TR2004-069
Downlink Capacity of Interference-Limited MIMO Systems with Joint Detection
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- "Downlink Capacity of Interference-Limited MIMO Systems with Joint Detection", IEEE Transactions on Wireless Communications, Vol. 3, No. 2, pp. 442-453, March 2004.BibTeX TR2004-069 PDF
- @article{Dai2004mar,
- author = {Dai, H. and Molisch, A.F. and Poor, H.V.},
- title = {Downlink Capacity of Interference-Limited MIMO Systems with Joint Detection},
- journal = {IEEE Transactions on Wireless Communications},
- year = 2004,
- volume = 3,
- number = 2,
- pages = {442--453},
- month = mar,
- issn = {1536-1276},
- url = {https://www.merl.com/publications/TR2004-069}
- }
,
- "Downlink Capacity of Interference-Limited MIMO Systems with Joint Detection", IEEE Transactions on Wireless Communications, Vol. 3, No. 2, pp. 442-453, March 2004.
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Research Area:
Abstract:
The capacity of downlink cellular multiple-input multiple-output (MIMO) systems, where co-channel interference is the dominant channel impairment, is investigated in this paper, mainly from a signal-processing perspective. Turbo space-time multiuser detection (ST MUD) is employed for intracell communications and is shown to closely approach the ultimate capacity limits in Gaussian ambient noise for an isolated cell. Then, it is combined with various multiuser detection methods for combating intercell interference. Among various multiuser detection techniques examined, linear minimum-mean-square-error (MMSE)MUD and successive interference cancellation are shown to be feasible and effective. Baased on these two multiuser detection schemes, one of which may outperform the other for difference settings, an adaptive detection scheme is developed, which together with a Turbo ST MUD structure offers substantial performance gain over the well-known V-BLAST techniques with coding in this interference-limited cellular environment. The obtained multiuser capacity is excellent in the high to medium signal-to-interference ratio scenario. Nonetheless, numerical results also indicate that a further increase in system complexity, using base-station cooperation, could lead to further significant increases of the system capacity. the asympotic multicell MIMO capacity with linear MMSE MUD preprocessing is also derived, and this analysis agrees well with the simulation results.
Related News & Events
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NEWS IEEE Transactions on Wireless Communications: publication by MERL researchers and others Date: March 31, 2004
Where: IEEE Transactions on Wireless Communications
Research Area: CommunicationsBrief- The article "Downlink Capacity of Interference-Limited MIMO Systems with Joint Detection" by Dai, H., Molisch, A.F. and Poor, H.V. was published in IEEE Transactions on Wireless Communications.