1.) The transits, black, red, & white, are so emplaced in the cube that
     their resp. waveforms are all "most visible".

2.) The centerplanes of the resp. waveforms are coincident with
     planes parallel-@ both sides-to the (3) "most visible" diagonal planes of the woven cube;
     (1) such diagonal plane for each color.

3.) all waveforms in any plane are parallel &
     all the waveforms in one plane are anti-parallel with all the waveforms in an adjacent plane.

4.) Due to 1), 2), 3) only 50% of all possible waveforms are represented:
     (2) anti-parallels, "most visible",
     (2) total in case of the black-, red- & white transits, &
     they are not distributed in the most "even" manner possible.

5.) When the woven cube is rotated 120 degr. CW or CCW about the LOS-diagonal
     it is superimposable on its initial position,
     disregarding color-displacement.
     This works only in views -#1.

6.) When the woven cube is rotated 90 degr., 1x, 2x or 3x,
     as shown in views -#2, -#3, -#4 resp.:
     in the 1st. case:  only the red transits are "most visible",
                              the black & white transits are then "least visible",
     in the 2nd. case: only the black transits are "most visible",
                              the red & white transits are then "least visible",
     in the 3rd. case: only the white transits are "most visible",
                              the black& red transits are then "least visible".
     Thus none of the (4) positions, intial & rotated, is superimposable on another,
     even when disregarding color-displacement.

7). Due to 4) & 6) this "OOO" structure
     is less isotropic then the "IIIR" & "IIIL" structures.