Calculate spatial relationships between two points including distance, direction, travel time, and human-readable descriptions. Use when you need to understand how locations relate to each other.
Monitor solar weather conditions including geomagnetic storms, solar flares, aurora forecasts, and solar wind data. Uses NOAA Space Weather Prediction Center real-time data.
Reference note for the Claude Code adapter surface; the active Claude bootstrap now lives in `/.claude-plugin`, `/hooks`, and the repository `skills/` directory.
Query Prometheus and Loki billing metrics from Grafana. Use when discussing observability costs, active series, ingestion rates, storage usage, or cardinality analysis.
Skill for working with geographic and spatial data in Orchard Core. Covers GeoPointField for location storage, geo-bounding-box queries, geo-distance queries with the Haversine formula, combined spatial queries, and geographic content filtering patterns. Use this skill when requests mention Orchard Core Spatial, Work with Geographic and Spatial Data, Enabling the Spatial Feature, Adding a GeoPointField to a Content Type, Geo Bounding Box Query, Geo Distance Query, or closely related Orchard Core implementation, setup, extension, or troubleshooting work. Strong matches include work with OrchardCore.Spatial, GeoPointField, ContentDefinition, ContentTypeSettings, TextField, ContentPartFieldSettings, geo_bounding_box, geo_distance, BlogPost.Location. It also helps with Geo Bounding Box Query, Geo Distance Query, Distance Units, plus the code patterns, admin flows, recipe steps, and referenced examples captured in this skill.
Comprehensive Python library for astronomy and astrophysics. This skill should be used when working with astronomical data including celestial coordinates, physical units, FITS files, cosmological calculations, time systems, tables, world coordinate systems (WCS), and astronomical data analysis. Use when tasks involve coordinate transformations, unit conversions, FITS file manipulation, cosmological distance calculations, time scale conversions, or astronomical data processing.
Microscopy data management platform. Access images via Python, retrieve datasets, analyze pixels, manage ROIs/annotations, batch processing, for high-content screening and microscopy workflows.
Use this skill when the user asks about SaturnSwap DEX statistics, total volume, TVL, number of pools/tokens, or top pools by volume. Triggers on: "SaturnSwap stats", "total TVL", "total volume", "how many pools", "top pools by volume", "DEX analytics", "SaturnSwap overview".
紧急求救 - 飞船坠毁后与Stella的首次联系,帮助她评估损伤并制定初步生存计划
奇异植物 - Stella深入研究盖亚星球的植物生态,发现既美丽又危险的外星植被,并尝试找到可利用的资源
洞穴探险 - Stella发现一个深邃的洞穴系统,深入探索发现bioluminescent晶体、地下水源和神秘的古老痕迹
古代遗迹 - Stella深入探索盖亚星球的古代文明遗迹,解开失落文明的秘密
信号塔修复 - Stella尝试修复或建造信号发射装置,希望联系地球或发送求救信号
Generates Lula robot description YAML from a URDF file for Isaac Sim motion planning (CuMotion/RMPflow/Lula), including automatic collision sphere generation via mesh repair + voxelisation + medial-axis sphere packing
Multi-body hydrodynamic interaction analysis in OrcaWave. Use when setting up coupled vessel models, side-by-side operations, FPSO-tanker interactions, gap resonance studies, or hydrodynamic shielding calculations.
Examine file system slack space, MFT entries, USN journal, and alternate data streams to recover hidden data and reconstruct file activity on NTFS volumes.
Configure 6-DOF vessels in OrcaFlex with hydrodynamic properties, RAO import from AQWA, and vessel type creation. Covers initial position, orientation, calculation settings, and motion options.
Expert agent for OrcaWave diffraction/radiation analysis with deep expertise in marine hydrodynamics and panel method computations. Use for wave-structure interaction, added mass/damping calculations, QTF computation, and OrcaFlex hydrodynamic database generation.
Import RAO (Response Amplitude Operator) data from external sources including AQWA, OrcaFlex, and CSV files. Includes validation, interpolation, and conversion for OrcaFlex vessel type creation.
Analyze catenary and lazy wave riser configurations for static shape, forces, and OrcaFlex model generation. Use for riser static configuration analysis, catenary force calculations, lazy wave design, and generating OrcaFlex models from catenary parameters.
Sub-skill of instrument-data-allotrope: Calculated Data Handling.
Sub-skill of ship-dynamics-6dof: 3. Natural Frequencies and Periods (+1).
Extract and process energy data from BSEE (Gulf of Mexico) and SODIR (Norway) regulatory databases
