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1. Verfasser: Moghaddami, Kash
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Veröffentlicht: Zenodo 2025
Online-Zugang:https://doi.org/10.5281/zenodo.15559073
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author Moghaddami, Kash
author_facet Moghaddami, Kash
contents <p>This paper introduces TSGG-RPE, a cryptographic framework designed to protect against a novel class of future threats: waveform-based prime prediction. The method generates encryption keys that produce no exploitable resonance in delay-based or harmonic detection models.</p> <p> </p> <p>TSGG-RPE is the first encryption scheme explicitly engineered to counter waveform-analytic attacks on prime structures. It operates by identifying prime candidates through subharmonic suppression zones, producing keys that are indistinguishable from noise in any causal signal analysis.</p> <p> </p> <p>This paper presents the rationale, methodology, and mathematical security guarantees of the protocol. Future versions may include implementation code, testing frameworks, and applications across cryptography, information security, and signal obfuscation.</p> <p>.</p>
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spellingShingle TSGG-RPE: Delay-Harmonic Encryption via Temporal Synchrony Gradient Gravity
Moghaddami, Kash
<p>This paper introduces TSGG-RPE, a cryptographic framework designed to protect against a novel class of future threats: waveform-based prime prediction. The method generates encryption keys that produce no exploitable resonance in delay-based or harmonic detection models.</p> <p> </p> <p>TSGG-RPE is the first encryption scheme explicitly engineered to counter waveform-analytic attacks on prime structures. It operates by identifying prime candidates through subharmonic suppression zones, producing keys that are indistinguishable from noise in any causal signal analysis.</p> <p> </p> <p>This paper presents the rationale, methodology, and mathematical security guarantees of the protocol. Future versions may include implementation code, testing frameworks, and applications across cryptography, information security, and signal obfuscation.</p> <p>.</p>
title TSGG-RPE: Delay-Harmonic Encryption via Temporal Synchrony Gradient Gravity
url https://doi.org/10.5281/zenodo.15559073