Computationally efficient methods for blind decision feedback equalization of QAM signals |
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| Authors: | Kevin Esam Mohammed A.S. |
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| Affiliation: | aDepartment of Electrical and Computer Engineering, University of Toronto, 10 King's College Road, Toronto, Ont., Canada M5S 3G4;bDepartment of Electrical and Computer Engineering, 401 Sunset Avenue, Windsor, Ont., Canada N9B 3P4 |
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| Abstract: | This paper investigates computationally efficient methods for blind decision feedback equalization (DFE) that reduce the complexity and power requirements of blind equalization algorithms while maintaining their steady-state characteristics for quadrature amplitude modulation (QAM) signals. These include the power-of-two error (POT), selective coefficient update (SCU), and frequency-domain block (FDB) methods. A novel radius-directed stop-and-go (RSG) method is introduced, which selectively adjusts the equalizer tap coefficients based on the equalizer output radius. In addition, a new activation/de-activation method based on the equalizer output radius is utilized to control the feedback equalizer (FBE) of the DFEs. Simulation studies and analysis are provided for empirically derived cable and microwave channels and Ricean fading channels. |
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| Keywords: | Adaptive filtering Decision feedback equalizers Blind equalization algorithms Fading channels |
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