Journal Entry – Radio Static Notation and Color Spectrum Language By Jonathan Olvera

 

Journal Entry – Radio Static Notation and Color Spectrum Language

By Jonathan Olvera

I have been developing a concept for using radio static signatures as a form of notation—a way of turning interference, noise, and static into a structured system that can display both images and language across the color spectrum.

The starting principle is simple: static contains hidden variation. If one can measure and map those variations by distance, placement, and polarity, then radio static can become a grid, much like the alphabet is a grid of letters.

Order and Alphabet

I define the Order (O) as the foundation, with 0 representing the alphabet’s starting point.

O – ORDER
0 – ALPHABET
COORDINATE PLACEMENT VALUE – CALCULATING DISTANCE AND SPECIFIC LOCATION

From there, each value extends across decimal measures, representing both placement and distance:

0    1    2    3    4    5    6    7    8    9   | 0   |.1   |.2   |.3   |.4   |.5   |.6   |.7   |.8
.001 .002 .003 .004 .005 .006 .007 .008 .009 .010 .011 .012 .013 .014 .015 .016 .017 .018
.019 .020 .021 .022 .023 .024 .025 .026 .027 .028 .029 .030 .031 .032 .033 .034 .035
[036]AUDIO
.037 .038 .039 .040up to .099 [.1]

This table becomes a coordinate grid: each unit of static can be placed, measured, and assigned as either a language symbol or a color value. The higher the resolution, the more precise the image or spectrum notation.

Radio Graph and Volume Measures

On a radio graph or in volume measures of static, axial changes in polarity can be noted. Each shift represents both frequency displacement and signature variation.

By resolving these signals at 10,000 increments, one could capture the atomic weight of an image—a way of measuring not only sound and noise, but the signature collection of static as visual notation.

Application in Display and Resource Collection

This notation could be integrated into electronic display systems and value surveys:

  • Prospectors could use it for resource detection, mapping hidden mineral or atmospheric signatures by static variance.

  • Materials such as electric fiber, optic plastic, cellulose insulation, and conductive boards could host the notation system.

  • Medical/Neurological Application: By compatibility with brain signals, the values could translate into a visual-spectral language, where thought and static interlace as color and image.

Toward the Arizona Calculator

Ultimately, this leads into my broader project: The Arizona Calculator. A device where values, distances, and signatures are integrated with static notation and spectrum translation, producing a new kind of interface—one that unites language, image, and electricity.

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