School of Electrical and Electronic Engineering
Newcastle University, Newcastle upon Tyne
NE1 7RU, United Kingdom.
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Last updated 9 February, 2012 © 2012 Newcastle University
Author(s): Sharif BS; Chester EG; Yi SJ; Liu R
Abstract: Data transmission over HF channels is subject to phenomena of dispersion, absorption and multiple paths. Performance may be improved by using orthogonal frequency division multiplexing spread spectrum (OFDM-SS) systems. In OFDM-SS systems, transmitting data over slowly varying multi-path channels, both intersymbol interference (ISI) and multiple-access interference (MAI) arise and should therefore be mitigated. Two adaptive nonlinear equalization architectures based on the minimum mean-square error (MMSE) criterion are proposed and examined over such channels. The first receiver architecture is for single-user detection (SUD) consisting of a multiple-layer feed-forward filter (ML-FFF) and a feedback filter (FBF). The ML-FFF acts as a multipath diversity combiner as well as canceller of precursor ISI and main-cursor MAI while the FBF acts as a canceller of post-cursor ISI. The second receiver architecture is for multiuser detection (MUD) where in addition to the first structure, it employs a centralized FBF (CFBF) for cancelling the MAI of previous symbols. Results indicate that an enhancement in capacity is obtained by the multi-user structure over the single-user structure. Additionally, it is demonstrated that both structures perform multipath energy combining (RAKE-like) when the delay spread is in excess of a symbol interval. (8 References).
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Dr Graeme Chester
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Professor Bayan Sharif
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School of Electrical and Electronic Engineering
Newcastle University, Newcastle upon Tyne
NE1 7RU, United Kingdom.
Email EEE Webmaster
Last updated 9 February, 2012 © 2012 Newcastle University