Abstract: A watering station includes a robotic watering device having a first swing arm having a first end opposite a second end, a rotatable robot arm rotatably coupled to a second end of the first swing arm, a first motor configured to pivot the first swing arm, a second motor configured to rotate the rotatable robot arm with respect to the first swing arm, and pump outlets positioned on the rotatable robot arm, one or more pumps fluidly coupled to the pump outlets positioned on the rotatable robot arm, and a fluid reservoir, where the one or more pumps comprises an inlet and an outlet, and the one or more pumps are fluidly coupled to the fluid reservoir such that when activated the one or more pumps draw fluid from the fluid reservoir and disperse a predetermined amount of fluid out the pump outlets.

Abstract: A system for normalizing tank pressures includes a controller, a holding tank, a first reservoir, a first valve fluidly coupled to the first reservoir and communicatively coupled to the master controller, a distribution line fluidly coupling the holding tank to the first valve, a first sensor communicatively coupled to the controller, where the first sensor is configured to output signals corresponding to a fluid level within the first reservoir, and an instruction set that causes the processor to: receive signals from the first sensor, determine whether the fluid level within the first fluid reservoir is below a first threshold, generate a first signal to open the first valve when the fluid level is below the first threshold such that fluid from the holding tank fills the first reservoir, and generate a second signal to close the first valve when the fluid level is not below the first threshold.

Abstract: A watering station includes a robotic watering device having a first swing arm having a first end opposite a second end, a rotatable robot arm rotatably coupled to a second end of the first swing arm, a first motor configured to pivot the first swing arm, a second motor configured to rotate the rotatable robot arm with respect to the first swing arm, and pump outlets positioned on the rotatable robot arm, one or more pumps fluidly coupled to the pump outlets positioned on the rotatable robot arm, and a fluid reservoir, where the one or more pumps comprises an inlet and an outlet, and the one or more pumps are fluidly coupled to the fluid reservoir such that when activated the one or more pumps draw fluid from the fluid reservoir and disperse a predetermined amount of fluid out the pump outlets.

Abstract: A testing station for testing an industrial cart includes a controller, a length of track having a first section, a second section, and a third section. Sensors are communicatively coupled to the controller, where the sensors are configured to at least detect a cart traversing the third section. An electric source electrically coupled to the second section, where the second section provides electric power to a first pair of wheels of a cart when the cart traverses the first section and the second section, and the second section provides electric power to a second pair of wheels when the cart traverses the second section and the third section. An instruction set causes the processor to receive, from a first sensor, signals indicating the cart is traversing the third section and in response to receiving the signals indicating that the cart is traversing the third section, determine the cart is functioning.

Abstract: Assembly line grow pods, watering stations, and seeder components that include robotic applicators are disclosed. An assembly line grow pod includes a tray held by a cart supported on a track. The tray includes a plurality of sections. The assembly line grow pod further includes a watering component providing fluid and a robotic applicator including an articulating robot arm having one or more outlets that selectively dispense the fluid therefrom. The articulating robot arm is positioned to align the one or more outlets with a corresponding one or more of the plurality of sections such that the fluid is dispensable into each of the plurality of sections independently.