An aeroponic system for supporting efficient low-resource-usage plant growth comprises a housing comprising one or more openings and one or more root chambers; one or more sealing members configured to substantially conform to a stalk of a plant and to substantially isolate a canopy of the plant from the one or more root chambers; one or more root chamber sensors; one or more nutrient storage reservoirs for storage of plant nutrients; one or more air-assisted nozzles configured to introduce atomized nutrient solution into the one or more root chambers; a temperature control system configured to control a temperature of the one or more root chambers; and a control system configured to control the temperature control apparatus and the one or more air-assisted nozzles to maintain environmental parameters associated with the one or more root chambers within desired parameter ranges.

An aeroponic system for supporting efficient low-resource-usage plant growth comprises a housing comprising one or more openings and one or more root chambers; one or more sealing members configured to substantially conform to a stalk of a plant and to substantially isolate a canopy of the plant from the one or more root chambers; one or more root chamber sensors; one or more nutrient storage reservoirs for storage of plant nutrients; one or more air-assisted nozzles configured to introduce atomized nutrient solution into the one or more root chambers; a temperature control system configured to control a temperature of the one or more root chambers; and a control system configured to control the temperature control apparatus and the one or more air-assisted nozzles to maintain environmental parameters associated with the one or more root chambers within desired parameter ranges.

To provide a mechanism for performing environment control in a plant cultivation device and process control regarding to a work process for cultivating a plant. A plant cultivation device includes a plurality of sensors for monitoring a growing condition of a plant to be cultivated; an environment controlling unit for controlling an environment which is a condition of at least one of light, air, water, and space in the plant cultivation device; and a process controlling unit for controlling a work process for cultivating the plant.

To provide a mechanism for performing environment control in a plant cultivation device and process control regarding to a work process for cultivating a plant. A plant cultivation device includes a plurality of sensors for monitoring a growing condition of a plant to be cultivated; an environment controlling unit for controlling an environment which is a condition of at least one of light, air, water, and space in the plant cultivation device; and a process controlling unit for controlling a work process for cultivating the plant.

Activation of a far-red light device with a far-red light frequency that includes moonlight light that promotes the conversion of inactive Pfr to active Pr in short-day plants prior to a dark period.

Activation of a far-red light device with a far-red light frequency that includes moonlight light that promotes the conversion of inactive Pfr to active Pr in short-day plants prior to a dark period.

A multi-stage plant cultivation system for and method of enhancing plant production efficiency is disclosed. For example, a multi-stage plant cultivation system and method may provide a vegetation module and multiple growing modules arranged sequentially and wherein the full growing life cycle of a plant may be perform within the modules. In one example, the multi-stage plant cultivation system and method may provide a vegetation module and multiple growing modules that may further include a plant transport system, one or more air handler systems, one or more lighting systems, one or more water delivery systems, one or more wastewater systems, and a controller.

A multi-stage plant cultivation system for and method of enhancing plant production efficiency is disclosed. For example, a multi-stage plant cultivation system and method may provide a vegetation module and multiple growing modules arranged sequentially and wherein the full growing life cycle of a plant may be perform within the modules. In one example, the multi-stage plant cultivation system and method may provide a vegetation module and multiple growing modules that may further include a plant transport system, one or more air handler systems, one or more lighting systems, one or more water delivery systems, one or more wastewater systems, and a controller.

Disclosed are a plant growth management system and a control method thereof. A station device of the plant growth management system includes a flowerpot detector configured detect entry of a movable flowerpot device and to generate a detection signal according to whether entry of the movable flowerpot device is detected, a wireless charger configured to wirelessly supply power to the movable flowerpot device according to the detection signal, and a water supply device configured to supply water to a flowerpot included in the movable flowerpot device according to the detection signal, wherein the movable flowerpot device includes an obstacle detection sensor and a solar detection sensor, performs autonomous driving based on the obstacle detection sensor and the solar detection sensor, searches for a space, an illuminance value of which is equal to or greater than a preset illuminance value, through the autonomous driving, and performs rotational motion in the searched space.

Disclosed are a plant growth management system and a control method thereof. A station device of the plant growth management system includes a flowerpot detector configured detect entry of a movable flowerpot device and to generate a detection signal according to whether entry of the movable flowerpot device is detected, a wireless charger configured to wirelessly supply power to the movable flowerpot device according to the detection signal, and a water supply device configured to supply water to a flowerpot included in the movable flowerpot device according to the detection signal, wherein the movable flowerpot device includes an obstacle detection sensor and a solar detection sensor, performs autonomous driving based on the obstacle detection sensor and the solar detection sensor, searches for a space, an illuminance value of which is equal to or greater than a preset illuminance value, through the autonomous driving, and performs rotational motion in the searched space.