IoT MCP Server
Click on "Install Server".
Wait a few minutes for the server to deploy. Once ready, it will show a "Started" state.
In the chat, type
@followed by the MCP server name and your instructions, e.g., "@IoT MCP Serverread temperature and humidity from living room sensors"
That's it! The server will respond to your query, and you can continue using it as needed.
Here is a step-by-step guide with screenshots.
IoT MCP Server
A comprehensive Model Context Protocol (MCP) server that provides Internet of Things (IoT) device integration for AI assistants like Claude Desktop and Cursor IDE. This server enables AI to read sensor data from IoT devices and dispatch data collection tasks to IoT devices through a unified interface.
Demo
[DEMO_URL]
IoT MCP Server demonstration showing sensor data reading, device task assignment, and real-time monitoring
Related MCP server: ThingsPanel MCP
Features
Sensor Data Reading: Read real-time data from various IoT sensors (temperature, humidity, pressure, motion, etc.)
Device Task Management: Dispatch data collection tasks to IoT devices with configurable intervals and parameters
Multi-Protocol Support: Connect to devices via MQTT, HTTP REST API, CoAP, and custom protocols
Real-time Monitoring: Stream live sensor data and device status updates
Device Discovery: Automatically discover and register IoT devices on the network
Data Filtering: Apply filters and transformations to sensor data before processing
Alert System: Configure alerts based on sensor thresholds and device status
Prerequisites
Before using this MCP server, you need to install the following components:
Python 3.8+ The IoT MCP server is built with Python and requires Python 3.8 or higher. Check if Python is installed:
bashpython --version
# or
python3 --versionInstallation:
Windows: Download from python.org macOS: Download from python.org or use Homebrew: brew install python Linux: Usually pre-installed, or install via package manager: sudo apt install python3 python3-pip
uv (Python Package Manager) This project uses uv for fast and reliable Python package management. Installation: macOS and Linux:
curl -LsSf https://astral.sh/uv/install.sh | shWindows:
powershell -ExecutionPolicy ByPass -c "irm https://astral.sh/uv/install.ps1 | iex"Alternative Installation Methods:
# Using pip
pip install uv
# Using Homebrew (macOS)
brew install uv
# Using cargo (if you have Rust installed)
cargo install --git https://github.com/astral-sh/uv uv
Verify Installation:
bashuv --versionInstallation
Clone the Repository
git clone [PLACEHOLDER_REPOSITORY_URL]
cd iot-mcp-serverThat's it! The project uses uv for dependency management, which will automatically handle all Python dependencies when the server runs.
Configuration
1. Hardware Setup
Connect MCU and Sensors:
Properly connect your MCU (microcontroller) with the sensors according to your sensor's wiring diagram
Ensure stable power supply and correct pin connections
Network/Serial Connection:
Network Option: Ensure your MCU and your computer are on the same network (WiFi/Ethernet)
Serial Option: Connect MCU to your computer via USB/Serial cable
2. Sensor Configuration
Navigate to Sensor Directory:
# Example for MPU6050 sensor
cd sensors/MPU6050Run Sensor Configuration:
python config.pyThis will configure the sensor parameters and generate the necessary configuration files.
3. MCU Programming
Upload Main Script to MCU:
# Use mpremote to transfer main.py to your MCU
mpremote connect [PORT] cp main.py :Replace [PORT] with your MCU's serial port (e.g., /dev/ttyUSB0 on Linux, COM3 on Windows, /dev/tty.usbserial-* on macOS).
Alternative upload methods:
# For ESP32/ESP8266
mpremote connect /dev/ttyUSB0 cp main.py :
# For Raspberry Pi Pico
mpremote connect /dev/ttyACM0 cp main.py :4. MCP Server Setup
Initialize and Configure MCP Server:
# Initialize uv project (if not already done)
uv init .
# Add MCP dependencies
uv add "mcp[cli]"This will set up the MCP server with all necessary dependencies.
Usage Examples
1. Reading Sensor Data
Ask Claude: "Read the current temperature and humidity from all sensors in the living room"Expected Response:
Current temperature: 22.5°C
Current humidity: 45%
Timestamp: [CURRENT_TIMESTAMP]
Device status: Online
2. Dispatching Data Collection Tasks
Ask Claude: "Set up a task to collect temperature data every 5 minutes from sensor_001 for the next 2 hours"Task Configuration:
Device: sensor_001
Data type: temperature
Interval: 5 minutes
Duration: 2 hours
Storage: Local buffer + cloud sync
3. Real-time Monitoring
Ask Claude: "Start monitoring all motion sensors and alert me if any detect movement"Monitoring Setup:
Real-time data streaming
Threshold-based alerts
Device health monitoring
Common Issues
MCP Server Not Detected:
Verify the absolute path in configuration
Check that Node.js is installed and accessible
Restart Claude Desktop/Cursor after configuration changes
Device Connection Failures:
Verify device IP addresses and network connectivity
Check protocol-specific configuration (MQTT broker, HTTP endpoints)
Ensure device authentication credentials are correct
MQTT Connection Issues:
# Test MQTT connection manually mosquitto_pub -h localhost -t test/topic -m "test message" mosquitto_sub -h localhost -t test/topicPermission Errors:
Check file permissions for configuration files
Ensure network access permissions for device communication
Verify user permissions for required system resources
Data Reading Timeouts:
Check device responsiveness
Verify network stability
Adjust timeout parameters in configuration
Debugging
Check MCP Server Logs:
Claude Desktop:
~/Library/Logs/Claude/mcp*.log(macOS)Cursor: Check the MCP settings panel for error messages
Test Device Connectivity:
# HTTP devices curl -X GET http://[DEVICE_IP]/status # MQTT devices mosquitto_sub -h [BROKER_IP] -t [DEVICE_TOPIC] # Ping test ping [DEVICE_IP]Verify Configuration:
# Validate JSON configuration files node -e "console.log(JSON.parse(require('fs').readFileSync('config/devices.json')))"Check Environment Variables:
echo $IOT_CONFIG_PATH echo $PATH
Supported Devices
Currently Supported Device Types
[ESP32 s3]
Security Considerations
Device Authentication: All device communications should use proper authentication
Network Security: Ensure IoT devices are on secure networks
Data Encryption: Use encrypted protocols where possible
Access Control: Implement proper access controls for device management
Regular Updates: Keep device firmware and server dependen
License
This work is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License.
This server cannot be installed
Maintenance
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