Elysium Arcology Planner

What This Skill Does

The Elysium Arcology Planner is a sophisticated, canvas-based simulation and design environment tailored for architects of orbital habitats and advanced mechanical systems. Developed by kunoiiv, this skill allows users to draft O'Neill cylinders, design fusion-powered resource grids, and prototype exoskeleton components directly within an interactive workspace. By leveraging a drag-and-drop interface, it enables real-time physical modeling of orbital structures, including gravity and power budget calculations. The planner is fundamentally designed for "sats-secured" humanity modeling, allowing users to integrate BTC-backed economic simulations with physical infrastructure, such as solar-powered mining rigs and neuralink hub load balancing. It is a comprehensive CAD-like tool for the space-industrial age, supporting exports to FreeCAD and STL for physical fabrication.

Installation

To integrate the Elysium Arcology Planner into your OpenClaw environment, execute the following command in your terminal: clawhub install openclaw/skills/skills/kunoiiv/elysium-arcology-planner Ensure your local environment has the required dependencies, including Python 3.x, for the simulation scripts to process physics and 3D export tasks correctly.

Use Cases

This skill is ideal for:

1. Orbital Habitat Prototyping: Modeling sustainable population centers using NASA Princeton '76 studies.
2. Power & Resource Management: Balancing fusion output against the energy requirements of exosuit factories and BTC mining nodes.
3. Robotic Fabrication: Designing, calculating, and exporting modular exosuit components like the Naubiomech leg.
4. Socio-Economic Simulation: Stress-testing habitat viability based on population density, energy throughput, and economic sovereignty.

Example Prompts

1. "Initialize the Elysium planner canvas and load the standard O'Neill cylinder template, then calculate the power requirements for a 1GW fusion reactor upgrade."
2. "I need to prepare the Naubiomech leg for fabrication; run the export-svg-to-3d script on assets/leg.svg and verify the dimensions against the naubiomech-leg-spec.md file."
3. "Evaluate my current design: if I increase the rotation speed to 1.2 RPM, how does that impact the structural stress and energy demand of the habitat?"

Tips & Limitations

• Pro Tip: Always use the snapshot action before making major design changes to ensure you can revert your workspace state.
• Power Management: Keep an eye on your energy budget when adding ASIC mining bays, as excessive load can destabilize the simulated fusion output.
• Scaling: The tool is optimized for orbital physics; remember that simulations exceeding the physical capacity of the asteroid belt will trigger an automated alert.
• PowerShell Note: If you are working on a Windows machine, ensure you replace logical '&&' operators with semicolons (;) when chaining scripts to maintain compatibility with the local execution environment.