An irrigation control panel, an irrigation system, and a method of monitoring operations of the irrigation system are provided. The irrigation control panel comprises a display and a processing element. The display comprises an electrophoretic portion. The processing element is configured to determine an operating condition of the irrigation system, and display an indication representative of the operating condition on the electrophoretic portion so that the indication representative of the operating condition displayed on the electrophoretic portion persists after disconnecting power.
G02F 1/167 - Dispositifs ou dispositions pour la commande de l'intensité, de la couleur, de la phase, de la polarisation ou de la direction de la lumière arrivant d'une source lumineuse indépendante, p.ex. commutation, ouverture de porte ou modulation; Optique non linéaire pour la commande de l'intensité, de la phase, de la polarisation ou de la couleur basés sur le mouvement de translation des particules dans un fluide sous l’influence de l’application d’un champ caractérisés par l’effet électro-optique ou magnéto-optique par électrophorèse
G05B 19/409 - Commande numérique (CN), c.à d. machines fonctionnant automatiquement, en particulier machines-outils, p.ex. dans un milieu de fabrication industriel, afin d'effectuer un positionnement, un mouvement ou des actions coordonnées au moyen de données d'u - caractérisée par les détails du panneau de commande, par la fixation de paramètres
A mobile irrigation system configured to support an unmanned aerial vehicle (UAV), the mobile irrigation system comprising a number of irrigation spans, a control system, and a UAV support system. Each irrigation span includes a conduit section connected to conduit sections of adjacent irrigation spans for transporting an irrigation fluid from a fluid source to a field, a truss configured to support the conduit section, a number of fluid emitters, and a mobile tower connected to the truss for moving the truss, conduit section, and fluid emitters across the field. The UAV support system includes a docking station configured to receive the UAV and deploy the UAV to collect agricultural data or to carry out agricultural tasks and a data transfer module for transferring agricultural data from the UAV to a remote data storage system or edge processing devices.
A data management system for an irrigation system and methods of controlling operations thereof are provided. The data management system directs data captured at a plurality of sensors on the irrigation system to a remote device, The data management system comprises a communication bus and a plurality of communications. The communication bus extends along the irrigation system. The plurality of communication systems are positioned on the irrigation system and are connected to the communication bus. Each of the communication systems is configured to receive signals representative of the data from one of the sensors and to transmit signals representative of the data, via wireless communication, to the remote device.
Systems and method for coordinating movements of agricultural machines and irrigation systems on irrigated fields to avoid collisions and other interferences between the equipment may be implemented with a mobile irrigation system, a number of agricultural machines, and a processing system. The processing system receives and analyzes data from an irrigation schedule for the irrigation system and location data from the agricultural machines to detect possible interferences between the equipment and takes corrective action if likely interferences are detected.
Systems and methods for scheduling and coordinating applications of fertilizers, pesticides, and water to fields while avoiding interferences between vehicles and other equipment may be implemented with a mobile irrigation system, a fertilizer applicator, a pesticide applicator, and a processing system. The processing system schedules and coordinates applications of fertilizers, pesticides, and water and prevents interferences between the machines primarily with data received from an irrigation schedule implemented by the irrigation system and data received from the fertilizer and pesticide applicators.
A01C 23/00 - Dispositifs distributeurs spécialement adaptés pour répandre le purin ou d'autres engrais liquides, y compris l'ammoniaque, p.ex. réservoirs de transport ou voitures arroseuses
A01G 25/09 - Agencements pour l'arrosage utilisant des installations mobiles sur roues ou analogues
An irrigation system and method of controlling operations of the irrigation system are provided. The irrigation system comprises a plurality of mobile support towers, a plurality of structural supports, a fluid-carrying conduit, water emitters, a sensor, and a control system. The plurality of mobile support towers are configured to move across a field. The plurality of structural supports extend between the mobile support towers, and the fluid-carrying conduit is supported above the field by the plurality of structural supports. The water emitters are coupled with the fluid-carrying conduit and emit water from the conduit onto the field. The sensor is supported on one of the structural supports or mobile support towers and is configured to capture data associated with a residue cover of a portion of the field. The control system is in communication with the sensor and is configured to receive the data associated with the residue cover of the portion of the field and determine a residue cover percentage for the portion of the field based on the data.
A computing device for processing geospatial data associated with an irrigation system comprises a processing element in electronic communication with a memory element. The processing element is configured or programmed to receive sensor data over time from a plurality of sensors associated with the irrigation system, receive or determine geolocation data, link data from each sensor with geolocation data to form geospatial data, determine trends in the geospatial data for each sensor or a group of sensors, determine changes or adjustments in an operation of components of the irrigation system based on trends determined in the geospatial data, and output an electronic signal whose analog level or digital data value varies according to the changes or adjustments in the operation of components of the irrigation system.
A system and method for calibrating an irrigation system to account for variations in flow rates, motor operating parameters, and other parameters caused by field elevation changes, pipe friction losses, water emitter nozzle wear, pressure-regulator inaccuracies, and other factors. A calibration map is created to account for the flow rate variations or other parameters and then consulted to control operation of the irrigation system.
B05B 12/08 - Aménagements de commande de la distribution; Aménagements de réglage de l’aire de pulvérisation sensibles à l'état du liquide ou d'un autre matériau fluide expulsé, du milieu ambiant ou de la cible
B05B 12/12 - Aménagements de commande de la distribution; Aménagements de réglage de l’aire de pulvérisation sensibles à l'état du liquide ou d'un autre matériau fluide expulsé, du milieu ambiant ou de la cible sensibles à l'état du milieu ambiant ou de la cible, p.ex. à l'humidité, à la température
9.
WHEEL TRACK MONITORING SYSTEM FOR AN IRRIGATION SYSTEM
A wheel track monitoring system for an irrigation system monitors the condition of a wheel track and alerts an operator and/or automatically takes corrective action when a wheel track develops ruts or other conditions that may adversely affect operation of the irrigation system. The wheel track monitoring system includes a wheel track condition sensor, a location sensor, and a processing system. The processing system receives and stores wheel track condition data and location data from the sensors as the irrigation system travels across a field and creates a log of wheel track condition data for multiple locations in the field. The processing system also analyzes the wheel track condition data to determine if the condition of the wheel track is unacceptable at any locations in the irrigated field and generates a corrective action signal if the condition is unacceptable.
A01G 25/09 - Agencements pour l'arrosage utilisant des installations mobiles sur roues ou analogues
G01S 19/01 - Systèmes de positionnement par satellite à radiophares émettant des messages horodatés, p.ex. GPS [Système de positionnement global], GLONASS [Système global de navigation par satellite] ou GALILEO
10.
MAINTENANCE MONITORING AND REPORTING SYSTEM FOR A MOBILE AGRICULTURAL IRRIGATION SYSTEM
A monitoring system for a mobile irrigation system that monitors the conditions or states of various electrical and/or mechanical components of the irrigation system and alerts an operator or automatically takes corrective action when conditions that may adversely affect operation of the irrigation system are detected. The monitoring system also monitors and records the locations of the irrigation system as it monitors the conditions or states of the electrical and/or mechanical components.
An alignment control system for controlling an alignment of a plurality of mobile towers, each mobile tower supporting a section of conduit in an irrigation system comprises a plurality of tower angle measurement devices and a control processing element. Each tower angle measurement device is associated with a successive one of the mobile towers and is configured to measure an angle value which varies according to a rotation angle of the associated mobile tower relative to one or more of the other mobile towers. The control processing element is configured or programmed to receive the angle value from each tower angle measurement device, compare the angle value to a threshold angle value, and generate and transmit control signals, data, or both that include an activation hysteresis value to a drive motor associated with each mobile tower that has an angle value greater than the threshold angle value.
A ponding monitoring and detection system monitors, detects, and predicts ponding in an irrigated field in essentially real-time. The ponding monitoring and detection system also monitors and records locations of detected and predicted ponding.
An irrigation system and method of controlling operations of the irrigation system are provided. The method includes determining, via a control system, a soil water depletion at a first location based on soil data captured via a sensor; determining, via the control system, a difference in irrigation amounts at the first location and a second location; determining, via the control system, a difference in precipitation amounts at the first location and the second location; determining, via the control system, a difference in evapotranspiration values of crops at the first location and the second location; calculating an estimated soil water depletion at the second location based, at least in part, on the soil water depletion at the first location, the difference in irrigation amounts at the first location and the second location, the difference in precipitation amounts at the first location and the second location, and the difference in evapotranspiration values of crops at the first location and the second location; and directing, via the control system, the irrigation system to apply an amount of water at the second location based, at least in part, on the estimated soil water depletion at the second location. The irrigation system may comprise a fluid-carrying conduit, a plurality of support towers with one or more controllable motors, water emitters, a controllable valve, and a control system that performs one or more of the aforementioned method steps.