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Ahmed, Zahoor; Cances, JP; Meghdadi, V
Publisher: Springer Nature
Journal: EURASIP Journal on Wireless Communications and Networking
Languages: English
Types: Article
Subjects: Signal Processing, Computer Networks and Communications, Computer Science Applications
  • The results below are discovered through our pilot algorithms. Let us know how we are doing!

    • 1. E Biglieri, R Calderbank, A Goldsmith, A Yaswami, A Paulraj, H Vincent Poor, MIMO Wireless Communications (Cambridge University Press, New York, 2007)
    • 2. G Tsoulos, MIMO System Technology for Wireless Communications (CRC Press, New York, 2006)
    • 3. D Gesbert, M Shafi, D Shiu, PJ Smith, A Naguib, From theory to practice: an overview of MIMO space time coded wireless system. IEEE J Sel Commun. 21(3), 281-302 (2003). doi:10.1109/JSAC.2003.809458
    • 4. A Sendonaris, E Erkip, B Aazhang, User cooperative diversity. Part-I. System description. IEEE Trans Commun. 51(11), 1927-1938 (2003). doi:10.1109/ TCOMM.2003.818096
    • 5. Y Li, X-G Xia, Full diversity distributed space time trellis codes for asynchronous cooperative communication in ISIT, Adelaide, SA 911-915 (2005)
    • 6. Y Li, X-G Xia, A family of distributed space-time trellis codes with asynchronous cooperative diversity. IEEE Trans Commun. 55(4), 790-800 (2007)
    • 7. MO Damen, AR Hammons, Delay tolerant distributed TAST codes for cooperative diversity. IEEE Trans Inf Theory. 53(10), 3755-3773 (2007)
    • 8. Y Mei, Y Hua, A Swami, B Daneshrad, Combating synchronization errors in cooperative relays, Proc IEEE International Conference on Acoustic, Speech, and Signal Processing, Philadelphia, PA, USA, (1) 1-6 (2005)
    • 9. Y Shang, X-G Xia, Limited-shift-full-rank matrices with applications in asynchronous cooperative communications. IEEE Trans Inf Theory. 53(11), 4119-4126 (2007)
    • 10. H El Gamal, MO Damen, Universal space-time coding. IEEE Trans Inf Theory. 49(5), 1097-1119 (2003). doi:10.1109/TIT.2003.810644
    • 11. M Torbatian, M Oussama, On the design of delay tolerant distributed space time codes with minimum length. IEEE Trans Wirel Commun. 8(2), 931-939 (2009)
    • 12. TM Cover, AA El Gamal, Capacity theorems for the relay channel. IEEE Trans Inf Theory. 25(5), 572-584 (1979). doi:10.1109/TIT.1979.1056084
    • 13. AR Hammons Jr, RE Conklin Jr, Space-time block codes for quasisynchronous cooperative diversity, in Proc Military Communications Conf (MILCOM), Washington, DC 1-7 (October 2006)
    • 14. V Tarokh, N Seshadri, AR Calderbank, Space-time codes for high data rate wireless communication: performance criterion and code construction. IEEE Trans Inf Theory. 44(2), 744-765 (1998). doi:10.1109/18.661517
    • 15. AR Hammons Jr, Algebraic space-time codes for quasi-synchronous cooperative diversity. in Proc IEEE Int Conf Wireless Networks, Communications and Mobile Computing (WirelessCom 2005) vol. 1, 11-15 (June 2005)
    • 16. F Oggier, J-C Belfiore, E Viterbo, Cyclic Division Algebras: A Tool for SpaceTime Coding now (Boston 2007)
    • 17. GJ Foschini, Layered space time architecture for wireless communication in fading environment when using multiple antennas. Bell Labs Technol 41-59 (1996)
    • 18. H Gamal, AR Hammon, A new approach to layered space time coding and signal processing. IEEE Trans Inf Theory. 47(6), 2321-2334 (2001). doi:10.1109/18.945250
    • 19. MO Damen, KA Meraim, JC Belfiore, Diagonal algebraic space time block codes. IEEE Trans Inf Theory. 48(3), 628-636 (2002). doi:10.1109/18.985979
    • 20. MO Damen, HE Gamal, NC Beaulieu, Systematic construction of full-diversity algebraic constellations. IEEE Trans Inf Theory. 49(12), 3344-3349 (2003). doi:10.1109/TIT.2003.820024
    • 21. AD Murugan, H El Gamal, MO Damen, G Caire, A unified framework for tree search decoding: rediscovering the sequential decoder. IEEE Trans Inf Theory. 52(3), 933-953 (2006)
    • 22. MO Damen, H El Gamal, G Caire, On maximum-likelihood detection and the search for the closest lattice point. IEEE Trans Inf Theory. 49(10), 2389-2401 (2003). doi:10.1109/TIT.2003.817444
    • 23. JC Belfiore, G Rekaya, E Viterbo, The golden code: a 2 × 2 full-rate spacetime code with nonvanishing determinants. IEEE Trans Inf Theory. 51(4), 310-310 (2005)
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