Title :
A new composite gradient algorithm to achieve global convergence
Author :
Simon, Gyula ; Pèceli, Gàbor
Author_Institution :
Dept. of Meas. Eng., Tech. Univ. Budapest, Hungary
fDate :
10/1/1995 12:00:00 AM
Abstract :
Insufficient-order system identification can result in a multimodal mean square error surface on which a gradient-type algorithm may converge to a local minimum. In this letter a new composite gradient algorithm (CGA) is presented which is due to achieve global convergence when the output error surface contains local minima. The proposed algorithm combines the useful properties of the output error (OE) and equation error (EE) adaptive filtering methods using a new dynamic error surface. The CGA provides a single convergence point for the gradient-search algorithm independently of the initial conditions. The “global convergence” conjecture is illustrated by simulation examples showing good global convergence properties even in such undermodeled cases when the Steiglitz-McBride algorithm fails
Keywords :
adaptive filters; convergence of numerical methods; filtering theory; optimisation; adaptive filtering methods; composite gradient algorithm; convergence point; dynamic error surface; equation error; global convergence; local minima; multimodal mean square error; output error surface; undermodeled cases; Convergence; Equations; Filtering algorithms; Mean square error methods; Operational amplifiers; Predictive models; Semiconductor device modeling; Signal processing algorithms; Solid state circuits; Strontium;
Journal_Title :
Circuits and Systems II: Analog and Digital Signal Processing, IEEE Transactions on
