Title :
Dithered signed-error CMA: robust, computationally efficient blind adaptive equalization
Author :
Schniter, Philip ; Johnson, C. Richard, Jr.
Author_Institution :
Sch. of Electr. Eng., Cornell Univ., Ithaca, NY, USA
fDate :
6/1/1999 12:00:00 AM
Abstract :
Adaptive blind equalization has gained widespread use in communication systems that operate without training signals. In particular, the constant modulus algorithm (CMA) has become a favorite of practitioners due to its LMS-like complexity and desirable robustness properties. The desire for further reduction in computational complexity has motivated signed-error versions of CMA, which have been found to lack the robustness properties of CMA. This paper presents a simple modification of signed-error CMA, based on the judicious use of dither, that results in an algorithm with robustness properties closely resembling those of CMA. We establish the fundamental transient and steady-state properties of dithered signed-error CMA and compare them with those of CMA
Keywords :
adaptive equalisers; blind equalisers; computational complexity; error analysis; LMS; computational complexity reduction; computationally efficient blind adaptive equalization; constant modulus algorithm; dithered signed-error CMA; robust adaptive equalization; robustness properties; signed-error CMA; steady-state property; transient property; Adaptive equalizers; Adaptive signal processing; Blind equalizers; Communication systems; Computational complexity; Deconvolution; HDTV; Noise robustness; Signal processing algorithms; Steady-state;
Journal_Title :
Signal Processing, IEEE Transactions on
