Electrogravitic Propulsion Control via Ternary Neural Networks
Electrogravitic propulsion controlled by ternary neural processing — real-time gravitational gradient management.
Explore the Vision
Discover this technology through five complementary perspectives — from technical architecture to partnership outcomes. Each layer reveals a different aspect of how this innovation creates value.
Electrogravitic propulsion controlled by ternary neural processing — real-time gravitational gradient management.
What It IS
Technical VisionThe architectural essence — what makes this technology work
An electrogravitic propulsion array generating asymmetric gravitational gradients, controlled in real-time by a ternary neural processing unit that adapts field geometry to ambient conditions. Three-state switching drives the electrode arrays: positive field, neutral isolation, negative field. Gravity as a controllable variable.
Abstract
Application of ternary neural networks to stabilization and control of hypothetical electrogravitic propulsion systems, including thrust vectoring and stability augmentation.
Visual Essence
An electrogravitic propulsion array generating asymmetric gravitational gradients, controlled in real-time by a ternary neural processing unit that adapts field geometry to ambient conditions. Three-state switching drives the electrode arrays: positive field, neutral isolation, negative field. Gravity as a controllable variable.
Technology Domains
Related Patents
From the frontier-energy visual family
Industrial HVDC Transmission with Ternary Control
High-voltage ternary switching for electrogravitic electrode arrays.
Water-Fuel Plasmoid Propulsion and Ternary Reaction Control
Water-fuel plasmoid propulsion with atmospheric moisture harvesting and ion-jet navigation.
Water-Fuel Plasmoid Propulsion and Ternary Reaction Control
Water-fuel plasmoid propulsion with atmospheric moisture harvesting and ion-jet navigation.