L'étude de cas de Singapour
EAVC est un système d'évaluation et de règlement dans lequel l'énergie constitue l'unique unité de compte.
01
A consensus regime that uses energy conservation as its underlying anchor and value constraint, leveraging measurable energy performance as a value guarantee. Through the quantified contributions of services and O&M, it generates auditable settlement units, establishing a public value consensus pricing and clearing mechanism. It utilizes P-A-D as a unified rating standard and adopts a "split-account, phased verification" model for issuance, distribution, and settlement.
02
The organizational engine that translates logic into reality. It employs a decentralized, horizontal division-of-labor architecture based on the EAVC system. Each professional sector operates independently but integrates seamlessly under the unified logic of EAVC.
03
A demand-oriented execution methodology. Once the P-stage completes the acquisition of primal signals and outliers, and the A-stage establishes the correlated spatio-temporal knowledge and information bases, the D-stage is responsible for converting this energy into market-recognized capital assets.
04
Equipment designed to acquire high-density, highly correlated, and multi-dimensional primal signals based on demand. It gathers massive amounts of demand-driven, mutually verifiable information and uses anomaly data to trigger the system.
05
A demand-constructed, correlated spatio-temporal knowledge and information base. It converts the anomalous information uploaded during the P-stage into standardized analog benchmarks.
06
Based on the EAVC framework and maximum probability values, this stage utilizes the horizontal division of labor within the CMF to transform the energy information acquired in the P and A stages into a series of derivative products with legal, financial, and technical attributes.
IESASP utilizes EAVC, P-A-D, and CMF to transform disordered physical operations into auditable asset settlement standards, effectively integrating complex systems. It establishes the organizational structure prior to service implementation, providing management with auditable, quantified correlated foresight (including full-cycle service plans, O&M plans, personnel management, emergency protocols, budgets, costs, and profitability) to support evidence-based decision-making. Through the CMF, IESASP converts long-term environmental benefits into quantifiable and verifiable consensus assets. This mechanism transforms "ordered energy" into a continuous anchor of value, forging a cross-temporal consensus contract among demanders, CMF teams, capital markets, and dynamic ecosystems to guarantee value returns throughout the entire lifecycle. In unattended application scenarios, based on a demand-fixed cost model, the system generated a 20% profit for project investors, while operating capital was only 9.8% of comparable projects. The project has been completed, meets all standards, has passed multiple inspections, and has required no dredging or reconstruction since completion. Practical Case Study: 2020 Dongbianyong Unattended Project, Guangdong
Demand acquisition.
Prior to executing any physical work, the team initiated the demand-driven P-A-D architecture. Utilizing YSL’s situational awareness tools (P), high-density, high-precision, multi-dimensional correlated information and primal signals were collected to capture anomalies.
Established a correlated analog spatio-temporal knowledge and information base for the waterway and interfaced it with EAVC. Based on the EAVC framework, a derivative (D) restoration plan and scheme were formulated for the waterway environment (air, soil, water, wind, energy, and capital). This process integrated the CMF to achieve a horizontal mosaic division of labor, including: phycologists, chemists, corporate management professionals, radio engineers, certified testing laboratories, manufacturing teams, legal teams, financial teams, and auditing teams.
Realized the demand-driven D-stage required for waterway environmental restoration: establishing the management framework, organizing professionals, designing the overall solution, designing equipment and facilities, prototype testing, third-party testing, CMF division-of-labor planning, cost accounting, profit accounting, establishing the derivative product framework, and forming the value consensus contract.
Completed the full-cycle, systemic ecological asset ("Energy-Value") activation closed loop for the waterway.
Passed all inspections in compliance with standard requirements; demand fulfilled.
IESASP's systemic restructuring capability finds its most commercially valuable application in the systemic upgrade of post-industrial cities. During the post-industrial phase, cities are left with a massive amount of isolated production and infrastructure systems. During their operation, these systems produce a large amount of disordered energy, causing an increase in entropy. Their output becomes decoupled from value, leading the city's operations to fall into disorder and inefficiency over time. This ultimately causes the four major dimensions of Capital, Industry, Technology, and Professionals to fall into a state of consensus deficiency and severe structural fracture.
IESASP treats the city as a massive system awaiting an upgrade. By introducing the EAVC and P-A-D architectures, IESASP breaks down the city's independent industrial systems, verifies its energy inputs, and transforms high-entropy urban infrastructure into highly liquid, ordered energy outputs (compliant assets) that are recognized by capital markets. This achieves a value consensus for the system and converts the substantively implemented results into decentralized derivative standards.
Over the past thirty years, IESASP and its strategic partners, based on the EAVC architecture and demand-oriented hierarchical frameworks (including P-A-D: Primal, Analog, Derivative, and CMF: Consensus Mosaic Framework), have supported evidence-based decision-making and systematic operations, managing resources and asset allocation for demanders and stakeholders.
Building upon this, the system has integrated a decentralized ledger mechanism to enable multi-party data recording, verification, and consensus-based distribution.
Operating within a consistent framework that aligns with resource standards and the Law of Conservation of Energy, this architecture ensures structured delivery from "Organization-Service-Maintenance" throughout the full lifecycle operations, forming the primary revenue source for IESASP.
Demand-oriented organization, service, and O&M based on EAVC.
Multi-domain applications introducing the EAVC system:
2023 Beijing House of Tomorrow Experiment
To implement demand-driven projects in post-industrial cities that exhibit a high degree of compatibility with EAVC, CMF, and verifiable decentralized derivative standards.
IESASP organizes demands across four interdependent layers. Each layer is governed by the EAVC standard, with every service and maintenance cycle traceable from first sensing to final settlement.
Real projects. Real demands. Organized and governed through the EAVC standard.
Since 2013, this project has overseen the strategic management of a 15,000-hectare Forest Management Unit (FMU), integrating a Consensus Mosaic Framework (CMF) team to manage the transformation of carbon formation, composition, calculation, capture, and storage within tropical rainforests. This effort integrated raw ecological assets into an EAVC framework.
Water environment restoration and long-term operations & maintenance for the Dongbian River (Dongbian Yong), Guangdong — organized under the EAVC standard using the PAD methodology and CMM specialist coordination. Financial deviation from derived cost calculation: 0.77%. Confirmed stable water environment conditions in 2023 and 2025 follow-up reports.
Research and evaluation framework for the Qinhuai River Basin — organized under the EAVC standard, applying multispectral UAV sensing at 10 × 10 cm resolution and a structured mosaic of environmental and technical specialists.
A post-industrial city prototype organized under EAVC — integrating spatial sensing, energy systems, water management, air quality, nutritional supply chains, and waste-to-value cycles into a self-sustaining three-person household unit. Designed as the blueprint for post-industrial urban upgrading.
IESASP's EAVC-based organizing model is designed for requirements to fulfill, investors seeking ESG-compliant project structures, and organizations with resource management demands that require organized specialist teams and long-term O&M. If you have a demand, IESASP organizes the rest.
