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      EEG based sensing of brain signals : emotional states feature extraction

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      EA5107-101.pdf (2.006Mb)
      Author
      Per, Sau Wei.
      Date of Issue
      2011
      School
      School of Electrical and Electronic Engineering
      Research Centre
      Centre for Signal Processing
      Abstract
      Emotions play a significant role in human behaviour, decision making and actions. They direct attention and enhance the memory in encoding and storing of information. The human brain practically runs every function in the body. Brain signals generated by visual stimuli are collected by EEG system. The time-domain and frequency-domain features of these signals are then extracted with the use of MATLAB algorithm. Different combinations of features are grouped and classified by Linear Discriminant classification into Happy and Sad emotional states. Experiments were set up to compute and analyse the brain signals related to Happy and Sad states. Placements of electrodes based on the 10-20 system were used to extract both alpha and beta waves from the frontal and parietal lobes. The features, average power and peak power from frequency domain, and minimum amplitude, maximum amplitude, mean and standard deviation from time domain, were extracted using the MATLAB algorithm. Visual inspection of the brain signals was performed to determine the optimal time interval for the features to be used in linear discriminant analysis. Different combinations of features were chosen to obtain the highest classification accuracy. The combination results from alpha wave, average power, peak power, mean and standard deviation, gave the highest accuracy of 64%.
      Subject
      DRNTU::Engineering::Electrical and electronic engineering::Electronic systems::Signal processing
      DRNTU::Engineering::Electrical and electronic engineering::Control and instrumentation::Medical electronics
      Type
      Final Year Project (FYP)
      Rights
      Nanyang Technological University
      Collections
      • EEE Student Reports (FYP/IA/PA/PI)

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