Top-Down Tuning

I kept working to quickly locate these new disjoint tag molecules. While the low note emanated from the tag was fairly unique, it was at a very low amplitude relative to the rest of the noise at that frequency. It would be difficult to locate large concentrations of these tags with the low note alone, let alone track them. Examining the upper frequency band found a much stronger signal, especially since there were three vibrating bonds singing into the spectrum.

Each of the three sixes attached to the interior Seven, each had three Ones which affected the pitch slightly, but more importantly, helped to regulate oscillations. Because there was a somewhat positive pole on each of the Ones attached to each Six, when a set of Ones and their Six were farther away from the Seven, then other pair could come marginally closer. This was a key observation produced by scanning along the axis formed between the Seven and the midpoint of all three singleton Sixes.

Always, there was one of the three six-groups that was at the far of its excursion, which bestows a benefit to tracking efforts. From any other perspective, the wavefronts produced by each excursion are not equally spaced. The closer Six-group's wavefront arrives more quickly that the farther groups, and this allows me to instantly discover the rotation, and attitude of a target. Because the distance the Sixes keep from each other and the Seven in the middle is known, I am able to quickly locate and track these canopied tags.