Advances in Coordinated Multi-Cell Multi-User MIMO Systems

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Reference [6] G. J. Foschini, K. Karakayali, and R. A. Valenzuela, “Coordinating multiple antenna cellular networks to achieve enormous spectral efficiency,” IEE Proceedings-Communications, vol. 153, no. 4, pp. 548 – 555, Aug. 2006. [7] S. Jing, D. N. C. Tse, J. B. Soriaga, J. Hou, J. E. Smee, and R. Padovani, “Multicell downlink capacity with coordinated processing,” EURASIP Journal on Wireless Communications and Networking, 2008. [8] H. Huang, M. Trivellato, A. Hottinen, M. Shafi, P. Smith, and R. Valenzuela, “Increasing downlink cellular throughput with limited network MIMO coordination,” IEEE Transactions on Wireless Communications, vol. 8, no. 6, Jun. 2009. [9] F. Richter, A. J. Fehske, and G. Fettweis, “Energy efficiency aspects of base station deployment strategies for cellular networks,” IEEE Vehicular Technology Conference Fall, Sep. 2009. [10] A. J. Fehske, P. Marsch, and G. P. Fettweis, “Bit per Joule efficiency of cooperating base stations in cellular networks,” IEEE GLOBECOM Workshops, Dec. 2010.
Reference [11] J. Salo, G. Del Galdo, J. Salmi, P. Kyosti, M. Milojevic, D. Laselva, and C. Schneider. (2005, Jan.) MATLAB implementation of the 3GPP Spatial Channel Model (3GPP TR 25.996). [Online]. Available: http://www.tkk.fi/ Units/Radio/scm [12] 3GPP, R1-110867, “CoMP with lower Tx power RRH in heterogeneous network,” NTT DOCOMO, Feb. 21-25, 2011. [13] L. Thiele, T. Wirth, M. Schellmann, Y. Hadisusanto, and V. Jungnickel, “MU- MIMO with localized downlink base station cooperation and downtilted antennas,” IEEE International Conference on Communications Workshops, pp. 1–5, 2009. [14] N. Jindal, “Antenna combining for the MIMO downlink channel,” IEEE Transactions on Wireless Communications, vol. 7, no. 10, pp. 3834–3844, Oct. 2008. [15] S. Fang, G. Wu, Y. Xiao, and S. Q. Li, “Multi-user MIMO linear precoding with grassmannian codebook,” International Conference on Communications and Mobile Computing, vol. 1, pp. 250–255, 2009
Page 1 and 2:
Advances in Coordinated Multi-Cell
Page 3 and 4:
Outline 1 Introduction to MIMO Ante
Page 5 and 6:
What happened in 1895?
Page 7 and 8:
1895 in Italy It is dangerous to pu
Page 9 and 10:
Wireless 101 The more things change
Page 11 and 12:
Some Milestones in Telecommunicatio
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Research Trends in Wireless Network
Page 15 and 16:
1. Introduction to MIMO Antenna Tec
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Diversity-Multiplexing Tradeoff •
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A Multiuser MIMO Scheduling System
Page 21 and 22:
Nakagami-m Fading Channel Which on
Page 23 and 24:
Page 25 and 26:
Some Diversity-Based MIMO Schemes
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A Closer Look for their Interplay D
Page 29 and 30:
ST/SC over Multiuser Scheduling Sys
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STBC over Multiuser Scheduling Syst
Page 33 and 34:
Main Point in Story 1 • Multiuser
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Issue for a Spatial Multiplexing-ba
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Page 39 and 40:
Effect of SWNSF Scheduling on min
Page 41 and 42:
Effect of SWNSF Scheduling on Other
Page 43 and 44:
Main Point in Story 2 Multi-User Sc
Page 45 and 46:
MIMO Broadcast Systems • MIMO ant
Page 47 and 48:
MIMO Broadcast Systems with Transmi
Page 49 and 50:
A Nonconformist (Why Not) Issue •
Page 51 and 52:
New Perspective: MIMO Broadcast Sys
Page 53 and 54:
Literature Survey on MU-MIMO Tx BD
Page 55 and 56:
Example of an MU-MIMO System with R
Page 57 and 58:
Sum Rate Comparison • Under simil
Page 59 and 60: Two Issues on channel information a
Page 61 and 62: Effects of Feedback CSI Variations
Page 63 and 64: Summary • The MU-MIMO with receiv
Page 65 and 66: 4. Multi-cell Network MIMO systems
Page 67 and 68: key Issues for Network MIMO 2nd-tie
Page 69 and 70: Basic Fractional Frequency Reuse (F
Page 71 and 72: Proposed Solution Coordinated group
Page 73 and 74: Benefit of Rearranged Frequency Par
Page 75 and 76: Benefit of Proposed Architecture ov
Page 77 and 78: Summary • By exploiting geographi
Page 79 and 80: 5. Updates of Network MIMO Techniqu
Page 81 and 82: LTE-A Key Technologies • Carrier
Page 83 and 84: Advanced MIMO Techniques in UL •
Page 85 and 86: R10 LTE-A Performance Improvement
Page 87 and 88: CoMP (Coordinated Multipoint Transm
Page 89 and 90: Coordinated Beamforming (CB) If the
Page 91 and 92: Mulit-Cell Co-operations Joint Proc
Page 93 and 94: NCTU has built a LTE-A System-Level
Page 95 and 96: NCTU LTE-A System-Level Simulator I
Page 97 and 98: Hierarchical Base Station Cooperati
Page 99 and 100: Spectral Efficiency for Calibration
Page 101 and 102: Spectral Efficiency for HBSC-M Syst
Page 103 and 104: Main Point in Story 5 LTE-A system-
Page 105 and 106: Future Research Directions • Chan
Page 107 and 108: References • C. J. Chen and Li-Ch
Page 109: Reference [1] TR 36.814 : 3rd Gener
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Advances in Coordinated Multi-Cell Multi-User MIMO Systems

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