Human smooth pursuit tracking eye movement analysis in the frequency domain /

50.49% for order 4; however, there are great differences

Bibliographic Details
Main Author: Sa, Zhijun
Format: Thesis eBook
Language:English
Published: [Place of publication not identified] : [publisher not identified] ; 1995.
Subjects:
Online Access:Link to OAKTrust copy
Description
Summary:50.49% for order 4; however, there are great differences
addition, strength indices indicate that the 2nd order
among the power proportions for the eight subjects. In
contribution to the nonlinearity of the human smooth pursuit
different order nonlinearities and primitive frequencies of a
domain. The average power of these linear components which
dominate the responses takes 63.66% in the smooth pursuit
eight subjects were applied and analyzed in the frequency
electrooculogram (EOG) responses to the sum of sinusoids from
EOG responses to the stimulus pattern 0.
frequencies of order n (n=4 at most) were detected. The
Human smooth pursuit tracking eye movements were analyzed in
interaction frequencies is presented for the estimation of
is significant that magnitude proportions for the eight
nonlinear system. The data of smooth tracking
of primitive frequencies, the outputs at the primitive
of the linear property of the discrete Fourier transform and
of the nonlinear analysis by a sum of sinusoids consisting of
only 6 frequencies was evaluated through computer simulation
order primitive frequencies were calculated and analyzed. It
primitive frequencies have more average magnitude
proportions are 18.75% for order 2, 30.68% for order 3, and
proportions of both the magnitudes and powers of different
sinusoids, in lieu of white Gaussian noise. The feasibility
subjects are very close to each other. The average magnitude
system than the 3rd and 4th order primitive frequencies in
the frequency domain. The stimulus used was a sum of
tracking responses for the eight subjects. With the notion
uses the sum of sinusoids as stimulus with which to determine
with a known nonlinear system. A new method which makes use
Item Description:"Major subject: Bioengineering".
Vita.
Physical Description:xi, 76 leaves : illustrations ; 28 cm.
Also available online.
Issued also on microfiche from Lange Micrographics.
Bibliography:Includes bibliographical references.