An MCP (Model Context Protocol) server that provides tools and resources to control and monitor Nav2 navigation operations, allowing seamless integration with Nav2-enabled robots through the MCP protocol.
| Tool | Description | Parameters |
|---|---|---|
| navigate_to_pose | Navigate the robot to a specific pose (position and orientation) in the map frame | x: float, y: float, yaw: float |
| follow_waypoints | Navigate the robot through a sequence of waypoints in order | waypoints: str (JSON array) |
| spin_robot | Rotate the robot in place by a specified angle | angle: float |
| backup_robot | Move the robot backward by a specified distance | distance: float, speed: float |
| dock_robot | Dock the robot to a charging station or dock | x: float, y: float, yaw: float, dock_id: str, dock_type: str, nav_to_dock: bool |
| undock_robot | Undock the robot from a charging station or dock | dock_type: str |
| clear_costmaps | Clear robot navigation costmaps to remove stale obstacle data | costmap_type: str |
| get_robot_pose | Get the current position and orientation of the robot | — |
| cancel_navigation | Cancel the currently active navigation task | — |
| nav2_lifecycle | Control Nav2 lifecycle (startup or shutdown) | action: str |
| get_path | Compute a navigation path between two poses | start_x: float, start_y: float, start_yaw: float, goal_x: float, goal_y: float, goal_yaw: float, planner_id: str |
| get_path_from_robot | Compute a navigation path from the robot's current pose to a goal pose | goal_x: float, goal_y: float, goal_yaw: float, planner_id: str |
| Variable | Default | Description |
|---|---|---|
ROS_DOMAIN_ID |
— | ROS 2 domain ID for network isolation (recommended to set) |
ROS_LOCALHOST_ONLY |
— | Set to '1' to restrict ROS 2 communication to localhost only |
- Navigation control: Navigate to specific poses, follow waypoint sequences, and execute precise robot movements
- Real-time status: Monitor navigation progress, robot pose, and system status with comprehensive feedback
- Costmap management: Clear stale obstacle data and manage navigation costmaps for optimal path planning
- Lifecycle management: Control Nav2 system startup and shutdown for complete system control
- ROS 2 integration: Full compatibility with Nav2 navigation stack and ROS 2 ecosystem
- Async operations: Non-blocking navigation commands with progress monitoring and cancellation support
- Robot Operating System (ROS) 2: Middleware for robotics (Jazzy)
- fastmcp: MCP server framework
- python: Python programming language
- uv: Python package manager (optional)
Clone the repository and install with uv:
git clone https://github.com/ajtudela/nav2_mcp_server.git
cd nav2_mcp_server
# Set up ROS 2 environment variables if needed
export ROS_DOMAIN_ID=0
uv syncOr install directly from the repository:
uv add git+https://github.com/ajtudela/nav2_mcp_server.gitInstall the package in development mode:
git clone https://github.com/ajtudela/nav2_mcp_server.git
cd nav2_mcp_server
# Set up ROS 2 environment variables if needed
export ROS_DOMAIN_ID=0
python3 -m pip install .Or install directly from the repository:
python3 -m pip install git+https://github.com/ajtudela/nav2_mcp_server.gitBuild the image:
docker build -t nav2_mcp_server:latest .Pull the latest image from the Docker registry:
docker pull ghcr.io/ajtudela/nav2_mcp_server:latestuv run nav2_mcp_serverpython3 -m nav2_mcp_serverAdd this configuration to your application's settings (mcp.json):
{
"nav2 mcp server": {
"type": "stdio",
"command": "uv",
"args": [
"run",
"--directory",
"/path/to/nav2_mcp_server",
"nav2_mcp_server"
],
"env": {
"ROS_DOMAIN_ID": "0",
"ROS_LOCALHOST_ONLY": "1"
}
}
}{
"nav2 mcp server": {
"type": "stdio",
"command": "python3",
"args": [
"-m",
"nav2_mcp_server"
],
"env": {
"ROS_DOMAIN_ID": "0",
"ROS_LOCALHOST_ONLY": "1"
}
}
}"nav2 mcp server": {
"type": "stdio",
"command": "docker",
"args": [
"run",
"-i",
"--rm",
"ghcr.io/ajtudela/nav2_mcp_server"
],
"env": {
"ROS_DOMAIN_ID": "0",
"ROS_LOCALHOST_ONLY": "1"
}
}