Title :
Envelope-constrained filters: adaptive algorithms
Author :
Tseng, Chien Hsun ; Teo, Kok Lay ; Cantoni, Antonio ; Zang, Zhuquan
Author_Institution :
Australian Telecommun. Res. Inst., Curtin Univ. of Technol., Perth, WA, Australia
fDate :
6/1/2000 12:00:00 AM
Abstract :
We consider an envelope-constrained (EC) optimal filter design problem involving a quadratic cost function and a number of linear inequality constraints. Using the duality theory and the space transformation function, the optimal solution of the dual problem can be computed by finding the limiting point of an ordinary differential equation given in terms of the gradient flow. An iterative algorithm is developed via discretizing the differential equation. From the primal-dual relationship, the corresponding sequence of approximate solutions in the original EC filtering problem is obtained. Based on these results, an adaptive algorithm is constructed for solving the stochastic EC filtering problem in which the input signal is corrupted by an additive random noise. For illustration,a practical example is solved for both noise-free and noisy cases
Keywords :
adaptive filters; approximation theory; circuit optimisation; differential equations; filtering theory; iterative methods; random noise; adaptive algorithm; adaptive algorithms; additive random noise; approximate solutions; differential equation; duality theory; envelope-constrained optimal filter design; gradient flow; input signal; iterative algorithm; limiting point; linear inequality constraints; noise-free case; noisy case; optimal solution; ordinary differential equation; primal-dual relationship; quadratic cost function; space transformation function; stochastic EC filtering problem; Acoustical engineering; Adaptive algorithm; Adaptive filters; Additive noise; Cost function; Filtering; Finite impulse response filter; Nonlinear filters; Quadratic programming; Signal processing algorithms;
Journal_Title :
Signal Processing, IEEE Transactions on
