1st Edition

Advanced Electroencephalography Analytical Methods Fundamentals, Acquisition, and Applications

    288 Pages 109 B/W Illustrations
    by CRC Press

    Advanced Electroencephalography Analytical Methods: Fundamentals, Acquisition, and Applications presents the theoretical basis and applications of electroencephalography (EEG) signals in neuroscience, involving signal analysis, processing, signal acquisition, representation, and applications of EEG signal analysis using non-linear approaches and machine learning. It explains principles of neurophysiology, linear signal processing, computational intelligence, and the nature of signals including machine learning. Applications involve computer-aided diagnosis, brain-computer interfaces, rehabilitation engineering, and applied neuroscience.

    The book:

    ·         Includes a comprehensive review on biomedical signals nature and acquisition aspects

    ·         Focuses on selected applications of neurosciences/ cardiovascular/muscle related biomedical areas

    ·         Provides a machine learning update to a classical biomedical signal processing approach

    ·         Explains deep learning and application to biomedical signal processing and analysis

    ·         Explores relevant biomedical engineering and neuroscience state-of-the-art applications

    This book is intended for researchers and graduate students in biomedical signal processing, electrical engineering, neuroscience, and computer science.

    1. Diagnostic applications of EEG signal patterns in Neuroscience. 
    Arun Sasidharan, Sumit Sharma, Vrinda M, Kusumika Krora Dutta, and Chetan S Mukundan
    2. Deep Learning Techniques for Automatic Sleep Pattern Identification and Disorder Evaluation using EEG Signals. 
    Dr. K R Shylaja
    3. Recent Trends in EEG-Based MI and SSVEP Brain-Computer Interface Applications - A Review. 
    Sheikh Farhana Binte Ahmed, Saiful Islam Leon, Jarina Akter, Maisha Anjum, Nazmus Sakib, and Md. Kafiul Islam
    4. Recent Trends in EEG-Based P300, Neuromarketing and E-sports Brain-Computer Interface Applications - A Review. 
    Sheikh Farhana Binte Ahmed, Mehedi Hasan, Md. Tawhid Islam Opu, Faisal Bin Shahin, Md. Ahsan-Ul Kabir Shawon, Tasnuva Faruk, and Md. Kafiul Islam
    5. Significance of Fourier Transform for Epileptic EEG Signals Analysis. 
    Pooja, Sourav Maity, and Karan Veer
    6. Alternative treatment with nonperiodic acoustic stimulation for pharmacoresistant epileptic patients: an exploratory study. 
    Juliana Carneiro Gomes, Marília Marinho de Lucena, Jeniffer Emídio de Almeida Albuquerque, Igor Tchaikovsky Mello de Oliveira, Belmira Lara da Silveira Andrade da Costa, Wellington Pinheiro dos Santos, and Marcelo Cairrão
    7. Artifacts removal in Electroencephalogram (EEG) signals. 
    Jammisetty Yedukondalu, M Krishna Chaitanya, and Lakhan Dev Sharma
    8. Multi-channel and multi-label decision-making system (MCL-DMS) for sleep stage and sleep disorder recognition from EEG signals. 
    Yi-Hsuan Cheng, Margaret Lech, and Richardt H. Wilkinson
    9. Analyzing and Decoding Natural Reach & Grasp Action Using Convolutional Neural Network. 
    Abida Nazir, Asim Waris, Shafiq Alam, Shafaq Mushtaq, Rabia Nazir, and Imran Khan Niazi
    10. Classification of motor imagery EEG signals based on sparse representations of Empirical Mode Decomposition features. 
    José Antonio Alves de Menezes, Juliana Carneiro Gomes, Vitor de Carvalho Hazin, Júlio César Sousa Dantas, Marcelo Cairrão Araújo Rodrigues, Pedro Luís Gurgel Nogueira, and Wellington P. dos Santos
    11. Prediction of Onset of Seizures from EEG signals using ML Techniques. 
    Sumathi A, Priya R Sankpal, Jyoti R Munavalli, and Anusha A. N.


    Ganesh R. Naik ranked as Top 2% of researchers in Biomedical Engineering (Stanford University Research), is a leading expert in biomedical engineering and signal processing. He received his Ph.D. degree in Electronics Engineering, specializing in biomedical engineering and signal processing, from RMIT University, Melbourne, Australia, in December 2009. Currently, he is an academic and research theme co-lead at Flinders University, Adelaide, Australia. He held a Postdoctoral Research Fellow position at MARCS Institute, Western Sydney University (WSU) between July 2017 to July 2020 and worked on a CRC project for sleep. During his tenure at WSU, he has developed several novel algorithms for wearables related to sleep projects. Before that, he held a Chancellor's Post-Doctoral Research Fellowship position in the Centre for Health Technologies, University of Technology Sydney (UTS), between February 2013 and June 2017. As a mid-career researcher, he has edited 12 books, authored around 150 papers in peer-reviewed journals and conferences. Ganesh serves as an associate editor for IEEE ACCESS, Frontiers in Neurorobotics, and two Springer journals (Circuits, Systems, and Signal Processing and Australasian Physical & Engineering Sciences in Medicine). He is a Baden–Württemberg Scholarship recipient from Berufsakademie, Stuttgart, Germany (2006–2007). In 2010, he was awarded an ISSI overseas fellowship from Skilled Institute Victoria, Australia.

    Wellington Pinheiro dos Santos holds a degree in Electrical and Electronic Engineering (2001) and a Master's degree in Electrical Engineering (2003) from the Federal University of Pernambuco, and a PhD in Electrical Engineering from the Federal University of Campina Grande (2009). He is currently an Associate Professor (exclusive dedication) at the Department of Biomedical Engineering at the Center for Technology and Geosciences / School of Engineering of Pernambuco, Federal University of Pernambuco, working in the Undergraduate Program in Biomedical Engineering and the Graduate Program in Biomedical Engineering. He is also a member of the Graduate Program in Computer Engineering at Escola Politécnica de Pernambuco, Universidade de Pernambuco, since 2009. He has experience in the field of Computer Science, with an emphasis on Graphics Processing, working mainly in the following areas: topics: digital image processing, pattern recognition, computer vision, evolutionary computing, numerical optimization methods, computational intelligence, image formation techniques, virtual reality, game design and applications of Computing and Engineering in Medicine and Biology. He is a member of the Brazilian Society of Biomedical Engineering (SBEB), of the Brazilian Society of Computational Intelligence (SBIC, ex-SBRN), and of the International Federation of Medical and Biological Engineering (IFMBE).

    Gaetano D. Gargiulo received his Ph.D. (Biomedical Engineering) degree from the University of Bologna, Bologna, Italy, in 2010. Currently, he is a Researcher Professor at the School of Engineering, Design and Built Environment at Western Sydney University. He also is a Research Affiliate at “Federico II” University of Naples, Naples, Italy. His research interests include medical instrumentation/devices, telemedicine, human-computer interfaces, and bio-inspired systems. He is a coauthor of more than 100 papers in these research areas, has edited four scholarly books in applied biomedical engineering; he is an inventor on 10 patents and contributed to spin out four commercial companies all in the field of Biomedical Engineering.