© 2002 IEEE. Personal use of this material is permitted. However, permission to reprint/republish this material for advertising or promotional purposes or for creating new collective works for resale or redistribution to servers or lists, or to reuse any copyrighted component of this work in other works must be obtained from the IEEE.

IEEE Transactions on Wireless Communications
Volume 1 Number 1, January 2002

Table of Contents for this issue

Complete paper in PDF format

Joint Transmitter Receiver Diversity for Efficient Space Division Multiaccess

Jae-Hwan Chang, Student Member, IEEE Leandros Tassiulas, Member, IEEE and Farrokh Rashid-Farrokhi Member, IEEE

Page 16.

Abstract:

Beamforming problem is studied in wireless networks where both transmitters and receivers have linear adaptive antenna arrays. Algorithms are proposed that find antenna array weight vectors at both transmitters and receivers as well as the transmitter powers with one of the following two objectives: 1) to maximize the minimum signal-to-interference-and-noise ratio (SINR) over all receivers and 2) to minimize the sum of the total transmitted power satisfying the SINR requirements at all links. Numerical study is performed to compare the network capacity and the power consumption among systems having different number of antenna array elements in a code division multiple access network.

References

  1. G. J. Foschini and Z. Miljanic, "A simple distributed autonomous power control algorithm and its convergence", IEEE Trans. Veh. Technol., vol. 42, pp.  641-646, Nov.  1993.
  2. S. V. Hanly, "An algorithm for combined cell-site selection and power control to maximize cellular spread spectrum capacity", IEEE J. Select. Areas Commun., vol. 13, pp.  1332-1340, Sept.  1995 .
  3. R. A. Monzingo and T. W. Miller, Introduction to Adaptive Arrays, New York: Wiley, 1980.
  4. A. Naguib, A. Paulraj and T. Kailath, "Capacity improvement with base-station antenna arrays in cellular CDMA", IEEE Trans. Veh. Technol., vol. 43, pp.  691-698,  Aug.  1994.
  5. E. Perahia and G. Pottie, "Adaptive antenna arrays and equalization for indoor digital radio", in Proc. Int. Conf. Communications, Dallas, TX, June 1996, pp.  592-596. 
  6. G. G. Raleigh and V. K. Jones, "Adaptive antenna of transmission for frequency duplex digital wireless communication", in Proc. Int. Conf. Communications , Montreal, Canada,June 1997, pp.  641-646. 
  7. F. Rashid-Farrokhi, K. J. R. Liu and L. Tassiulas, "Transmit and receive diversity and equalization in wireless networks with fading channels", in Proc. IEEE Global Communications Conf., Nov. 1997, pp.  1193-1198. 
  8. F. Rashid-Farrokhi, L. Tassiulas and K. J. R. Liu, "Joint power control and beamforming for capacity improvement in wireless networks with antenna arrays", in Proc. IEEE Global Communications Conf., Nov. 1996, pp.  555-559. 
  9. F. Rashid-Farrokhi, L. Tassiulas and K. J. R. Liu, "Transmit beamforming for cellular wireless communications", in Conf. Information Sciences and Systems, Mar. 1997, pp.  92-97. 
  10. F. Rashid-Farrokhi, L. Tassiulas and K. J. R. Liu, "Joint optimal power control and beamforming in wireless networks using antenna arrays", IEEE Trans. Commun., vol. 46, pp.  1313-1324, Oct.  1998.
  11. F. Rashid-Farrokhi, K. J. R. Liu and L. Tassiulas, "Transmit beamforming and power control for cellular wireless systems", IEEE J. Select. Areas Commun., vol. 16, pp.  1437-1450, Oct.  1998.
  12. B. Suard, A. Naguib, G. Xu and A. Paulraj, "Performance analysis of CDMA mobile communication systems using antenna array", in Proc. Int. Conf. Acoustics, Speech and Signal Processing, vol. IV, Minneapolis, MN, Apr. 1993, pp.  153-156. 
  13. J. Zander, "Distributed cochannel interference control in cellular radio systems", IEEE Trans. Veh. Technol., vol. 41, pp.  305-311,  Aug.  1992.
  14. J. Zander, "Performance of optimum transmitter power control in cellular radio systems", IEEE Trans. Veh. Technol., vol. 41, pp.  57-62, Feb.  1992.