A system for automated plant condition notification, detection, and watering to improve plant growth and maintenance including a computing unit, an optical sensor, a soil moisture sensor, a water tank level sensor, a pump, and a computing unit. The computing unit includes a memory and a processor that receives a first input indicative of a user identifier and a communication type, a second input indicative of a plant type, a soil moisture input, a water level input, and an optical sensor input. The processor also determines a water pump initiation threshold and a water pump completion threshold based on one or more of the plant type, the optical sensor input, or the soil moisture input and determines a plant maturity optical value based on the plant type. Additionally, the processor transmits a water pump initiation, a water pump completion signal, and a notification via a selected communication method.

A grow module, a plant growing system, and methods for using the same are disclosed herein. The grow module comprises a plurality of tray modules including a light tray over a growing tray. The light tray includes a lighting array and at least one sensor. The growing tray is adapted to hold a plurality of plant vessels. The grow module comprises a machine-readable identification. The grow module is configured to hold the plurality of tray modules in a vertically stacked configuration. The lighting array on the light tray is configured to provide light to the plurality of plant vessels on the growing tray in the grow module directly under said light tray.

Growth device for crop, comprising a panel-shaped structure, a substrate included in the panel-shaped structure for receiving crop, at least one water reservoir included in the panel-shaped structure, connecting means to bring the water reservoir in communication with the substrate for moistening the substrate, wherein the water reservoir extends substantially above a bottom side of the substrate in a vertical position of use of the growth device.

Devices, systems, and methods for providing and operating a valve control module and valves in an assembly line grow pod are provided herein. Some embodiments include an assembly line grow pod having a plurality of fluid lines fluidly coupled between a fluid source and a fluid destination within the assembly line grow pod, a plurality of valves, each coupled to a fluid line such that fluid movement through the fluid lines is selectively controlled by the valves, and a master controller communicatively coupled to the valves. The master controller is programmed to receive information relating to fluid delivery within the assembly line grow pod, determine one or more valves to direct the fluid, determine valve parameters for each of the valves that achieve the fluid direction, and transmit one or more control signals to the valves for directing the fluid within the assembly line grow pod.

An information processing device includes: an image acquiring section that acquires image data of an image of a plant; a form recognizing section that recognizes at least either (i) a shape of the plant or (ii) an end portion of the plant, based on the image data acquired by the image acquiring section; and a deciding section that decides at least one of (a) a level of water content in a medium of the plant, (b) whether water-supply to the plant is necessary or not, and (c) an amount of water-supply to the plant, based on a feature of at least either the shape of the plant or the end portion of the plant that is recognized by the form recognizing section.

Device and agricultural device, and operation method thereof, for measuring plant water present in vegetation comprising: an microwave emitter of a displaceable beam; a microwave receiver; an electronic data processor connected to receive a signal from the microwave receiver; wherein the microwave emitter is arranged to direct said displaceable beam towards the microwave receiver for measuring attenuation of the beam passing through each of a plurality of locations of the vegetation; wherein the electronic data processor is configured for calculating the attenuation of the displaceable beam between the emitter and receiver to obtain a 2D image corresponding to the measurement of water present in the vegetation. In particular, said beam is displaceable by the device being mounted on a vehicle which is movable along the vegetation to be measured in a horizontal direction, the microwave emitter and microwave receiver being jointly mounted in opposite ends of an arched structure.

An automated plant pot assembly includes a first pot for containing an aqueous solution. A second pot is provided for having a plant potted therein and the second pot is insertable into the first pot. A spray bar is removably positionable in the second pot and the spray bar has a plurality of spray ports each fluidly integrated therein. A pumping unit is integrated into the first pot to pump the aqueous solution in the first pot. The pumping unit is placed in fluid communication with the spray bar when the second pot is positioned in the first pot to spray the aqueous solution onto the plant that is potted in the second pot.

Methods and systems for providing nutrients to a plant are provided herein in which a feed solution containing water and solubilized nutrients are delivered to the plant at a desired ratio of concentration of water to fertilizer at each watering event in order to provide the plant with a consistent water to mineral ratio within their vascular system.

A plant cultivating apparatus according to an embodiment of the present disclosure includes a main body, a shelf, a cultivation bed, and a cultivation container. The shelf is disposed in the cultivation space formed in the main body, the cultivation bed is disposed on the shelf, and the cultivation container is seated in the cultivation bed. The cultivation bed includes a water supply part for receiving a predetermined amount of water. In addition, the shelf includes a water level sensor. The water level sensor is positioned vertically below the water supply part to measure an amount of water stored in the water supply part.

In various embodiments, an apparatus for growing plants is provided. The apparatus may include an irrigation apparatus, an accommodating space for accommodating one or more seed mats, and a controller which is configured to control the irrigation apparatus by a program controller. The irrigation apparatus includes a water circuit system for feeding water to the seed mats. The water circuit system includes at least one inlet, a water tank, at least one water circuit pump and at least one outlet. The irrigation apparatus includes a sensor which is configured to determine a conductance of the fed water.