150 Bionic Fractal Topological Coupling and Dimensional Gradient Transmission Theory

Bosley Zhang
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2026/04/29
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Theory of Biomimetic Fractal Topological Coupling and Dimensional Gradient Transition Transmission

I. Core Theoretical Essence

This theory takes the natural fractal structures of tree roots and leaf veins as its fundamental logical origin. It breaks through traditional unidirectional, planar, point-to-point transmission and coupling paradigms to establish a complete transmission system comprising three-dimensional omnidirectional coupling → dimensional gradient transition → planar uniform distribution.

Core Theoretical Mechanisms:

1. Principle of Three-Dimensional Fractal Coupling: Utilizing a three-dimensional, tree-root-like multi-level branching topology, this principle enables omnidirectional, diffuse capture and bidirectional coupling of energy, signals, and matter within a spatial volume. Relying on a mesh-like parallel structure, it achieves blind-spot-free transmission, high fault tolerance, and alignment-free coupling, eliminating the stringent positional and angular alignment requirements of traditional transmission.
2. Principle of Dimensional Gradient Transition: Addressing the compatibility conflict between three-dimensional volumetric carriers and two-dimensional planar terminals, this principle employs a progressive gradient transition structure to achieve seamless, smooth conversion from three-dimensional to planar forms—including shape, impedance/field mode, and transmission path. It eliminates losses, mismatches, and transmission failures caused by abrupt dimensional changes.
3. Principle of Planar Fractal Distribution: Using a two-dimensional, leaf-vein-like planar topology, this principle achieves uniform, low-loss, highly integrated terminal distribution of the transmission carriers after conversion, ensuring perfect compatibility between the transmission carriers and planar terminal devices.
4. Principle of Device Topological Compatibility: This theory serves as a foundational transmission architecture theory and is fully compatible with existing active control devices (MOSFETs, transistors, various switching/control components). The relationship between the theory's transmission pathways and these node-regulating devices is synergistic—"transmission path + node control." The theory does not replace existing core devices but optimizes the transmission and distribution links, thereby improving overall system efficiency and stability.

Essential Nature of the Theory: By emulating nature's optimal topologies, this theory addresses fundamental pain points in various transmission systems—such as insufficient coverage, alignment difficulties, excessive losses, poor compatibility, and low fault tolerance—to construct a universal, high-efficiency, omnidirectional transmission framework.

II. Summary of Applicable Fields

This theory possesses fundamental generality and can be widely adapted to various engineering and technological fields involving transmission and distribution. Core areas include:

1. Energy Transmission: Wireless power transmission, wireless charging, omnidirectional energy distribution, distributed energy supply.
2. Information & Communication: Computer networks, Internet of Things (IoT) communications, Network-on-Chip (NoC), aerospace communications.
3. Integrated Circuits: Chip power distribution networks, on-chip signal routing, 3D stacked chip interconnects.
4. General Engineering Technologies: Industrial sensor transmission, flexible electronic devices, rail transit power supply, smart home interconnections.


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