1st Edition

Singular Spectrum Analysis of Biomedical Signals

By Saeid Sanei, Hossein Hassani Copyright 2016
    274 Pages
    by CRC Press

    274 Pages
    by CRC Press

    Recent advancements in signal processing and computerised methods are expected to underpin the future progress of biomedical research and technology, particularly in measuring and assessing signals and images from the human body. This book focuses on singular spectrum analysis (SSA), an effective approach for single channel signal analysis, and its bivariate, multivariate, tensor based, complex-valued, quaternion-valued and robust variants.



    SSA currently has numerous applications in detecting abnormalities in quasi-periodic biosignals, such as electrocardiograms, (ECGs or EKGs), oxygen levels, arterial pressure, and electroencephalograms (EEGs). Singular Spectrum Analysis of Biomedical Signals presents relatively newly applied concepts for biomedical applications of SSA, including:





    • Signal source separation, extraction, decomposition, and factorization


    • Physiological, biological, and biochemical signal processing


    • A new SSA grouping algorithm for filtering and noise reduction of genetics data


    • Prediction of various clinical events


    The book introduces a new mathematical and signal processing technique for the decomposition of widely available single channel biomedical data. It also provides illustrations of new signal processing results in the form of signals, graphs, images, and tables to reinforce understanding of the related concepts.



    Singular Spectrum Analysis of Biomedical Signals enhances current clinical knowledge and aids physicians in improving diagnosis, treatment and monitoring some clinical abnormalities. It also lays groundwork for progress in SSA by making suggestions for future research.

    Introduction. Singular Spectrum Analysis. SSA Application to Sleep Scoring. Adaptive SSA and Its Application to Biomedical Source Separation. Applications to Biometric Identification and Recognition. Complex-Valued SSA for Detection of Event Related Potentials from EEG. SSA Change Point Detection and Eye Fundus Image Analysis. Prediction of Medical and Physiological Trends. SSA Application on Genetic Studies. Conclusions and Suggestions for Future Research.

    Biography

    Saeid Sanei, University of Surrey, Guildford, UK

    Hossein Hassani, Bournemouth University, Dorset, UK