Abstract: A system for mapping terrain using at least a first machine and a second machine traveling along the terrain includes a controller for each of the respective first and second machines. Each respective machine includes a plurality of sensors in electrical communication with the controller of each respective machine. The controller is configured to receive, from the plurality of sensors located on each respective machine a plurality of machine parameters indicative of sensed operations of the respective machine as the respective machine travels along the terrain. The controller is further configured to determine, based on the received machine parameters for the respective machine, a geometry and a grade of a plurality of paths on the terrain along which the respective machine travels.

Abstract: A system for remotely controlling a machine includes a remote input device, a transmitter remote from the machine, and a receiver at the machine. A controller is configured to store a desired communications threshold, receive input commands from the remote input device, generate a plurality of remote control input signals based upon the input commands, and transmit the plurality of remote control input signals at a location remote from the machine. The controller is further configured to receive at least some of the plurality of remote control input signals at the machine, determine a communications parameter based upon at least one of the plurality of remote control input signals, compare the communications parameter to the desired communications threshold, and generate a command to stop the machine if the communications parameter is outside the desired communications threshold.

Abstract: A system for locating an underground utility having a conduit is disclosed. The system includes a fiber optic cable coupled to the conduit. The fiber optic cable includes at least one core and a plurality of strain sensors distributed along a length of the at least one core. A processing device is disposed in selective communication with the fiber optic cable. The processing device is configured to receive signals from the plurality of strain sensors. A service station is communicably coupled to the processing device. The service station is configured to determine a shape of the fiber optic cable. Further, the service station is configured to determine a position of the conduit relative to a predefined reference frame fixed with the service station based on the shape of the fiber optic cable.

Abstract: A mapping system includes a pose sensor, a mapping sensor, a database defining a work surface, and a controller. The controller is configured to receive pose signals and determine the position and the orientation of the machine and receive mapping signals and determine a plurality of raw data points. The controller further determines a plurality of machine points defining a position of a portion of the machine and filters the plurality of raw data points based upon the plurality of machine points to define a plurality of filtered data points. The database may be updated with the plurality of filtered data points.

Abstract: A system for determining the stroke of a hydraulic cylinder is provided. The hydraulic cylinder includes a barrel with a rod that slidably extends therefrom. A fiber optic shape sensing system is positioned to determine the stroke of the rod relative to the barrel. An interrogation module is fixed to a reference frame. A fiber bundle is joined to the interrogation module at a proximal end and a fiber termination at a distal end, which is joined to the connecting end of the rod. A signal conditioning module connected to the interrogation module is configured to compute the location of at least one position of the fiber bundle relative to the reference frame; and provide an output indicative of the stroke of the connecting end relative to the barrel.

Abstract: A system for determining the orientation of an implement relative to a frame of a machine is provided. The implement is attached to and moveable relative to the machine. A fiber optic shape sensing system is associated with the implement. The fiber optic shape sensing system provides the position and orientation of the implement relative to a reference frame that is fixed to the machine frame.

Abstract: A computer-implemented method for automatically detecting a need for a ripping pass to be performed by a machine along a work surface is provided. The method may include monitoring one or more of machine parameters of the machine and profile parameters of the work surface, determining whether one or more predefined trigger conditions suggestive of the need for the ripping pass are met based on the machine parameters and the profile parameters, and generating a ripping pass request if one or more of the trigger conditions are satisfied.

Abstract: An excavation system is disclosed as having a locating device configured to generate a position signal indicative of a position of an excavation machine, a sensor configured to generate a load signal indicative of a work tool status, and a controller. The controller may be configured to determine a location of a haul truck, to determine when the work tool is filled with at least a threshold amount of material from a pile at the worksite, and to determine the position of the excavation machine. The controller may further be configured, based on operating limitations of the excavation machine, to determine a pivot point between the location of the haul truck and the position of the excavation machine; to plan a travel path for the excavation machine to the haul truck through the pivot point; and to direct an operator of the excavation machine to follow the travel path.

Abstract: A computer-implemented method for automatically detecting a need for a ripping pass to be performed by a machine along a work surface is provided. The method may include monitoring one or more of machine parameters of the machine and profile parameters of the work surface, determining whether one or more predefined trigger conditions suggestive of the need for the ripping pass are met based on the machine parameters and the profile parameters, and generating a ripping pass request if one or more of the trigger conditions are satisfied.

Abstract: A computer-implemented method for determining a cleanup pass profile for a machine implement is provided. The method may include identifying a pass target extending from a first end to a second end along a work surface, determining a plurality of primitives of a cleanup pass profile extending between the first end and the second end where each primitive may be defined based at least partially on volume constraints, determining a cost value associated with moving the machine implement along the cleanup pass profile based on an optimization cost function, and adjusting the volume constraints associated with one or more of the primitives to minimize the cost value.

Abstract: A system for automated control of a machine within a work area having a crest includes a first data map and a second data map. At least one sensor system generates operating data indicative of a change in terrain and a controller compares the operating data to the first data map while the machine is within a zone adjacent the crest. If the change in terrain exceeds a threshold, the controller generates an alert command signal. A method is also provided.

Abstract: A system for remotely operating a machine includes a plurality of remote control input devices including a propulsion input device. A controller generates an operator generated propulsion command to propel the machine and generates continued propulsion commands to continue to propel the machine without additional propulsion signals from a propulsion input device. The controller determines an interval since the generation of a previous remote input signal at the remote control unit and generates a change in operation command signal if the interval since the generation of the previous remote input signal exceeds an input signal absence threshold.

Abstract: A system for modifying a path of operation of a machine includes a position sensor and a controller. The controller stores the path of operation, receives a plurality of position signals as the work implement moves material along the path of operation, and determines the position of the work surface. The controller further determines an amount of material moved based at least in part upon the position of the work surface and modifies parameters used to determine a subsequent path of operation if the amount of material moved exceeds a predetermined amount.

Abstract: A mapping system includes a pose sensor, a mapping sensor, a database defining a work surface, and a controller. The controller is configured to receive pose signals and determine the position and the orientation of the machine and receive mapping signals and determine a plurality of raw data points. The controller further determines a plurality of machine points defining a position of a portion of the machine and filters the plurality of raw data points based upon the plurality of machine points to define a plurality of filtered data points. The database may be updated with the plurality of filtered data points.

Abstract: A system for automated control of a machine having a ground engaging work implement includes an implement load sensor system. A controller determines a change in terrain based at least in part upon a change in the load on the ground engaging work implement. If the change in terrain exceeds a threshold, the controller generates an alert command signal. A method is also provided.

Abstract: A system for remotely controlling a machine includes a remote input device, a transmitter remote from the machine, and a receiver at the machine. A controller is configured to store a desired communications threshold, receive input commands from the remote input device, generate a plurality of remote control input signals based upon the input commands, and transmit the plurality of remote control input signals at a location remote from the machine. The controller is further configured to receive at least some of the plurality of remote control input signals at the machine, determine a communications parameter based upon at least one of the plurality of remote control input signals, compare the communications parameter to the desired communications threshold, and generate a command to stop the machine if the communications parameter is outside the desired communications threshold.

Abstract: A remote lock-out/tag-out system and method allow a remote service technician to remotely lock-out a machine via a remote wireless control device. In one aspect, the lock-out initiation request is sent from the remote wireless control device to the machine. The remote wireless control device then receives from the machine an indication that the machine location and state are suitable for lock-out. In response, the remote wireless control device sends a lock-out command to the machine.

Abstract: A method for automatic watering of a zone on a worksite by a watering truck is provided. The method includes identifying a boundary of the zone on the worksite. The method further includes determining a position and heading of the watering truck on the worksite. The method further includes detecting if the position and the heading of the watering truck on the worksite is such that the watering truck is within the identified boundary of the zone. The method also includes selectively triggering one or more spray heads of the watering truck based, at least in part, on the detection.

Abstract: A control system for a vehicle sensor cleaning system is provided. The control system includes: a microcontroller configured to: receive inputs including at least one input from any one of the following sources: sensors, other controllers, and an operator; determine whether a signal to actuate a cleaning system for a sensor should be generated; analyze whether the signal should be delayed; sending an actuating signal to a sensor cleaning system if the controller determines that predetermined cleaning criteria are met and delays sending the actuating signal if the controller determines delay criteria are met. A method of controlling a sensor washing system may also be provided.

Abstract: A systems and methods for delivering fluid to a site using a mobile fluid delivery machine are disclosed. The method includes determining a location of the mobile fluid delivery machine on the site, and determining a fluid delivery rate based on the location of the mobile fluid delivery machine using information related to the site. The method further includes delivering the fluid to a surface of the site at the location of the mobile fluid delivery machine, at the determined fluid delivery rate.