Plants do not perform variably because of the plant. They perform variably because the environment they are in changes. temperature, humidity, light, CO₂. and no one catches it in time.
Our Smart Climate Control System holds every parameter within the range your crop or research requires, automatically, continuously, from anywhere.
Smart Climate Control System. polyhouse automation in operation. Sensors, controller, load switching and cloud dashboard working as one integrated system.
In polyhouses and controlled-environment research, the gap between intended conditions and actual conditions is where yield loss and experimental error occur. Manual checking cannot catch drift in real time. By the time a problem is visible, the crop or experiment has already been affected.
Research institutions face an additional constraint: data must be timestamped, exportable and auditable. Manual records do not meet that standard.
Temperature and humidity fluctuate without detection between manual inspection intervals
Equipment starts and stops on fixed schedules, not in response to actual conditions
Research data is manual, inconsistent, and not accessible remotely
Non-seasonal or non-native crops cannot be grown without precise continuous control
Multi-chamber facilities have no way to manage different environments simultaneously
The system connects to your existing equipment. AC units, heaters, fans, foggers, pumps, grow lights, vents. and controls them based on live sensor readings, not fixed timers.
AC units and heaters activate automatically when temperature drifts from the set range. Seasonal adaptation built in. cooling pads in summer, heaters in winter, without manual reconfiguration.
Foggers and misters activate on configurable cycles. 12-hour or 24-hour. or in response to live humidity readings dropping below threshold. Precise enough for hydroponic and research environments.
Set daily light index (DLI) requirements and duration. Grow lights, overhead lighting and vents are managed together to maintain the exact photoperiod the crop or experiment requires.
Water pumps, drip valves and irrigation systems controlled on configurable schedules. Supports both soil-based and hydroponic setups without hardware changes.
The control panel is weatherproof and designed for outdoor installation. The system operates online via web dashboard and mobile app, or offline via the on-site HMI touchscreen. whichever is available.
The system has been deployed across multiple controlled polyhouse environments at a government agricultural research institution under the Ministry of Agriculture, Government of India. Each chamber operates independently with its own parameter set.
The deployment covers both research and production environments — validating the system's ability to meet scientific data standards alongside practical agricultural requirements.
Supported and recognised under FASAL (STPI's IoT in Agriculture initiative), NABI-NIAM, and the Ministry of Agriculture and Farmers' Welfare, Government of India.
For polyhouse farmers, research institutions and agricultural universities. We customise the system for your specific crop, research or operational requirements.