Title of article
An integrated sensory-intelligent system for underwater acoustic signal-processing applications
Author/Authors
A.، Zaknich, نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2003
Pages
-74
From page
75
To page
0
Abstract
A generic integrated sensory-intelligent system (ISIS) is developed for underwater acoustic signal-processing applications. ISIS constantly monitors the current acoustic channel conditions and smoothly integrates the outputs of the most appropriate signalprocessing procedures or algorithms available to it for those conditions. The system is based on a generalization of a tuneable approximate piecewise linear (TAPL) model derived from the modified probabilistic neural network (MPNN). This model was designed to seamlessly integrate a set of local linear signal-processing algorithms within a given multidimensional data space. Depending on the input signal distortions, which are determined by environmental effects, ISIS automatically weighs and adds the outputs from a set of processing algorithms working in parallel. The weighting is related to the "closeness" of each algorithm to the sensed input signal characteristics or some other measured environmental state. A single tuning parameter is used to smoothly and seamlessly select appropriately among the parallel processing algorithm outputs. A very small tuning-parameter value selects the closest most appropriate algorithm output. At the other extreme, a fixed weighted average of all the algorithm outputs is produced with a very large value. Otherwise, a dynamic weighed average of all algorithm outputs is achieved with values in between. Some features and benefits of ISIS are demonstrated with an illustrative linear sweep chirp signal-detector estimation problem characterized by extremely variable Doppler conditions.
Keywords
histidine modification , Thermophilic bacteria , enzyme purification , Bacillus subtilis , hydrolytic enzyme , (alpha)-Amylase
Journal title
IEEE Journal of Oceanic Engineering
Serial Year
2003
Journal title
IEEE Journal of Oceanic Engineering
Record number
78907
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