In the current live entertainment landscape, acoustic management remains paradoxically archaic. Most sound engineers rely on pre-concert soundchecks—tuning an empty hall that will soon be filled with thousands of organic sound absorbers. Once the show begins, adjustments are reactive and manual. We lack a real-time, adaptive model capable of synchronizing sonic pressure with variable audience density.

​Oliver Bigtree, founder of Bigtree Universal Harmonic System, has bridged ancient mathematical principles with modern fluid dynamics. The solution isn't a simple "rule of three," which fails to capture the non-linear complexity of sound propagation.

​Instead, Bigtree introduces a proprietary canonical equation based on the Tetragrammaton. Beyond its historical resonance, this principle acts as a fundamental code for pressure equilibrium—the same balance found in osmosis, chemical density, and atmospheric exchange. By viewing a concert hall as a pressurized vessel, the equation calculates the exact sonic compensation required as the environment changes.

​The system operates in a two-stage process:

1. ​The Digital Acoustic Twin: Before the doors open, the module creates a technical "photograph" of the venue, mapping volume, geometry, materials, and inherent resonance power.

2. ​Lidar & AI-Powered Density Tracking: During the event, a sensor array (Lidar, computer vision) monitors the audience in real-time.

​Using the Sabine unit (the standard 0.5 m^2 of absorption per person) as a baseline, the proprietary firmware processes this data through the Tetragrammaton calculator. The result? A dynamic audio firmware that adjusts output levels instantaneously to maintain perfect harmonic clarity, regardless of crowd movement.

​In the spirit of Decentralized Science (DeSci), this innovation is built on a foundation of verifiable truth.

• ​Immutable IP: Following the comprehensive 2025 filings on Openstamp, the "layered deposit" strategy ensures that every iteration of the formula is cryptographically timestamped and protected.

  Roadmap: From Validation to Industrialization

  We are currently entering a rigorous field-testing phase to validate the Tetragrammaton equation in diverse live environments. This pilot stage aims to calibrate the interaction between our real-time Lidar data and the firmware's response speed.

  Upon successful completion of these benchmarks, our objective is to scale toward Hardware-as-a-Service (HaaS). We are moving toward the industrialization of a dedicated, plug-and-play hardware module (firmware-in-a-box). This unit will serve as the universal "acoustic brain" for venues, easily integrable into existing sound systems to provide autonomous, high-fidelity pressure management.​Investor Call to Action

​We are seeking partners to scale this bridge between ancient canonical math and futuristic Deep Tech. This is more than a sound processor; it is a new standard for sensory environments.

​Beyond the real-time hardware application, Bigtree has published a foundational "Treatise on Sound" (Traité du Son) on his official platform. This theoretical work proposes a radical re-evaluation of ponderal mass (weight) within acoustic theory.

​While the fundamental constant of the speed of sound remains unchanged, its derivation is entirely reimagined. The treatise bypasses the traditional use of the "kilogram" as an arbitrary baseline, instead redefining sonic propagation through the lens of the International System of Units (SI) and pure physical ratios. This shift from "mass-as-weight" to "mass-as-systemic-density" provides the mathematical bedrock for the Tetragrammaton equation, allowing for a more granular and accurate calculation of how sound waves interact with organic matter in a confined space.

Note on the Ecosystem: The Native Token

$BIGTREE is a Proof of Concept: We are showing that a community can fund complex, high-level technology directly. By strengthening the $BIGTREE ecosystem, we are not just growing a token; we are validating a new way for humanity to fund its most ambitious discoveries without middle-men.

​We have initialized this journey using an existing token with a limited contract but real intrinsic value. This is $BIGTREE Genesis. It serves as our foundational currency, a bridge designed to support the eventual migration to the $BIGTREE Core—our definitive smart contract architecture.

Join the root system.

BUHS Community Hub

In the current live entertainment landscape, acoustic management remains paradoxically archaic. Most sound engineers rely on pre-concert soundchecks—tuning an empty hall that will soon be filled with thousands of organic sound absorbers. Once the show begins, adjustments are reactive and manual. We lack a real-time, adaptive model capable of synchronizing sonic pressure with variable audience density.

​Oliver Bigtree, founder of Bigtree Universal Harmonic System, has bridged ancient mathematical principles with modern fluid dynamics. The solution isn't a simple "rule of three," which fails to capture the non-linear complexity of sound propagation.

​Instead, Bigtree introduces a proprietary canonical equation based on the Tetragrammaton. Beyond its historical resonance, this principle acts as a fundamental code for pressure equilibrium—the same balance found in osmosis, chemical density, and atmospheric exchange. By viewing a concert hall as a pressurized vessel, the equation calculates the exact sonic compensation required as the environment changes.

​The system operates in a two-stage process:

1. ​The Digital Acoustic Twin: Before the doors open, the module creates a technical "photograph" of the venue, mapping volume, geometry, materials, and inherent resonance power.

2. ​Lidar & AI-Powered Density Tracking: During the event, a sensor array (Lidar, computer vision) monitors the audience in real-time.

​Using the Sabine unit (the standard 0.5 m^2 of absorption per person) as a baseline, the proprietary firmware processes this data through the Tetragrammaton calculator. The result? A dynamic audio firmware that adjusts output levels instantaneously to maintain perfect harmonic clarity, regardless of crowd movement.

​In the spirit of Decentralized Science (DeSci), this innovation is built on a foundation of verifiable truth.

• ​Immutable IP: Following the comprehensive 2025 filings on Openstamp, the "layered deposit" strategy ensures that every iteration of the formula is cryptographically timestamped and protected.

  Roadmap: From Validation to Industrialization

  We are currently entering a rigorous field-testing phase to validate the Tetragrammaton equation in diverse live environments. This pilot stage aims to calibrate the interaction between our real-time Lidar data and the firmware's response speed.

  Upon successful completion of these benchmarks, our objective is to scale toward Hardware-as-a-Service (HaaS). We are moving toward the industrialization of a dedicated, plug-and-play hardware module (firmware-in-a-box). This unit will serve as the universal "acoustic brain" for venues, easily integrable into existing sound systems to provide autonomous, high-fidelity pressure management.​Investor Call to Action

​We are seeking partners to scale this bridge between ancient canonical math and futuristic Deep Tech. This is more than a sound processor; it is a new standard for sensory environments.

​Beyond the real-time hardware application, Bigtree has published a foundational "Treatise on Sound" (Traité du Son) on his official platform. This theoretical work proposes a radical re-evaluation of ponderal mass (weight) within acoustic theory.

​While the fundamental constant of the speed of sound remains unchanged, its derivation is entirely reimagined. The treatise bypasses the traditional use of the "kilogram" as an arbitrary baseline, instead redefining sonic propagation through the lens of the International System of Units (SI) and pure physical ratios. This shift from "mass-as-weight" to "mass-as-systemic-density" provides the mathematical bedrock for the Tetragrammaton equation, allowing for a more granular and accurate calculation of how sound waves interact with organic matter in a confined space.

Note on the Ecosystem: The Native Token

$BIGTREE is a Proof of Concept: We are showing that a community can fund complex, high-level technology directly. By strengthening the $BIGTREE ecosystem, we are not just growing a token; we are validating a new way for humanity to fund its most ambitious discoveries without middle-men.

​We have initialized this journey using an existing token with a limited contract but real intrinsic value. This is $BIGTREE Genesis. It serves as our foundational currency, a bridge designed to support the eventual migration to the $BIGTREE Core—our definitive smart contract architecture.

Join the root system.

BUHS Community Hub