Title: Logistical Relativity: Time Dilation as Substrate Bandwidth Allocation and the Hardware Limits of the Universe Author: Marco Lindenbeck Description: Standard Special Relativity relies on the Lorentz factor to accurately calculate time dilation, phenomenologically treating time as a flexible, traversable dimension. This abstraction has historically severed relativity from thermodynamics and created deep ontological paradoxes. This manuscript introduces "Logistical Relativity" within the GLR (Omega Grounded Light Reality) framework. It redefines time not as a physical dimension, but as the experiential observation of localized metric updating. By introducing the Pythagorean Bandwidth Allocation (c² = v² + u²), the paper demonstrates that the universal speed limit (c) is the absolute processing capacity of the underlying dodecahedral substrate. Time dilation is therefore strictly derived as a hardware limitation: as spatial velocity (v) increases, the internal thermodynamic update rate (u) must drop. To empirically validate this mechanism, the paper conducts a logistical audit of the atmospheric muon decay anomaly, proving that relativistic effects are merely the mechanical throttling of the Weak Nuclear Force's thermodynamic decay operator. Furthermore, the manuscript demonstrates that these strict logistical limits are fractal, mapping the physics of bandwidth allocation directly onto human neuroscience to define cognitive bandwidth, the myth of multitasking, and the subjective perception of experiential time.
Marco Lindenbeck (Sat,) studied this question.
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