Jm. Choi et al., THE ANALYSIS OF BRAIN ACTIVITY IN WAKEFULNESS AND DEEP SLEEP STATES FROM A DOG EEG, Journal of the Korean Physical Society, 30(2), 1997, pp. 328-331
We obtained an EEG from a dog in a deep sleep and a wakefulness state.
The change of the spectral distribution, the standard deviation and t
he Poincare section constructed from the delay map were found between
the two states. The many couplings between neurons in the wakefulness
state cause various frequency modes. Some of the coupling are weakened
in the deep sleep state, so the fundamental mode and its first harmon
ics are excited. The sequential decrease of the a-value from the wakef
ulness to the deep sleep state shows that entropy increases in the dee
p sleep state. The lower EEG activity in the deep sleep state can be o
bserved from the value of SD which is smaller than the value in the wa
kefulness state. In the deep sleep state the delay map for a shape is
similar to a quadratic shape, and the shape remains unchanged during t
he deep sleep state. However, in the wakefulness state, although the q
uadratic shape remains unchanged, it is rotated or translated in a ran
dom fashion.