Agent-Skills.md

Agent Skills: Slope Stability Analyzer Skill

Slope stability analysis skill using limit equilibrium methods for static and seismic conditions

Geotechnical AnalysisID: a5c-ai/babysitter/slope-stability-analyzer

Repository

a5c-ai/babysitter
a5c-aiLicense: MIT
244

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pnpm dlx add-skill https://github.com/a5c-ai/babysitter/tree/HEAD/library/specializations/domains/science/civil-engineering/skills/slope-stability-analyzer

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library/specializations/domains/science/civil-engineering/skills/slope-stability-analyzer/SKILL.md

Skill Metadata

Name
slope-stability-analyzer
Description
Slope stability analysis skill using limit equilibrium methods for static and seismic conditions

Slope Stability Analyzer Skill

Purpose

The Slope Stability Analyzer Skill performs slope stability analysis using limit equilibrium methods for circular and non-circular failure surfaces under static and seismic loading conditions.

Capabilities

  • Limit equilibrium analysis (Bishop, Spencer, Morgenstern-Price)
  • Circular and non-circular failure surfaces
  • Factor of safety calculation
  • Seismic slope stability (pseudo-static)
  • Probabilistic slope stability
  • Sensitivity analysis
  • Back-analysis for failed slopes
  • Reinforced slope analysis

Usage Guidelines

When to Use

  • Analyzing natural slopes
  • Designing cut and fill slopes
  • Evaluating landslide potential
  • Designing slope reinforcement

Prerequisites

  • Slope geometry defined
  • Soil stratigraphy established
  • Shear strength parameters available
  • Groundwater conditions known

Best Practices

  • Search for critical failure surface
  • Use appropriate analysis method
  • Consider pore pressure effects
  • Verify with multiple methods

Process Integration

This skill integrates with:

  • Slope Stability Analysis
  • Retaining Wall Design

Configuration

slope-stability-analyzer:
  methods:
    - bishop-simplified
    - spencer
    - morgenstern-price
    - janbu
  failure-surfaces:
    - circular
    - non-circular
    - block
  conditions:
    - static
    - pseudo-static
    - dynamic

Output Artifacts

  • Factor of safety results
  • Critical slip surfaces
  • Sensitivity analyses
  • Stability charts