0=No, 1=Yes: The Underlying Logic of Origami Windmill Model Decoding Neural Electromagnetic Waves and Life Inheritance

This study focuses on an original origami windmill model as the core, establishing a unified and concise binary information processing framework (0/No, 1/Yes) that systematically integrates interdisciplinary content, including neuroelectrophysiology, biological information transmission, disease mechanisms, and aging processes. The study integrates MacKinnon’s potassium channel structural theory, Hodgkin-Huxley’s action potential experiments, and Ramón y Cajal’s neuronal staining and connectivity theory, while also incorporating McFadden’s research on life electromagnetic information transmission from the University of Surrey in the UK. It introduces the core concept of homology between Agre’s water channels and MacKinnon’s potassium channels, clarifying the relationship between dynamic changes in ion channels and the generation of neuronal electromagnetic waves; By quantifying model parameters, defining binary logic boundaries, and proposing rigorous key experimental verification pathways, the "origami windmill" is pushed from a qualitative metaphor to a scientific hypothesis that can be explored. Based on this, new strategies for cancer treatment, anti-aging, and anti Alzheimer's disease (AD) are proposed. The above strategies have been explored and applied, and preliminary practical observations show that this intervention approach has potential application value. It provides a new theoretical framework and verifiable experimental path for understanding the encoding, transmission, and cross generational effects of life information, as well as interventions for related diseases.