Patent application number | Description | Published |
20080255712 | System for customizing responsiveness of a machine - A control system for customizing a relationship between an operator input at an input controller and a corresponding response of a work machine is disclosed. The control system includes an input controller operable to receive an operator input and generate a corresponding control signal. The control system also includes a hand-held programmable device having parameters stored therein. The parameters are adjustable to control responsiveness of a component of the work machine over a range of inputs at the input controller. The hand-held programmable device is operable to adjust the parameters in response to an input from an operator. A control module is disposed on the work machine and is operable to receive signals from the hand-held programmable device. The signals are representative of a desired relationship between an operator input to the input controller and a corresponding response of the work machine. The control module is also operable to receive the control signal from the input controller and process the control signal based on the signals from the hand-held programmable device. | 10-16-2008 |
20090139119 | Payload system that compensates for rotational forces - The present disclosure is directed to a payload calculation system for use with a work implement. The payload calculation system may have a state sensor configured to measure a state of the work implement. The payload calculation system may further have a processing device configured to calculate a mass of a payload moved by the work implement. The processing device may be configured to use the measured state to compensate the calculation of the mass for centrifugal, inertial, and frictional forces of the work implement caused by the work implement rotating about a vertical pivot. | 06-04-2009 |
20090143896 | Payload system with center of gravity compensation - The present disclosure is directed to a payload calculation system for use with a work implement having at least two linkage members. The payload calculation system may have at least one state sensor configured to measure a state of the at least two linkage members. The payload calculation system may also have a processing device in communication with the at least one state sensor. The processing device may account for changes in a center of gravity of each of the at least two linkage members. The processing device may also be configured to use the at least one state sensor to determine a mass of a payload moved by the work implement. | 06-04-2009 |
20090198409 | Work tool data system - The present disclosure is directed to a data system for use with a work tool. The data system may have a processing device and a data storage device in communication with the processing device. The data storage device may be located on a work tool and be configured to log at least one of a usage time of the work tool and a warning event associated with the work tool. | 08-06-2009 |
20090218112 | Semi-autonomous excavation control system - An excavation control system for a machine is disclosed. The excavation control system may have a tool, at least one operator input device configured to provide manual control over movement of the tool, and a controller in communication with the at least one operator input device. The controller may be configured to receive an input related to an operator desired tool location, and determine that an operator is manually controlling movement of the tool toward the operator desired tool location. The controller may be further configured to automatically assume control over movement of the tool toward the operator desired tool location based on the determination. | 09-03-2009 |
20090299581 | Method for adjusting engine speed based on power usage of machine - A method for controlling an engine of a machine includes a step of setting an initial engine speed of the engine based on a position of an operator engine speed selection device. The machine is operated for a period of time at the initial engine speed, and a power usage value for the machine during that period of time is identified. The initial engine speed of the engine is then lowered to a reduced engine speed corresponding to the power usage value. | 12-03-2009 |
20100178107 | Machine system operation and control strategy for material supply and placement - A method of operating machine system includes receiving expected material placement data for a paving machine and comparing the expected material placement data with actual material placement data. The method further includes outputting a signal based on the comparison, and commanding replenishing material from a supply machine to the second supply volume responsive to the signal. A paving control system for a paving system includes a computer readable memory configured to store expected material placement data, a receiver configured to receive actual material placement data and a data processor configured to output a control signal to a supply machine to controllably replenish material to an external material supply volume for the paving system in a manner responsive to comparing the expected material placement data with the actual material replacement data. | 07-15-2010 |
20100249957 | SYSTEM AND METHOD FOR CONTROLLING MACHINES REMOTELY - Systems and methods for remotely controlling machines includes generating, on a display device associated with a remote control console, a first image associated with a position of the machine at a first time period. A virtual position of the machine is estimated based at least on the first position and at least one operating parameter associated with the machine. A virtual image of the machine relative to the first image is generated on the display device, the virtual image of the machine corresponding to the estimated virtual position of the machine. | 09-30-2010 |