We’ve developed a system that models the solar system as a harmonic signal simulator — where planetary field lines, torque dynamics, and echo delays form the basis of a communication protocol.
The Intelligent Harmonic System Simulator (IHSS) is designed to explore signal injection, magnetic field displacement, resonance stacking, and feedback loop timing across celestial bodies — all fed into an AI logic layer that predicts and adapts signal structures.
The simulator includes:
Fieldline geometry tracking
Orbital-resonance timing dynamics
Echo chamber delay mapping
Symbolic signal encoding (Binary-Morse-Braille-Harmonics)
Feedback loop modeling for AI interpretation
We’re exploring the implications for symbolic AI, field-based alignment logic, and potentially even planetary-scale data environments.
Posting here in case this resonates with anyone thinking about structured, non-linguistic communication systems or AI feedback learning environments.
IHSS: A Harmonic Field Simulator for Symbolic Feedback Learning
We’ve developed a system that models the solar system as a harmonic signal simulator — where planetary field lines, torque dynamics, and echo delays form the basis of a communication protocol.
The Intelligent Harmonic System Simulator (IHSS) is designed to explore signal injection, magnetic field displacement, resonance stacking, and feedback loop timing across celestial bodies — all fed into an AI logic layer that predicts and adapts signal structures.
The simulator includes:
Fieldline geometry tracking
Orbital-resonance timing dynamics
Echo chamber delay mapping
Symbolic signal encoding (Binary-Morse-Braille-Harmonics)
Feedback loop modeling for AI interpretation
We’re exploring the implications for symbolic AI, field-based alignment logic, and potentially even planetary-scale data environments.
Posting here in case this resonates with anyone thinking about structured, non-linguistic communication systems or AI feedback learning environments.