Title :
A modified block FTF adaptive algorithm with applications to underwater target detection
Author :
Hasan, Mohammed A. ; Azimi-Sadjadi, Mahmood R.
Author_Institution :
Dept. of Electr. Eng., Colorado State Univ., Fort Collins, CO, USA
fDate :
9/1/1996 12:00:00 AM
Abstract :
In this paper, the problem of weighted block recursive least squares (RLS) adaptive filtering is formulated in the context of a block fast transversal filter (FTF) algorithm. This “modified block FTF algorithm” is derived by modifying the constrained block-LS cost function to guarantee global optimality. This new soft-constrained algorithm provides an efficient way of transferring weight information between blocks of data. The tracking ability of the algorithm can be controlled by varying the block length and/or a soft constrained parameter. This algorithm is computationally more efficient compared with other LS-based schemes. The effectiveness of this algorithm is tested on a real-life problem dealing with underwater target identification from acoustic backscatter. The process involves the identification of the presence of resonance in the acoustic backscatter from a target of unknown shape submerged in water
Keywords :
acoustic signal detection; acoustic wave scattering; adaptive filters; backscatter; least squares approximations; sonar signal processing; sonar target recognition; tracking filters; acoustic backscatter; block fast transversal filter algorithm; block length; constrained block-LS cost function; global optimality; identification; modified block FTF adaptive algorithm; resonance; soft constrained parameter; tracking; underwater target detection; weight information; weighted block recursive least squares adaptive filtering; Adaptive algorithm; Adaptive filters; Backscatter; Cost function; Filtering algorithms; Least squares methods; Resonance light scattering; Target tracking; Transversal filters; Underwater acoustics;
Journal_Title :
Signal Processing, IEEE Transactions on
