1. Fixed‑Parameter Cosmology Panel (FPCM‑OV)
This side of the Space shows the core RFT cosmology running on one locked parameter set. Nothing adjusts itself — the whole model stands or falls on this single solution.
What people can see here
- Age at z = 13.67: RFT gives 568.52 Myr, which lines up with JWST early‑galaxy maturity without any tuning.
- Horizon Ratio: The model naturally produces a horizon about 490× larger than ΛCDM. (This removes the horizon problem without inflation.)
- Unified Expansion Curve (H_RFT) The purple curve shows how expansion behaves across all redshifts using the same fixed parameters.
- JWST Maturity Plot The cyan and red lines show how RFT’s predicted stellar‑mass growth compares to JWST observations.
Why this panel matters
It lets people see that RFT’s predictions aren’t “fit to the data.” They’re fixed, and the universe either agrees or disagrees. JWST happens to agree — strongly.
If you want to dig deeper into RFT’s cosmology model, I’ve made everything fully open and transparent 
Rendered Frame Theory I: Supreme Unification via Temporal Compression and NexFrame Modulation for anyone who’s curious — researchers, hobbyists, or anyone who just enjoys exploring new ideas. One thing to keep in mind is that RFT is built from first principles and uses natural motion and real spacecraft telemetry as its measurement foundation.
That leads into the second part of this Space, where you can zoom around the map, pick galaxies, and see how Solar1 measures their distances through motion rather than light‑delay. It’s a simple way to explore how RFT handles distance and motion in a more physical, hands‑on way.
2. Motion‑Measurement Panel (Solar1 / GVU / LOU)
This is the interactive side where people can zoom in, zoom out, and pick galaxies to see how far they are in real motion, not light‑delay distance.
What people can do
- Zoom around the galaxy map
- Click any galaxy
- See its distance measured in Solar1 / GVU / LOU
- Compare how close it is in motion vs. how far it looks in ΛCDM
What Solar1 actually measures
Solar1 is based on Voyager‑1’s real displacement — not the time light takes to reach us.
The system uses:
- LOU — Limara Orbital Unit
- GVU — Grinstead Voyager Unit
- Solar1 — full Voyager‑1 traversal to the Solar boundary
These units track actual motion, so galaxies appear:
- Much closer
- More causally connected
- More consistent with their observed maturity
Why this panel matters
It shows visitors that:
- Light‑delay distance exaggerates how far galaxies are
- Motion‑based distance gives a more physical picture
- JWST galaxies stop looking “impossibly early” when measured through Solar1
It’s a hands‑on way to feel the difference between: “How long light took to get here” vs. “How far the system actually moved.” Again if your curious you can view the paper here: Solar1: A Motion‑Anchored Cosmological Ruler Resolving the Andromeda Paradox, JWST Early Galaxies, the Horizon Problem, and the Dark Component Fallacy @RFTSystems