What question did this study set out to answer?

The aim is to revolutionize data transmission by eliminating physical data transfer through innovative compression and retrieval techniques.

March 5, 2026Open Access

Data Materialization over Transmission: Kolmogorov Inverse Mapping via M51 High-Dimensional Lattice Resonance and JM Deterministic Generators

Key Points

The aim is to revolutionize data transmission by eliminating physical data transfer through innovative compression and retrieval techniques.
Introduced the HSKG V5 architecture for data transmission.
Utilized the Riemann Zeta function to achieve ultra-compression into a 256-byte format.
Implemented JM Deterministic Generator to facilitate data reconstitution in RAM using high-dimensional lattice resonance.
Achieved a compression ratio of 16,005,403× for a 3.9 GB video file.
Validated zero SSD I/O requirements during data retrieval.
Achieved a teleportation latency of just 0.024 seconds for live video streaming.

Abstract

This paper proposes a paradigm shift in data transmission theory by introducing the HSKG V5 "Zero-Transmission, Zero-Storage" architecture. Instead of physically transmitting raw data across networks, the system inverse-maps the original dataset into an ultra-compressed 256-byte Universal Phase Constant (Φc) using the statistical distribution properties of the Riemann Zeta function on an M51/M52 giant prime lattice (2⁸2, 589, 933 − 1). A localized JM Deterministic Generator then triggers a High-Dimensional Lattice Resonance within the recipient's volatile memory (RAM), enabling lossless, real-time reconstitution of gigabyte-scale data from mere kilobyte coordinates — with zero SSD I/O and zero network payload transmission. Empirical validation was performed on March 3, 2026, successfully reconstituting Doctor. Zhivago. 1965. 1080p. BluRay. H264. mp4 (3, 907. 57 MB) from a 256-byte coordinate with a compression ratio of 16, 005, 403×, SSD Write of 0 Bytes, and a Teleportation Latency of 0. 024s. Live video streaming was confirmed from volatile memory only. This work is based on 11 foundational KIPO patents (Jan. –Feb. 2026) and establishes new frontiers in Post-Quantum Cryptography (PQC), Stateless Edge Computing, and information theory beyond Shannon's classical limits. Keywords: Zero-Storage, Data Teleportation, Mersenne Prime Lattice, Riemann Zeta Function, Kolmogorov Inverse Mapping, HSKG, JM Deterministic Generator, Post-Quantum Cryptography, Stateless Computing, RAM Materialization

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Min Ho Jung

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Korea Soongsil Cyber University

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Data Materialization over Transmission: Kolmogorov Inverse Mapping via M51 High-Dimensional Lattice Resonance and JM Deterministic Generators

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