ESA Near Earth Objects MCP Server for Pydantic AIGive Pydantic AI instant access to 12 tools to Check Esa Neocc Status, Get All Nea List, Get Impact Table, and more
GDPR Free for SubscribersPydantic AI brings type-safe agent development to Python with first-class MCP support. Connect ESA Near Earth Objects through Vinkius and every tool is automatically validated against Pydantic schemas. catch errors at build time, not in production.
Ask AI about this MCP Server for Pydantic AI
The ESA Near Earth Objects MCP Server for Pydantic AI is a standout in the The Unthinkable category — giving your AI agent 12 tools to work with, ready to go from day one.
Vinkius delivers Streamable HTTP and SSE to any MCP client
Geminiimport asyncio
from pydantic_ai import Agent
from pydantic_ai.mcp import MCPServerHTTP
async def main():
# Your Vinkius token. get it at cloud.vinkius.com
server = MCPServerHTTP(url="https://edge.vinkius.com/[YOUR_TOKEN_HERE]/mcp")
agent = Agent(
model="openai:gpt-4o",
mcp_servers=[server],
system_prompt=(
"You are an assistant with access to ESA Near Earth Objects "
"(12 tools)."
),
)
result = await agent.run(
"What tools are available in ESA Near Earth Objects?"
)
print(result.data)
asyncio.run(main())
* Every MCP server runs on Vinkius-managed infrastructure inside AWS - a purpose-built runtime with per-request V8 isolates, Ed25519 signed audit chains, and sub-40ms cold starts optimized for native MCP execution. See our infrastructure
About ESA Near Earth Objects MCP Server
Connect to the European Space Agency Near-Earth Object Coordination Centre (NEOCC) and access the most authoritative asteroid monitoring data in Europe.
Pydantic AI validates every ESA Near Earth Objects tool response against typed schemas, catching data inconsistencies at build time. Connect 12 tools through Vinkius and switch between OpenAI, Anthropic, or Gemini without changing your integration code. full type safety, structured output guarantees, and dependency injection for testable agents.
What you can do
- Close Approaches — Retrieve upcoming and recent asteroid flybys with miss distances in kilometers, astronomical units, and lunar distances, plus diameter and relative velocity
- Impact Risk Assessment — Access the official ESA risk list and special risk list of asteroids with non-zero cumulative impact probability, including Palermo Scale and Torino Scale ratings
- Object-Level Intelligence — Query orbital elements, physical properties (diameter, albedo, spectral type), and computed ephemerides for any known near-Earth object by designation
- Planetary Defence Monitoring — Access the Aegis impact monitoring table and priority observation lists used by ESA Space Safety
The ESA Near Earth Objects MCP Server exposes 12 tools through the Vinkius. Connect it to Pydantic AI in under two minutes — credentials fully managed, no infrastructure to provision, no vendor lock-in. Your configuration, your data, your control.
All 12 ESA Near Earth Objects tools available for Pydantic AI
When Pydantic AI connects to ESA Near Earth Objects through Vinkius, your AI agent gets direct access to every tool listed below — spanning esa, asteroids, neo, and more. Every call runs in a secure, isolated environment with full audit visibility. Beyond a simple connection, you get real-time monitoring of agent activity, enterprise governance, and optimized token usage.
Check esa neocc status on ESA Near Earth Objects
Returns the connection status and service URL. Use this to verify the integration is working correctly. Verify ESA NEOCC API connectivity
Get all nea list on ESA Near Earth Objects
Returns designations only. Warning: this list contains thousands of entries. Use for comprehensive audits or when searching for a specific designation. Get the complete catalog of all known near-Earth asteroids
Get impact table on ESA Near Earth Objects
Lists virtual impactors with their projected impact dates, impact probabilities, and Palermo Scale values. This is the primary ESA output for planetary defence risk assessment. Get impact monitoring data for potentially hazardous objects
Get object close approaches on ESA Near Earth Objects
g., "2024YR4", "99942 Apophis"). Returns miss distance, date, velocity, and brightness for each encounter. Use URL-encoded designations for objects with spaces. Get all close approaches for a specific asteroid
Get object ephemerides on ESA Near Earth Objects
Returns right ascension, declination, distance, and visual magnitude at each timestep. Useful for planning telescope observations or determining current sky position. Get ephemerides for a specific asteroid
Get object orbital elements on ESA Near Earth Objects
Essential for trajectory computation and impact probability assessment. Get orbital elements for a specific asteroid
Get object physical properties on ESA Near Earth Objects
Data sourced from the ESA NEOCC physical properties database. Get physical properties of a specific asteroid
Get priority list on ESA Near Earth Objects
These objects have incomplete orbital arcs and could be reclassified with additional tracking data. Get priority NEOs requiring follow-up observation
Get recent close approaches on ESA Near Earth Objects
Useful for reviewing past flyby events and validating orbital predictions. Get recent asteroid close approaches that already occurred
Get risk list on ESA Near Earth Objects
Each entry includes the object designation, estimated diameter, cumulative impact probability (IP), Palermo Scale value (PS), and Torino Scale rating. Objects on this list are being actively monitored by the ESA Planetary Defence Office. Get the ESA asteroid impact risk list
Get special risk list on ESA Near Earth Objects
These objects have heightened scientific interest for planetary defence. Get the ESA special priority risk list
Get upcoming close approaches on ESA Near Earth Objects
Data is updated multiple times per day directly from the ESA Space Safety programme. Get upcoming asteroid close approaches to Earth
Connect ESA Near Earth Objects to Pydantic AI via MCP
Follow these steps to wire ESA Near Earth Objects into Pydantic AI. The entire setup takes under two minutes — your credentials stay safe behind Vinkius.
Install Pydantic AI
pip install pydantic-aiReplace the token
[YOUR_TOKEN_HERE] with your Vinkius tokenRun the agent
agent.py and run: python agent.pyExplore tools
Why Use Pydantic AI with the ESA Near Earth Objects MCP Server
Pydantic AI provides unique advantages when paired with ESA Near Earth Objects through the Model Context Protocol.
Full type safety: every MCP tool response is validated against Pydantic models, catching data inconsistencies before they reach your application
Model-agnostic architecture. switch between OpenAI, Anthropic, or Gemini without changing your ESA Near Earth Objects integration code
Structured output guarantee: Pydantic AI ensures tool results conform to defined schemas, eliminating runtime type errors
Dependency injection system cleanly separates your ESA Near Earth Objects connection logic from agent behavior for testable, maintainable code
ESA Near Earth Objects + Pydantic AI Use Cases
Practical scenarios where Pydantic AI combined with the ESA Near Earth Objects MCP Server delivers measurable value.
Type-safe data pipelines: query ESA Near Earth Objects with guaranteed response schemas, feeding validated data into downstream processing
API orchestration: chain multiple ESA Near Earth Objects tool calls with Pydantic validation at each step to ensure data integrity end-to-end
Production monitoring: build validated alert agents that query ESA Near Earth Objects and output structured, schema-compliant notifications
Testing and QA: use Pydantic AI's dependency injection to mock ESA Near Earth Objects responses and write comprehensive agent tests
Example Prompts for ESA Near Earth Objects in Pydantic AI
Ready-to-use prompts you can give your Pydantic AI agent to start working with ESA Near Earth Objects immediately.
"Show me all asteroids approaching Earth in the next few months."
"Are there any asteroids currently on the ESA risk list?"
"Get me the orbital elements and physical properties of asteroid 2024YR4."
Troubleshooting ESA Near Earth Objects MCP Server with Pydantic AI
Common issues when connecting ESA Near Earth Objects to Pydantic AI through Vinkius, and how to resolve them.
MCPServerHTTP not found
pip install --upgrade pydantic-aiESA Near Earth Objects + Pydantic AI FAQ
Common questions about integrating ESA Near Earth Objects MCP Server with Pydantic AI.
How does Pydantic AI discover MCP tools?
MCPServerHTTP instance with the server URL. Pydantic AI connects, discovers all tools, and generates typed Python interfaces automatically.Does Pydantic AI validate MCP tool responses?
Can I switch LLM providers without changing MCP code?
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