# Last edited on 2013-12-02 20:56:14 by stolfilocal

MAILED:
  
* Trigger pulses are 1 frame duration, right?

* CZ is always zero.  

* Just to confirm: Is CZ same as VREF in the electrode diagram 
  (surrounded by C7 C106 C80 C55 C31)?  Or is it the unlabeled white disk 
  a little further back (surrounded by C55 C79 C78 C62 C61 C54)?

* Too much line noise (and harmonics);
  about ±240 uV amplitude.
  
* Should use analog filter to kill anything above 40 Hz.  It is noise, right?


TO MAIL:
  
* Following applies to after filtering.

* Substantial drift in some channels.
  Averaging them is not good: just one of those drifters will ruin the average.
  
* Lots of blinking (most runs have a blink in either the fixation or stimulus
  phase, sometimes both).
  
* Blinks have a regular pattern with few exceptions. Each blink lasts
  around 4.5 seconds, almost never more than 6.0.  Some electrodes
  rise by 100-200 uV positive while others get to 50-100 uV negative.
  Typically the rise is very fast (1/4 of the blink) and the return
  to normal slower.  There are a few mini-blinks (shorter and with
  smaller amplitude) and a few mega-blinks (where the peak is sustained
  by 0.5 to 1.0 seconds).
  
* Principal component analysis of the isolated blinks has two notable
  PCs. P000 (strength 159 uV for subject s013) is a strong spot in the
  frontal area with a faint signal of opposite polarity in the rest of
  the head. P001 (strength 59 uV for s013) is a broad "crown" around
  the head, falling to zero on the apex and around the edges. Both are
  surprisingly symmetric and consistent across the 2 subjects. The next
  P002, P003, P004 seem to be less defined, and are different among the two
  subjcts.  See
  
    flt-runs-B/s{013,014}_blinks_P{000,001,002,003,004}_eig_f000000.png
      
  
* Blinks are much more common about 0.5 to 0.7 seconds after the start of the
  fixation phase (tF).  They are less common in the 0.7 seconds after start of stimulus 
  phase (tS) then increase from 0.7 to 1.9 sec after tS. See 
  
    flt-runs-B/blinks-clean_hist.png
    
* Excluding runs with crazy electrodes and blinks in the sensitive region
  (last 1 sec of fixation and 3 secs of stimulus) leaves only 91 runs
  of subject 013 (36%) and 16 runs of subject 014 (6.3%).
  
* Blinks are very different in subj 13 and subj 14.  Both have a principal 
  mode with positive in the forehead and slightly opposite elsewhere, which is 
  the blink proper.  Both then have a crown mode that seems to pulsate at 10 Hz.
  Subject 14 has another mode thet is strongly centered on the nose, also 
  for blinks.
  
* Peculiar runs:

    13 206 near-blink @5.5
    13 217 short blink @??
    13 223 some electrodes are crazy
    13 603 some electrodes are crazy
    13 126 three blinks in short succession
    13 401 totally crazy
    13 431 quasi-blink @0.8
    13 501 totally crazy; large "alpha waves"
    13 519 mixed blinks/motion?
    13 528 extended blink @2.5, @0.9
    13 624 extended and strong blink @1.0
    13 713 two merged blinks
    13 714 extra-strong blink
    13 716 two merged blinks @0.7
    13 719 mixed blinks/motion?
    13 720 mixed blinks/motion?
    13 826 two blinks close together (0.47 sec apart)
    14 118 three blinks of different size
    14 131 strange blink @4.4
    14 227 strange blink @4.2
    14 521 "negative blink" @0.6
    14 613 blink train? @4.7--6.4
    14 614 strong alpha @1.5
    14 718 totally crazy
    14 827 large "alpha waves" @4.5
    
* Crazy electrodes happen often on the first run of a block.

* The signal around 10-12 Hz ("alpha waves"?) seems to be common mode
  hence should be deleted?

* Correlation is decreasing with delay because of common mode

* Saccades?

* Averaging will not work of reaction times are variable.

* I believe that the alpha signal (about 10 Hz, "bouncing" front to-back)
  appears when a person is awake  with eyes closed. Does the alpha signal 
  appear when the subject is open-eyed but in total darkness?
  
* Physiological tremors 1-12 Hz: 
    http://www.medscape.org/viewarticle/572015
    http://brain.oxfordjournals.org/content/123/8/1545.long
    
      http://www.diku.dk/~panic/eyegaze/node16.html
      
      If an image is artificially fixed on the retina it disappears, but
      physiological nystagmus causes every point of the retinal image to
      move approximately the distance between two adjacent foveal cones
      in 0.1 seconds. Physiological nystagmus actually occurs during a
      fixation period, is involuntary and generally moves the eye less
      than 1°.
      
      http://www.sciencedirect.com/science/article/pii/S0042698998003228
      
      Ocular microtremor (OMT) is a high frequency tremor of the eyes
      present during fixation and probably related to brainstem activity
      (Coakley, D. (1983). Minute eye movement and brain stem function.
      CRC Press, FL.). Published observations on the frequency of OMT
      have varied widely. Ocular microtremor was recorded in 105 normal
      healthy subjects using the Piezoelectric strain gauge technique.
      The dominant frequency content of a signal was determined using
      the peak counting method. Values recorded ranged from 70 to 103
      Hz, the mean frequency being 83.68 Hz (S.D.±5.78 Hz).
      
      

* Eye tremors 80 Hz: