Methods of installing and using a horticulture lighting controller having a substantially rectangular shaped housing with an in-operation removable front cover panel, the methods preferably comprising mounting the fully assembled lighting controller to a mounting surface without first having to remove any component of the controller, remove a front or outer cover of the controller, perform any wiring connections on a backside or backplane of the controller chassis, or pre-wire any connections whatsoever, and then removing the front cover panel to connect the controller to a power supply circuit.

A system, apparatus, and method for thermal regulation in a tiered rack growth system. A contact heat exchange converter is provided to remove thermal energy of a light fixture for the tiered rack growth system. A contact thermal exchange cavity defined in the contact heat exchange converter is dimensioned to cooperatively receive an arcuate thermal sink of the light fixture. A circulation conduit communicates a dense medium coolant to remove thermal energy carried by a thermal mass of the contact heat exchange converter.

Embodiments described herein provide systems for inducing a desired response in an organism by controlling the duty cycle, wavelength band and frequency of photon bursts to an organism, through the photon modulation of one or more photon pulse trains in conjunction with one or more different photon pulse trains to the organism and duty cycle, where the photon modulation and duty cycle is based upon the specific needs of the organism. Devices for inducing a desired response in an organism such as growth, destruction or repair through the photon modulation of one or more photon pulse trains in conjunction with one or more different photon pulse trains to the organism are also provided. Further provided are methods for the optimization of organism growth, destruction or repair through the use of high frequency modulation of photons of individual color spectrums.

A system and method for treating a plant structure (bulbs, corms, tubers, rhizomes, buds, cuttings and whole plants) with low-temperature plasma to increase one or more growth and development characteristic of the plant and reduce microbial attacks. The plasma device is a portable or mobile plasma device powered by a DC or high-frequency power source. The plant structure is inserted into an enclosure containing the plasma. Alternatively, the plasma device is moved to treat the whole plant structure.

A system and method for treating a plant structure (bulbs, corms, tubers, rhizomes, buds, cuttings and whole plants) with low-temperature plasma to increase one or more growth and development characteristic of the plant and reduce microbial attacks. The plasma device is a portable or mobile plasma device powered by a DC or high-frequency power source. The plant structure is inserted into an enclosure containing the plasma. Alternatively, the plasma device is moved to treat the whole plant structure.

A system for the fertigation of a plant vessel and method of use for the same is disclosed. The system comprises a grow module containing a plurality of growing trays additionally containing plants, and/or shoots of plants in various stages of development. The growing trays are individually extracted from the grow module via a tray movement system and tray elevator controlled by a control system and precisely placed in a fertigation system, wherein they are aligned over and lowered onto an at least one nozzle which penetrate the plant vessels containing the plants and fertigate them with a combination of water, nutrients, and/or pressurized air. The individual growing tray is then replaced in the grow module and the process is repeated for all growing trays and plant vessels in the grow module.

An electrical energy processing unit of an apparatus to kill a plant or at least attenuate plant growth is disclosed. The electrical energy processing unit includes a converter and a control circuit. Also disclosed are an apparatus that includes the electrical energy processing unit and a method of utilizing the apparatus. Further disclosed are a computer program for a processor of the control circuit of the electrical energy processing unit and a non-transitory computer readable medium that includes the computer program.

Techniques for horticulture light are provided. A horticulture light can monitor at least one characteristic of a defined region in which at least one plant is planted in a horticulture environment in which horticulture light bulb is installed, determine at least one action for the horticulture light bulb to perform based on a state of the at least one characteristic and at least one objective of the installation of the horticulture light bulb in the horticulture environment, and execute the at least one action.

A fogponics apparatus is provided. The apparatus comprises a fog channel and an air channel. The fog channel has a first fog channel end that is open, and a second fog channel end that is closed. The air channel is within the fog channel and has a first air channel end extending past the first fog channel end, and a second air channel end within the fog channel. The second air channel end is distanced away from the closed second fog channel end such that when vaporized liquid is sent from the first air channel end to the second air channel end, the vaporized liquid egresses the second air channel end and travels through the fog channel to the first fog channel end.

The present invention relates to a method for determining a growth status of a plant comprising chlorophyll, the method comprising the steps of: illuminating the plant (102) with input light including a light intensity modulation component (205, 206, 207, 208); detecting light emitted from the plant; determining (S702) an offset light intensity (204) surrounding the plant, the offset light intensity being a static component of the input light; determining (S718) a phase and a gain between the input light and the detected light, determining (S720) a growth status of the plant based on a predetermined relationship between input light and detected light, and on the phase and the gain. The invention also relates to a corresponding system and to a computer program product.