Site Surgery™ Framework
Core Metric: Hydrological Storage Capacity (HSC)
Base Unit: Site Hydrological Node (SHN)
1. Theory Overview
Site Surgery™ redefines residential landscape as decentralized hydrological infrastructure. The framework shifts landscape assessment from purely visual landscape metrics to Hydrological Storage Capacity (HSC). Moving beyond decorative garden design, it treats each site as a calibrated system where soil, slope, water movement, and construction logic are unified as one integrated hydrological system.
2. Environmental Problem
Contemporary residential landscapes are increasingly exposed to volatile rainfall patterns and concentrated runoff events. Issues such as flash runoff, topsoil erosion, and critical hydrostatic pressure behind retaining interfaces are escalating. The industry traditionally treats these risks as isolated, late-stage drainage failures; Site Surgery™ diagnoses them as a systemic disruption of the site’s dynamic hydrological balance.
3. System Logic
The framework translates dynamic environmental inputs into engineered ecological responses. By mapping three primary inputs—Gradient, Soil Permeability, and Rainfall Intensity—the framework activates a responsive matrix of Site Hydrological Nodes (SHN). Each node performs a specialized hydrological function: vertical infiltration, lateral velocity interception, structural pressure relief, or impermeable interface transition.
4. System Presentation
The system diagram translates environmental inputs into distributed hydrological behavior through a simplified node-based flow hierarchy.
5. Pilot Applications
The Waterline Garden validates the physical application of the Low-Gradient Infiltration Node paired with the Interface Transition Node. The project demonstrates how high-volume runoff from architectural footprints can be effectively captured, moderated, and redistributed into sub-surface root zones under highly permeable coastal soil conditions.
The French Estate demonstrates the strategic deployment of the Gradient Interception Node and the Structural Pressure-Relief Node across a complex 2,000-square-meter topography. It showcases how targeted subsurface interventions break downhill runoff velocity while eliminating hydrostatic risk along structural boundaries.
6. Future Directions
The residential domain operates as our active evolutionary testing ground. While currently executed and refined through high-end residential pilot sites, the Site Surgery™ framework is designed to operate across larger spatial scales. The long-term trajectory is to evolve this methodology into an adaptable technical protocol for community climate resilience, public realm landscape adaptation, and distributed urban water resource management.

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名字固定一篇文章？ 
framework diagram 一张简单完整图，是第二篇文章？ 或者我先发表文字，隐藏，后面再补图也可以

capability statement 2-4页
第三篇文章？ 是不是可以先发文字简单的