Title :
Convex cost functions in blind equalization
Author :
Vembu, Sridhar ; Verdú, Sergio ; Kennedy, Rodney A. ; Sethares, William
Author_Institution :
Dept. of Electr. Eng., Princeton Univ., NJ, USA
fDate :
8/1/1994 12:00:00 AM
Abstract :
Existing blind adaptive equalizers that use nonconvex cost functions and stochastic gradient descent suffer from lack of global convergence to an equalizer setup that removes sufficient ISI when an FIR equalizer is used. The authors impose convexity on the cost function and anchoring of the equalizer away from the all-zero setup. They establish that there exists a globally convergent blind equalization strategy for 1D pulse amplitude modulation (PAM) systems with bounded input data (discrete or continuous) even when the equalizer is truncated. The resulting cost function is a constrained l1 norm of the joint impulse response of the channel and the equalizer. The results apply to arbitrary linear channels (provided there are no unit circle zeros) and apply regardless of the initial ISI (that is whether the eye is initially open or closed). They also show a globally convergent stochastic gradient scheme based on an implementable approximation of the l1 cost function
Keywords :
convergence; equalisers; intersymbol interference; numerical analysis; pulse amplitude modulation; stochastic processes; telecommunication channels; transient response; 1D pulse amplitude modulation; FIR equalizer; ISI; PAM systems; all-zero setup; anchoring; arbitrary linear channels; blind adaptive equalizers; bounded input data; cost function; global convergence; globally convergent stochastic gradient scheme; impulse response; l1 norm; nonconvex cost functions; stochastic gradient descent; Adaptive equalizers; Amplitude modulation; Blind equalizers; Convergence; Cost function; Fading; Finite impulse response filter; Intersymbol interference; Pulse modulation; Stochastic processes;
Journal_Title :
Signal Processing, IEEE Transactions on
