Reachy Mini MCP Server
A Model Context Protocol (MCP) server for controlling the Reachy Mini robot using FastMCP.
[!NOTE]Looking for the full Conversation App?This repository also contains the full "Conversation Stack" (Hearing + LLM + Conversation Logic) which turns Reachy Mini into an autonomous conversational robot.
The Docker setup is specifically for running this full conversation application.
๐ Read the Conversation Stack Overview
๐ Full Docker Setup Guide
This MCP server provides a comprehensive set of tools to control Reachy Mini's head movements, antennas, camera, and perform various gestures and emotional expressions.
Roadmap
MCP
- Speech: TTS, piper
- Agentic layer
- Queue actions support
- Interruption support
- Move body support, reachy-mini python SDK
Conversation app
- Hearing:
- VAD, WebRTCVAD / SileroVAD
- STT, faster-whisper
- Vision
- Memory:
- File
- Vector DB
- Vector Graph DB
- Growth, nightly fine tunes support
- MQTT support
- Move to autonomous-intelligence repo
Features
Movement & Speech Control
- Head Control: Move the head in 3D space (x, y, z) with orientation (roll, pitch, yaw)
- Antenna Control: Control left and right antennas independently
- Speech (TTS): Make the robot speak while performing actions (via
speechparameter) - Gestures: Perform predefined gestures (greeting, yes, no, thinking, celebration)
- Emotions: Express emotions (happy, sad, curious, surprised, confused)
- Direction Looking: Make the robot look in specific directions (up, down, left, right)
Monitoring & Control
- State Monitoring: Get full robot state, head state, antenna state, camera state
- Power Management: Turn robot on/off
- Emergency Stop: Immediately halt all movements
- Health Status: Monitor robot health and system status
Advanced Features
- Command Sequences: Execute multiple robot operations in a single call (NEW!)
- Single Unified Interface: Access all functionality through one
operate_robottool - Repository-Based Tools: Easily extensible tool system with JSON definitions
Prerequisites
- Python 3.10+ (tested with Python 3.10-3.13)
- Reachy Mini Robot: Either physical robot connected via USB or wireless, or simulation running in MuJoCo
- Reachy Mini Daemon: Must be running on
localhost:8000(default)
Installation
The project ships as a pip-installable distribution, reachy-mini-mcp, whichprovides both the MCP server and a manager CLI (reachy-mini-mcp).
# Manager CLI only (pure stdlib โ show/install/uninstall/doctor/overview):
uv tool install reachy-mini-mcp # or: pipx install reachy-mini-mcp
# To actually run the server, add the [server] extra (and [tts] for speech):
pip install "reachy-mini-mcp[server]" # MCP stdio server
pip install "reachy-mini-mcp[server,tts]" # + Piper TTS
pip install "reachy-mini-mcp[openai]" # OpenAI-compatible HTTP server
From a source checkout, ./setup.sh creates a .venv and installs the packageeditable with [server,tts].
The manager CLI
reachy-mini-mcp is an MCP-server manager โ it tells an agent or operator how toregister and run the server, and can do it for them:
reachy-mini-mcp overview # one-screen status (also the no-arg default)
reachy-mini-mcp show # print the mcp.json snippet for this machine
reachy-mini-mcp explain # how MCP registration works + where configs live
reachy-mini-mcp install --client claude-code --scope project # set it up
reachy-mini-mcp uninstall --client claude-code --scope project # put it down
reachy-mini-mcp doctor # diagnose deps, daemon, and client registration
reachy-mini-mcp serve # run the FastMCP stdio server (what mcp.json calls)
install / uninstall target claude-code (project .mcp.json or user~/.claude.json), claude-desktop, cursor, or any --path FILE. They mergeinto existing config (other servers are preserved) and accept --dry-run toprint the result without writing.
Registering with an MCP client
The mcp.json entry to add (also produced by reachy-mini-mcp show):
{
"mcpServers": {
"reachy-mini": {
"command": "reachy-mini-mcp",
"args": ["serve"],
"env": { "REACHY_BASE_URL": "http://localhost:8000" }
}
}
}
Running the MCP Server
Step 1: Start the Reachy Mini Daemon
Before starting the MCP server, you need to have the Reachy Mini daemon running.
๐ Follow the official Reachy Mini Daemon Setup Guide
Ensure the daemon is running and accessible (default: http://localhost:8000).
Step 2: Start the MCP Server
reachy-mini-mcp serve
Equivalent invocations: python -m reachy_mini_mcp serve, or for a sourcecheckout fastmcp run reachy_mini_mcp/server.py.
The MCP server will now be running and ready to accept connections from MCP clients.
Available MCP Tools
Single Unified Tool: operate_robot
This MCP server exposes one MCP tool that provides access to all robot control functionality:
| Tool | Description |
|---|---|
operate_robot(tool_name, parameters) |
Meta-tool to dynamically execute any robot control operation by name. |
operate_robot(commands) |
Sequence mode to execute multiple operations in sequence. |
This unified interface allows you to call any of the robot control operations either individually or as a sequence:
Single Command Mode:
# Example: Get robot state
operate_robot("get_robot_state")
# Example: Express emotion with parameters
operate_robot("express_emotion", {"emotion": "happy"})
# Example: Move head with multiple parameters
operate_robot("move_head", {"z": 10, "duration": 2.0, "mm": True})
Sequence Mode (NEW!):
# Example: Execute multiple commands in sequence
operate_robot(commands=[
{"tool_name": "perform_gesture", "parameters": {"gesture": "greeting"}},
{"tool_name": "nod_head", "parameters": {"duration": 2.0, "angle": 15}},
{"tool_name": "move_antennas", "parameters": {"left": 30, "right": -30, "duration": 1.5}},
{"tool_name": "look_at_direction", "parameters": {"direction": "left", "duration": 1.0}}
])
Note: The tool name must match exactly. The correct tool is get_robot_state, not get_robot_status.
Available Robot Operations
All operations are accessible through the operate_robot tool. Here are all available operations:
Basic State & Control
| Operation | Description |
|---|---|
get_robot_state |
Get full robot state including all components |
get_head_state |
Get current head position and orientation |
get_antennas_state |
Get current antenna positions |
get_camera_state |
Get camera status |
get_power_state |
Check if robot is powered on/off |
get_health_status |
Get overall health status |
turn_on_robot |
Power on the robot |
turn_off_robot |
Power off the robot |
stop_all_movements |
Emergency stop all movements |
Head Movement
| Operation | Description |
|---|---|
move_head |
Move head to specific pose (params: x, y, z, roll, pitch, yaw, duration) |
reset_head |
Return head to neutral position |
nod_head |
Make robot nod (params: duration, angle) |
shake_head |
Make robot shake head (params: duration, angle) |
tilt_head |
Tilt head left or right (params: direction, angle, duration) |
look_at_direction |
Look in a direction (params: direction - up/down/left/right, duration) |
Antenna Movement
| Operation | Description |
|---|---|
move_antennas |
Move antennas to specific positions (params: left, right, duration) |
reset_antennas |
Return antennas to neutral position |
Emotions & Gestures
| Operation | Description |
|---|---|
express_emotion |
Express emotion (params: emotion - happy/sad/curious/surprised/confused) |
perform_gesture |
Perform gesture (params: gesture - greeting/yes/no/thinking/celebration) |
Camera
| Operation | Description |
|---|---|
get_camera_image |
Capture image from camera |
get_camera_state |
Get camera status |
Usage Examples
All operations are called through the operate_robot tool. Here are some examples:
Example 1: Basic Head Movement
# In your MCP client (e.g., Claude Desktop)
# Move head up 10mm and tilt 15 degrees
operate_robot("move_head", {"z": 10, "roll": 15, "duration": 2.0})
# Return to neutral
operate_robot("reset_head")
Example 2: Express Emotions
# Make the robot look happy
operate_robot("express_emotion", {"emotion": "happy"})
# Make the robot look curious
operate_robot("express_emotion", {"emotion": "curious"})
# Return to neutral
operate_robot("express_emotion", {"emotion": "neutral"})
Example 3: Perform Gestures
# Wave hello
operate_robot("perform_gesture", {"gesture": "greeting"})
# Nod yes
operate_robot("perform_gesture", {"gesture": "yes"})
# Shake no
operate_robot("perform_gesture", {"gesture": "no"})
Example 4: Complex Interaction
# Turn on the robot
operate_robot("turn_on_robot")
# Check state
state = operate_robot("get_robot_state")
# Make robot look around
operate_robot("look_at_direction", {"direction": "left", "duration": 1.5})
operate_robot("look_at_direction", {"direction": "right", "duration": 1.5})
operate_robot("look_at_direction", {"direction": "forward"})
# Express surprise
operate_robot("express_emotion", {"emotion": "surprised"})
# Perform celebration
operate_robot("perform_gesture", {"gesture": "celebration"})
# Turn off when done
operate_robot("turn_off_robot")
Example 5: Control Antennas
# Move antennas independently
operate_robot("move_antennas", {"left": 30, "right": -30, "duration": 1.0})
# Reset to neutral
operate_robot("reset_antennas")
Example 6: Command Sequences (NEW!)
Execute complex robot behaviors with command sequences:
# Greeting sequence
operate_robot(commands=[
{"tool_name": "express_emotion", "parameters": {"emotion": "happy"}},
{"tool_name": "perform_gesture", "parameters": {"gesture": "greeting"}},
{"tool_name": "nod_head", "parameters": {"duration": 1.5, "angle": 10}},
{"tool_name": "reset_head", "parameters": {}}
])
# Curious behavior - look around
operate_robot(commands=[
{"tool_name": "express_emotion", "parameters": {"emotion": "curious"}},
{"tool_name": "move_antennas", "parameters": {"left": 30, "right": 30, "duration": 1.0}},
{"tool_name": "look_at_direction", "parameters": {"direction": "left", "duration": 1.0}},
{"tool_name": "look_at_direction", "parameters": {"direction": "right", "duration": 1.0}},
{"tool_name": "look_at_direction", "parameters": {"direction": "forward", "duration": 0.5}}
])
# Initialization routine
operate_robot(commands=[
{"tool_name": "turn_on_robot", "parameters": {}},
{"tool_name": "reset_head", "parameters": {}},
{"tool_name": "reset_antennas", "parameters": {}},
{"tool_name": "get_robot_state", "parameters": {}}
])
For more details on command sequences, see SEQUENCE_COMMANDS.md.
Using with MCP Supported client
The easiest way is to let the manager CLI write the config for you:
reachy-mini-mcp install --client claude-desktop # or claude-code / cursor
To do it by hand, add this to your client's config file (the same JSON works forClaude Desktop, Claude Code, and Cursor โ see locations below):
{
"mcpServers": {
"reachy-mini": {
"command": "reachy-mini-mcp",
"args": ["serve"],
"env": { "REACHY_BASE_URL": "http://localhost:8000" }
}
}
}
Config file locations:
- Claude Desktop โ macOS:
~/Library/Application Support/Claude/claude_desktop_config.json;Linux:~/.config/Claude/claude_desktop_config.json;Windows:%APPDATA%\Claude\claude_desktop_config.json - Claude Code โ project:
./.mcp.json; user:~/.claude.json - Cursor โ project:
./.cursor/mcp.json; user:~/.cursor/mcp.json
After editing the config, restart the client. The Reachy Mini tools will be available in your conversations.
MCP Prompts
The server includes helpful prompts:
control_prompt- Guidelines for controlling Reachy Minisafety_prompt- Safety guidelines and limits
Architecture
โโโโโโโโโโโโโโโโโโโ โโโโโโโโโโโโโโโโโโโโ โโโโโโโโโโโโโโโโโโโ
โ MCP Client โโโโโโโโโโบโ FastMCP Server โโโโโโโโโโบโ Reachy Daemon โ
โ (Claude, etc) โ stdio โ (reachy-mini-mcp โ HTTP โ (localhost:8000)โ
โ โ โ serve) โ โ โ
โโโโโโโโโโโโโโโโโโโ โโโโโโโโโโโโโโโโโโโโ โโโโโโโโโโโโโโโโโโโ
โ
โผ
โโโโโโโโโโโโโโโโโโโ
โ Reachy Mini โ
โ Robot/Sim โ
โโโโโโโโโโโโโโโโโโโ
Development
Repository-Based Tool System
This MCP server uses a repository-based approach for defining tools, making it highly extensible and customizable. Tools are defined in JSON files rather than hardcoded in Python.
Key Benefits:
- โ Add new tools without modifying server code
- โ Customize tool behavior by editing JSON files
- โ Easy to version control and share tool definitions
- โ Script-based execution for complex operations
Repository Structure:
tools_repository/
โโโ tools_index.json # Root file listing all tools
โโโ *.json # Individual tool definitions
โโโ scripts/ # Python scripts for complex tools
โโโ nod_head.py
โโโ shake_head.py
โโโ express_emotion.py
โโโ perform_gesture.py
Adding New Tools
Create a Python script in tools_repository/scripts/my_tool.py:
async def execute(make_request, create_head_pose, params):
"""Execute the tool."""
# Your logic here
await make_request("POST", "/api/endpoint1", json_data={...})
await asyncio.sleep(1.0)
await make_request("POST", "/api/endpoint2", json_data={...})
return {"status": "success"}
Then create a JSON file (e.g., tools_repository/my_tool.json):
{
"name": "my_tool",
"description": "Description of what my tool does",
"parameters": {
"required": [
{"name": "param1", "type": "string", "description": "First parameter"}
],
"optional": [
{"name": "param2", "type": "number", "default": 1.0, "description": "Second parameter"}
]
},
"execution": {
"type": "script",
"script_file": "my_tool.py"
}
}
Add to tools_repository/tools_index.json:
{
"name": "my_tool",
"enabled": true,
"definition_file": "my_tool.json"
}
Restart the server - your tool is now available!
Testing Tools
Validate your tool definitions:
python test_repository.py
This verifies all JSON files are valid and script files exist.
Resources
License
This project is licensed under the MIT License, including the conversation and hearing app within this repository, and does not extend to the Reachy Mini Daemon.
Contributing
Contributions are welcome! Please feel free to submit issues or pull requests.
Support
For issues related to:
- This MCP server: Open an issue in this repository
- Reachy Mini robot: Visit Reachy Mini GitHub Issues
Credits
- Built with FastMCP by Marvin
- For Reachy Mini by Pollen Robotics & Hugging Face
- Follows the Model Context Protocol specification
