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Channel capacity in evenly correlated Rayleigh fading with different adaptive transmission schemes and maximal ratio combining

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2 Author(s)

Mallik, R.K. ; Dept. of Electr. Eng., Indian Inst. of Technol., Delhi, India ; Win, M.Z.

We present closed-form expressions for the single-user capacity over slow nonselective correlated Rayleigh fading channels having equal branch powers and the same correlation between any pair of branches. Maximal ratio combining (MRC) is used and three adaptive transmission schemes are analyzed: (1) optimal simultaneous power and rate adaptation, (2) optimal rate adaptation with constant transmit power, (3) channel inversion with fixed rate

Published in:
Information Theory, 2000. Proceedings. IEEE International Symposium on

Date of Conference: 2000

Meeting Date :: 25 Jun 2000-30 Jun 2000
Print ISBN:: 0-7803-5857-0
INSPEC Accession Number:: 6794275

Conference Location :: Sorrento
Digital Object Identifier :: 10.1109/ISIT.2000.866710
Product Type:: Conference Publications

Author(s)

Mallik, R.K.
Dept. of Electr. Eng., Indian Inst. of Technol., Delhi, India
Win, M.Z.

INSPEC: CONTROLLED INDEXING

Rayleigh channels

adaptive systems

channel capacity

correlation methods

diversity reception

INSPEC: NON CONTROLLED INDEXING

MRC

adaptive transmission

channel capacity

closed-form expressions

constant transmit power

equal branch powers

evenly correlated Rayleigh fading

fixed rate channel inversion

maximal ratio combining

optimal rate adaptation

optimal simultaneous power adaptation

single-user capacity

slow nonselective fading channels

IEEE TERMS

Bandwidth

Channel capacity

Closed-form solution

Digital modulation

Diversity reception

Fading

Probability density function

Rayleigh channels

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