Mechanized irrigation machine with active pest deterrents

The invention claimed is: 1 . A mobile irrigation system comprising: a plurality of irrigation spans each including a mobile tower having: a wheel assembly for traversing a field; and a motor configured to drive the wheel assembly; a control system for controlling the motors of the mobile towers, the control system including: a data transfer module configured to transmit communication signals over an external network; and a first internal network communication element configured to transmit communication signals over an internal mobile irrigation system network; and an active pest deterrent system at least partially mounted to one of the plurality of irrigation spans, the active pest deterrent system including a pest deterrent device configured to deter pests from remaining in the field or near the mobile irrigation system, the pest deterrent device including: a controller configured to activate the pest deterrent device; and a second internal network communication element communicatively coupling the controller to the control system via the internal mobile irrigation system network. 2 . The mobile irrigation system of claim 1 , the controller being configured to receive pest deterrent programming updates over the internal mobile irrigation system network via the second internal network communication element. 3 . The mobile irrigation system of claim 2 , the control system being configured to push the pest deterrent programming updates to the controller over the internal mobile irrigation system network. 4 . The mobile irrigation system of claim 3 , the control system further comprising a memory configured to store the pest deterrent programming updates, the control system being configured to push the pest deterrent programming updates to the controller over the internal mobile irrigation system network from the memory. 5 . The mobile irrigation system of claim 2 , the pest deterrent programming updates being at least one of changes to a laser pattern, changes to a direction of a noise cannon changes to a timing of a pest deterrent, changes to a volume or intensity of a deterrent, changes to a delay of a pest deterrent, and changes to a type of animal distress call. 6 . The mobile irrigation system of claim 2 , the pest deterrent programming updates being defined by remote user inputs. 7 . The mobile irrigation system of claim 1 , the control system being configured to communicate with external computing devices over an external network via a machine to machine (M2M) connection, the controller being configured to indirectly communicate with the external computing devices via the control system. 8 . The mobile irrigation system of claim 1 , further comprising a pre-existing control system, the active pest deterrent system being configured to integrate with the pre-existing control system. 9 . The mobile irrigation system of claim 1 , the active pest deterrent system further including a secondary power source including at least one of a battery, a solar panel, and a wind turbine. 10 . The mobile irrigation system of claim 1 , the active pest deterrent system further including a sensor configured to detect the presence of a pest. 11 . The mobile irrigation system of claim 10 , the sensor being configured to be mounted on the mobile irrigation system remotely from the pest deterrent device. 12 . The mobile irrigation system of claim 1 , at least a portion of the active pest deterrent system being positioned in the field remotely from the plurality of irrigation spans. 13 . The mobile irrigation system of claim 12 , the at least a portion of the active pest deterrent system positioned in the field remotely being communicatively coupled with the control system over the internal mobile irrigation system network for receiving pest deterrent programming updates. 14 . The mobile irrigation system of claim 1 , the pest deterrent device being at least one of a laser, a noise cannon, an animal distress call sound generator, an ultrasonic noise generator, a subsonic noise generator, and a strobe light. 15 . A mobile irrigation system comprising: a plurality of irrigation spans each including: 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 plurality of fluid emitters connected to the conduit section for delivering the irrigation fluid to crops in the field; and a mobile tower connected to the truss and configured to move the truss, conduit section, and fluid emitters across the field, the mobile tower including: a wheel assembly for traversing the field; and a motor configured to drive the wheel assembly; a control system for controlling the motors of the mobile towers, the control system including: a data transfer module configured to transmit communication signals over an external network via a machine to machine (M2M) connection; and a first internal network communication element configured to transmit communication signals over an internal mobile irrigation system network; and an active pest deterrent system at least partially mounted to one of the trusses or mobile towers, the active pest deterrent system including: a pest deterrent device configured to deter pests from remaining in the field or near the mobile irrigation system, the pest deterrent device including: a controller configured to activate the pest deterrent device; and a second internal network communication element communicatively coupling the controller to the control system via the internal mobile irrigation system network, the controller being configured to: receive pest deterrent programming updates defined by remote user inputs over the internal mobile irrigation system network via the second internal network communication element; and indirectly receive pest deterrent programming updates from external computing devices via the M2M connection. 16 . The mobile irrigation system of claim 15 , the control system further comprising a memory configured to store the pest deterrent programming updates, the control system being configured to push the pest deterrent programming updates to the controller over the internal mobile irrigation system network from the memory. 17 . The mobile irrigation system of claim 15 , at least a portion of the active pest deterrent system being positioned in the field remotely from the mobile tower and truss. 18 . The mobile irrigation system of claim 17 , the at least a portion of the active pest deterrent system positioned in the field remotely being communicatively coupled with the control system over the internal mobile irrigation system network for receiving pest deterrent programming updates. 19 . A mobile irrigation system comprising: a plurality of irrigation spans each including: 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 plurality of fluid emitters connected to the conduit section for delivering the irrigation fluid to crops in the field; and a mobile tower connected to the truss and configured to move the truss, conduit section, and fluid emitters across the field, the mobile tower including: a wheel assembly for traversing the field; and a motor configured to drive the wheel assembly; a control system for controlling the motors of the mobile towers, the co