Wireless Systems,' IEEE Trans. on Signal Processing,
vol. 53, no. 10, part 1, pp. 3674 - 3687, October 2005.
[19-3] R. W. Heath, Jr. and D. J. Love,
'Multi-Mode Antenna
Selection for Spatial Multiplexing with Linear Receivers,'
IEEE Trans. on Signal Processing, vol. 53, no. 8,
part 2, pp. 3042-3056, August 2005.
Lecture 20. Limited feedback MIMO-OFDM
systems.
[20-1] J. Choi, R. W. Heath, Jr.,
'Interpolation Based Transmit Beamforming for MIMO-OFDM with
Limited Feedback,' IEEE Trans. on Signal Processing,
Vol. 53, Issue. 11, Nov., 2005
[20-2] J. Choi, B. Mondal, R. W. Heath, Jr.,
'Interpolation Based Unitary Precoding for Spatial
Multiplexing MIMO-OFDM with Limited Feedback, IEEE
Trans. on Signal Processing, 2005
Lecture 21. Review of current standards, IEEE802.16e, IEEE802.11n, 3GPP LTE, WiMAX and other acronyms.
[21-1]
IEEE802.16e, 'Air Interface for Fixed
and Mobile Broadband Wireless Access Systems,' D10, Aug.
2005
[21-2] IEEE802.11n, 'TGnSync Proposal
v2.1,' 2004
Lecture 22. IEEE802.11n
Lecture 23. IEEE802.16e
[23-1] IEEE802.16, 'Part 16. Air
Interface for Fixed Broadband Wireless Access Systems,'
June, 2004
[23-2]
IEEE802.16e, 'Part 16. Air Interface for Fixed
and Mobile Broadband Wireless Access Systems,' D10, Aug.,
2005
Lecture 24. 3GPP LTE
Lecture 25. Advanced topic. Guest
lecture by Bishwarup Mondal
Others
Non coherent detection
[26-1] B. Hochwald, T. Marzetta, T. Richardson, W. Sweldens,
R. Urbanke, 'Systematic Design of
Unitary Space-Time Constellations,' IEEE Trans. on
Information Theory, Vol. 46, No. 6, pp. 1962-1973, Sep.
2000
[26-2] C.Hwang, S.Nam, J.Chung, V.Tarokh,
'Differential Space Time Block Codes
Using Noncoherent Modulus Constellations,' IEEE
Trans. on Signal Processing, Vol. 51, No. 11, pp.
2955-2965, Nov., 2003
Multi user MIMO system
[27-1] Q. Spencer, C. Peel, A. Lee, M. Haardt,
'An Introduction to the Multi-user
MIMO Downlink,' IEEE Communications Magazine,
Oct. 2004
[27-2] D. Samardzija, N. Mandayam, 'Multiple Antenna Transmitter Optimization Schemes for
Multiuser Systems,' in Proc. of IEEE Vehicular
Technology Conf. (VTC'2003 Fall), 2003
[27-3] B. Farhang, Q. Spencer, L. Swindlehurst,
'Layering Techniques for Space-Time
Communication in Multi-User Networks,' in Proc. of
IEEE Vehicular Technology Conf. (VTC'2003 Fall), 2003
[27-4] Q. Spencer, A. Swindlehurst, M. Haardt,
'Zero-Forcing Methods for Downlink
Spatial Multiplexing in Multiuser MIMO Channels,'
IEEE Trans. on Signal Processing, Vol. 52, No. 2,
pp.462-471, Feb. 2004
[27-5] T. Yoo, A. Goldsmith, 'Optimality of Zero-Forcing Beamforming with Multiuser
Diversity,' in Proc. of IEEE ICC2005, June, 2005
[27-6] H. Lee, M. Shin, C. Lee, 'An
Eigen-based MIMO Multiuser Scheduler with Partial Feedback
Information,' IEEE Com. Letters, Vol.9, No.4,
pp.328-330, April, 2005
[27-7] C. Peel, B. Hochwald, A. Swindelhurst,
'A Vector-Pertubation Technique for
Near-Capacity Multiantenna Multiuser Communication-Part I:
Channel Inversion and Regularization,' IEEE Trans.
on. Communications, Vol. 53, No.1, pp.195-202, Jan. 2005
[27-8] B. Hochwald, C. Peel,, A. Swindelhurst,
'A Vector-Pertubation Technique for
Near-Capacity Multiantenna Multiuser Communication-Part II:
Perturbation,' IEEE Trans. on. Communications,
Vol. 53, No.3, pp. 537-544, Jan. 2005
[27-9] C. Windpassinger, 'Lattice-Reduction-Aided Broadcast Precoding,' IEEE
Trans. on Communications, Vol.52, No.12, pp.2057-2060,
Dec. 2004
[27-10] M. Airy, A. Forenza, R. W. Heath, Jr., and S.
Shakkottai, 'Practical Costa
Precoding for the Multiple Antenna Broadcast Channel,'
in Proc. of IEEE Global Telecommunications Conf. , vol.
1, pp. 3942-3946, Dallas, TX, Nov. 29 - Dec. 3, 2004.
Cross-layer Optimization
[28-1] T.Tang, M. Park, R. W. Heath, Jr., S. Nettles, 'A
Joint MIMO-OFDM Transceiver and MAC Design for Mobile Ad Hoc
Networking', in Proc. of
International Workshop on Wireless Ad-Hoc Networks,
June, 2004.
MIMO BC/MAC capacity
[29-1] G. Caire, S. Shamai, 'On the
Achievable Throughput of a Multiantenna Gaussian Broadcast
Channel,' IEEE Trans. on. Information Theory,
Vol. 49, No. 7, pp. 1691-1706, July 2003
[29-2] C. Peel, 'On "Dirty-Paper
Coding",' IEEE Signal Processing Magazine, May
2003
[29-3] S. Vishwanath, A. Goldsmith, 'On the Duality of
Gaussian Multiple-Access and Broadcast Channels,' IEEE
Trans. on Information Theory, Vol. 50, Issue 5, pp.
768-783, May, 2004
[29-4] P. Viswanath, D. Tse, 'Sum
capacity of the vector Gaussian broadcast channel and
uplink-downlink duality,' IEEE Trans. on Information
Theory, Vol. 49, Issue 8, pp. 1912-1921, Aug. 2003
[29-5] N. Jindal, 'MIMO Broadcast
Channels with Finite Rate Feedback,' in Prof. of IEEE
ISIT2005, 2005
[29-6] N. Jindal, A. Goldsmith, 'Dirty-Paper Coding Versus TDMA for MIMO Broadcast
Channels,' IEEE Trans. on. Information Theory,
Vol. 51, No. 5, pp.1783-1794, May 2005
[29-7] N. Jindal, W. Rhee, S. Vishwanath, S. Jafar, A.
Goldsmith, 'Sum Power Iterative
Water-Filling for Multi-Antenna Gaussian Broadcast
Channels,' IEEE Trans. on Information Theory,
Vol. 51, No. 4, pp. 1570-1580, April 2005
Scheduler in MIMO Systems
[30-1] P. Viswanath, D. Tse, R. Laroia,
'Opportunistic beamforming using dumb
antennas,' IEEE Trans. on Information Theory,
Vol. 48, Issue 6, pp. 1277-1294, June, 2002
[30-2] S. Hwang, Y. Lee, 'Multi-beam Multiplexing using Multiuser Diversity and
Random Beams in Wireless Systems,' in Proc. of IEEE
ICC'05, 2005
[30-3] M.Airy, S. Shakkottai, R. W. Heath, Jr.,
'Spatially Greedy Scheduling in
Multi-User MIMO Systems,' IEEE Asilomar Conf. on
Signals, Systems, and Computers, Nov., 2003.
[30-4] M.Airy, S. Bhadra, S. Shakkottai, R. W. Heath, Jr., "Scheduling
for Multi-User Multi-Server Networks", 13th INFORMS
Applied Probability Conference, July 2005.
LDPC MIMO
[31-1] B. Lu, G. Yue, X. Wang, 'Performance Analysis and Design Optimization of LDPC-Coded
MIMO OFDM Systems,' IEEE Trans. on Signal Processing,
Vol. 52, No. 2, pp.348-361, Feb. 2004
HE(Horizontal Encoded) MIMO
[32-1] S. Chung, A. Lozano, H. Huang, 'Approaching Eigenmode BLAST Channel Capacity Using V-BLAST
with Rate and Power Feedback,' in Proc. of IEEE
Vehicular Technology Conf. (VTC'2001 Fall), vol.2, pp.
915-919, Oct. 2001
Mathematics
[33-1] A. Edelman, 'Eigenvalues and
Condition Numbers of Random Matrices,' MIT Ph.D
Dissertation, May 1989
