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Smart Farms

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First generation model (2016)
 

Enhanced convenience in farming with smart technology

Greater freedom (in terms of time and space) instead of having to constantly be near the greenhouse to maintain an optimum environment
 

Remote observation and control

Remote manual control by farmers through video

  • Sensor data

    • - Weather data: temperature, humidity, wind direction, wind speed.
    • - Greenhouse environment: temperature, humidity, carbon dioxide level.

  • Device control

    • - Ceiling, side window(s), insulation, air circulation fan, ventilation fan
Basic composition of first generation model
  • Smart link - Network composition and Internet connection
  • Sensor nodes - Collection of various sensory data network connection
  • Control device mode - Receives control command from network
  • Smart video - Enables video monitoring of farm facilities from remote location
Second generation model (2018)
 

Improved productivity and quality through smart technology

Above-average standardization of farming technologies through big data analysis and intelligent prescriptions
 

Comprehensive environmental control (aerial/above ground section) + cloud service

Automatic control” of above- and underground cultivation environment for crops

  • Sensor data

    • - Weather data: temperature, humidity, wind direction, wind speed, amount of solar radiation
    • - Greenhouse environment: temperature, humidity, carbon dioxide level, soil temperature, moisture, EC

  • Device control

    • - Ceiling, side window(s), insulation, air circulation fan, ventilation fan, supplies water and nutrient solution(s)
Basic composition of second generation model
  • Comprehensive environmental control (aerial/above ground) : Uses intelligent automatic control algorithm to regulate greenhouse environment
  • Cloud service : Conducts big data analyses and provides support for farmer decisions
  • First generation model : Basic compositional elements of first generation smart greenhouse
Third generation model (2020)
 

Korean-style smart greenhouse: potential growth engine for the agriculture industry

Will be introduced to global markets after meeting international standards and regulations and standardization of spare parts.
 

Comprehensive energy management + smart farming

Smart greenhouse system’s “optimum energy management and robot-run farm work

  • Sensor data

    • - Weather data: temperature, humidity, wind direction, wind speed, amount of solar radiation
    • - Greenhouse environment: temperature, humidity, carbon dioxide level, soil temperature, moisture, EC, crop diagnosis sensor, energy control sensor, robot navigation sensor

  • Device control

    • - Ceiling, side window(s), insulation, air circulation fan, ventilation fan, supplies water and nutrient solution(s), robot-controlled farm machinery, energy control system
Basic composition of third generation model
  • Comprehensive energy management - Uses most optimum control technologies (heating device, geothermal heat, solar heat, insulation, etc.)
  • Smart farming - Automated farm work system based on robots/intelligent farm equipment
  • Second generation model - Basic compositional elements of second generation smart greenhouse