The Main Controller captures data from the smart sensors in your AgriM3sh System and turns it into actionable, automated responses.

COMMUNICATION

The main controller communicates with all connected sensors and device controllers using Bluetooth or a private 5G network. It handles automation: logic such as adjusting irrigation based on soil moisture and activating fans in response to canopy temperature to create a coordinated and intelligent operation of the entire system.

DASHBOARD

The dashboard provides a real-time, user-friendly interface to visualize sensor readings, monitor system status, and manually override controls when needed.

The Main Controller captures data from the smart sensors in your AgriM3sh System and turns it into actionable, automated responses.

COMMUNICATION

The main controller communicates with all connected sensors and device controllers using Bluetooth or a private 5G network. It handles automation: logic such as adjusting irrigation based on soil moisture and activating fans in response to canopy temperature to create a coordinated and intelligent operation of the entire system.

DASHBOARD

The dashboard provides a real-time, user-friendly interface to visualize sensor readings, monitor system status, and manually override controls when needed.

The Device Controller receives commands from the central automation system or main controller, enabling real-time adjustments to microclimates.

EQIUPMENT MANAGEMENT

Manage local equipment such as heaters, lights, fans, and irrigation pumps, enabling real-time adjustments to microclimates.

MAIN CONTROLLER COMMUNICATION

The Device Controller receives commands from a central automation system or main controller and executes actions accordingly: offload routine control tasks from the main system and ensure fast, reliable operation of environmental control devices.

The Canopy Temperature Sensor monitors how plants interact with their environment:  a key indicator of plant stress—especially from heat or drought allowing farmers to make informed decisions.

THERMAL SENSING

Accurate temperature measurements of uppermost layer of foilage in crops or forest canopies. This thermal data reflects how plants are interacting with sunlight, humidity and water availability.

IMPROVE YIELDS & SUSTAINABILITY

Make informed decisions about irrigation, shading and ventilation for better crop health and more efficient water use

Monitor key atmospheric levels (CO₂, dust, air quality) to create
and maintain a stable growth environment.

SENSING CAPABILITIES

Key atmospheric level measurements:

• CO₂
• Dust
• Air Quality

APPLICATIONS

• Greenhouses
• Controlled environment agriculture (CEA)
• Open-field farms 

SENSING CAPABILITIES

Key atmospheric level measurements:

• Measures the surface temperature of individual leaves, providing insight into plant stress, transpiration rates, and overall health.
• Unlike air pollution temperature sensors, leaf temperature sensors offer a more direct indication of how the plant is responding to its environment.

APPLICATIONS

• Greenhouses
• Controlled environment agriculture (CEA)
• Open-field farms