Applying Biorthogonal wavelets and a Novel QuickLearn Algorithm for an Intelligent Ballistocardographic chair

In this paper, we classified ballistocardiogram (BCG) signals for healthy and unhealthy persons using QuickLearn (QL), a novel supervised on-line learning algorithm, and the biorthogonal spline wavelets. At the first stage, the mapping level, the input data are represented to the multi input-single...

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Published inSMCals/06 : proceedings of the 2006 IEEE Mountain Workshop on Adaptive and Learning Systems, Utah State University, Logan, Utah, U.S.A., July 24-26, 2006 pp. 42 - 47
Main Authors Akhbardeh, A., Junnila, S., Varri, A.
Format Conference Proceeding
LanguageEnglish
Published IEEE 01.07.2006
Subjects
Biomedical signal processing
Blood
Computer networks
Force measurement
Force sensors
Heart
Multilayer perceptrons
Sensor systems
Signal processing algorithms
Testing
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Summary:In this paper, we classified ballistocardiogram (BCG) signals for healthy and unhealthy persons using QuickLearn (QL), a novel supervised on-line learning algorithm, and the biorthogonal spline wavelets. At the first stage, the mapping level, the input data are represented to the multi input-single output mapping function (MF) with fixed weights during a training phase. We can select any kind of mathematical function for this map and its complexity depends on input data complexity. By representing input data to MF, it gives us a scalar value. After shifting and scaling that value to the range [0,T], we can round it to have y, an integer value. The second stage, matching level, only includes an array with T cells called affine look-up table (ALT). Training phase for QL includes only one step and no learning cycles. In this single step, the integer value y is used as a reference address to call and upload label for corresponding input samples in N cells of ALT (copying label from cell [y-N/2] till cell [y+ N/2-1], data leakages to N-1 neighbor cells). In testing phase, we need only to recall and introduce the value of the cell with index y as the final output. Initial tests with BCG from six subjects (both healthy and unhealthy people) indicate that the method can classify the subjects into three classes with a high accuracy, high learning speed (elapsed time for learning around ten milliseconds), and very low computational load compared with the well-known neural networks such as multilayer perceptrons (learning time above five minutes)
ISBN:9781424401666
1424401666
DOI:10.1109/SMCALS.2006.250690