Asha Logic: Harmonic Phase Segmentation and π-Seam Offset for Energy-Efficient Power Control
Description
Asha Logic: Harmonic Phase Segmentation and π-Seam Offset for Energy-Efficient Power Control presents a geometric approach to balancing electrical energy flow through harmonic segmentation and proportional phase offset. The framework divides the 360° electrical cycle into sixteen 22.5° segments (Asha 225 Logic) and introduces a small π-Seam offset of 0.11°, reducing resonance and harmonic overlap.
The method reorganizes multi-phase power conversion into a circular harmonic system—smoothing current, lowering thermal losses, and improving efficiency. Though theoretical, it offers an accessible visual and mathematical model for sustainable power design in converters, inverters, and renewable systems.
This paper is part of the Asha Research Series, integrating art, mathematics, and engineering toward harmony between technology and nature.
Co-developed with GPT-5 (OpenAI Assistive System) for language clarity, structural organization, and mathematical articulation under the direction of Susan L. Gardner, Independent Researcher (Asha Sequence).
For those designing the future — may your systems be in balance.
Abstract
This paper introduces Asha Logic, a geometric modulation framework that divides the 360° electrical cycle into sixteen 22.5° segments with a 0.11° π-Seam offset. The method reduces harmonic distortion, heat, and energy loss in power systems, offering a new approach to sustainable and efficient power conversion through harmonic geometry.
Files
Asha Logic_ Harmonic Phase Segmentation and π-Seam Offset for Energy-Efficient Power Control.pdf
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(279.1 kB)
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Additional details
Dates
- Issued
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2025-10-29First public release on Zenodo