D203-6 Determining Egress Coordinates For World-line Travel By Empirical Evaluation Of The Mandelbrot Set
Today, I want to share some thoughts about navigation using my DIY teleportation portal, which I’ve been featuring in several videos.
In a previous video, I talked about using Mandelbrot sets to determine coordinates. The idea is simple: these fractal patterns hold clues to where and how you might emerge if you teleport.
The best way to understand the swirls, eddies, petals, and other structures in a Mandelbrot set is to alter one small feature at a time and see where it takes you. This is an empirical, experimental approach—but you need to be cautious.
You don’t want to suddenly appear in a world where everyone is a frog.
When you zoom into a Mandelbrot set, you’ll notice something fascinating: it looks like it’s duplicating, but it isn’t. Each deeper layer is subtly different. If you take a screenshot at one level, then zoom in and take another, you’ll find it’s never exactly the same.
By picking a feature—say, a petal or a curve—and drilling deeper into it, you’re effectively defining a “world line.” Each click is like moving one step further along a potential path.
Robert Heinlein once described something similar: a world identical to our own but with one subtle change, such as the absence of the letter “I.” As you go deeper, level by level, the differences accumulate. After hundreds of iterations, you’re far from where you began.
I don’t advise changing more than one variable at a time. Some people try to change three or four at once—perhaps a petal on the left, a squiggly projection in the center, and a blossom on the right.
They zoom in on each, take hundreds of snapshots, and then merge the data using best-fit software. The resulting composite describes how multiple variables shift across world lines.
From there, you can deconstruct the composite into coordinates, compare them with your current coordinates, and highlight the differences. Blocks of red, for example, indicate variance.
By studying those differences, you can decide whether to edit them manually—making the destination world more or less different from your own. This gives you a “world line destination matrix” you can input into the DIY teleporter to travel to another dimension.
Why take hundreds of steps? Because in most cases you won’t notice small differences. The system is rugged. To get dramatically different results, you might have to travel hundreds of thousands of world lines. It all depends on the attributes you’re changing.
Each Mandelbrot set is unique because your act of observing changes it. You must figure out what each element represents—petals, squiggles, dots—through trial and error.
I strongly believe in experimentation, though I don’t recommend it when there’s a serious risk, like ending up inside-out or in a hostile environment.
Still, there’s a lot you can do safely. A Mandelbrot set is essentially a visual snapshot of the energy levels present at the portal at a given moment.
The most prominent shapes in the image correspond to the most prominent elements of that environment: large masses, strong magnetic fields, or active biological material.
You can separate biological activity from other influences by applying algorithms that compare gravitational and electromagnetic patterns.
For example, place a cinder block in front of the portal and record a Mandelbrot set. Remove it and record again. The difference tells you how mass affects the reading. Do the same with a live radio to test electromagnetic effects, or with a plant to gauge biological influence.
Some items will barely affect the set; others will change it dramatically. By running enough tests—say 25 to 35 different items—you can build a reliable map of what each pattern corresponds to.
Consistency matters. You need to take readings under identical conditions. If you bump a sensor or shift it slightly, you’ll have to start over. Precision is critical. Once you’ve gathered enough data, you’ll know which elements are safe to change and which are not.
Then you can experiment—step down a few world lines at a time and walk through the portal. On the other side, things will be mostly familiar, with only small differences.
This is the process for establishing destination coordinates from the data you collect. It may sound complicated, but once you practice it, it becomes manageable. Please share your questions in the comments. If something isn’t clear, let me know and I’ll try to clarify.
You don’t want to mess up your destination coordinates—that can have serious consequences.
Every day, in every way, be the best you can be. I hope this information helps you understand not only DIY teleportation but also empirical analysis of Mandelbrot sets and world-line navigation. Take care, everyone.