Digital Signal Processing Reference
In-Depth Information
There is a significant amount of work needed for the evolution of the current wire-
less communications systems to accommodate the future demands. Ultrawideband,
MIMO, and multicarrier wireless communications are some of the technologies that are
being studied extensively. All of them have a common point: their capability to adapt the
changing radio channel conditions. Adaptation of multicarrier communications and
MIMO schemes has already gained some momentum. Adaptation algorithms for UWB
still need to be explored. The flexibility of UWB makes it very attractive for employing
successful adaptation schemes.
Acknowledgment
The author thanks T. YĆ¼cek for his help and the anonymous reviewers for their comments.
References
[1] S. Sampei. 1997.
Applications of digital wireless technologies to global wireless com-
munications
. Englewood Cliffs, NJ: Prentice Hall.
[2] T. Ikeda, S. Sampei, and N. Morinaga. 2000. TDMA-based adaptive modulation
with dynamic channel assignment for high-capacity communication systems.
IEEE Transactions on Communications
49:404-12.
[3] S. Nanda, K. Balachandran, and S. Kumar. 2000. Adaptation techniques in wire-
less packet data services.
IEEE Transactions on Communications
38:54-64.
[4] R. V. Nobelen, N. Seshadri, J. Whitehead, and S. Timiri. 1999. An adaptive radio
link protocol with enhanced data rates for GSM evolution.
IEEE Communications
Magazine
54-63.
[5] A. Furuskar, S. Mazur, F. Muller, and H. Olofsson. 1999. EDGE: Enhanced data
rates for GSM and TDMA/136 evolution.
IEEE Personal Communications Maga-
zine
6:56-66.
[6] S. Anderson, H. Dam, U. Forssen, J. Karlsson, F. Kronestedt, S. Mazur, and K.
J. Molnar. 1999. Adaptive antennas for GSM and TDMA systems.
IEEE Personal
Communications Magazine
6:74-86.
[7] W. C. Lee. 1995.
Mobile cellular telecommunications
. New York: McGraw-Hill.
[8] G. Pollini. 1996. Trends in handover design.
IEEE Communications Magazine
34:82-90.
[9] P. Bender, P. Black, M. Grob, R. Padavoni, N. Sindhushayana, and S. Viterbi. 2000.
CDMA/HDR: A bandwidth efficient high speed wireless data service for nomadic
users.
IEEE Communications Magazine
38:70-77.
[10] A. Jalali, R. Padovani, and R. Pankaj. 2000. Data throughput of CDMA-HDR: A
high efficiency-high data rate personal communication wireless system. In
Pro-
ceedings of the IEEE Vehicular Technology Conference
, Tokyo, vol. 3, pp. 1854-58.
[11] J. Holtzman. 2000. CDMA forward link waterfilling power control. In
Proceedings
of the IEEE Vehicular Technology Conference
, Tokyo, vol. 3, pp. 1663-67.
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