Patents by Inventor Scott A. Leman
Scott A. Leman has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 10364548Abstract: A method of controlling machines for performing operations at a worksite is disclosed. The method includes receiving pre-construction terrain data, design terrain data, and resource data and then defining a plurality of constraints based on the data. Operations of the machines are simulated based on the data. The method includes estimating process variables associated with the operations and defining and scheduling tasks to be performed by the machines. The method includes collecting real time data from the worksite and updating the estimated process variables and the scheduled tasks of the machines based on the collected real time data. Instructions are then provided to the machines for executing the tasks.Type: GrantFiled: October 2, 2017Date of Patent: July 30, 2019Assignee: Caterpillar Inc.Inventors: Liqun Chi, Sanat A. Talmaki, Paul T. Corcoran, Scott A. Leman, Brad L. Holsapple, Mark W. Whiting, Allen J. DeClerk
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Publication number: 20180044888Abstract: A method of controlling machines for performing operations at a worksite is disclosed. The method includes receiving pre-construction terrain data, design terrain data, and resource data and then defining a plurality of constraints based on the data. Operations of the machines are simulated based on the data. The method includes estimating process variables associated with the operations and defining and scheduling tasks to be performed by the machines. The method includes collecting real time data from the worksite and updating the estimated process variables and the scheduled tasks of the machines based on the collected real time data. Instructions are then provided to the machines for executing the tasks.Type: ApplicationFiled: October 2, 2017Publication date: February 15, 2018Applicant: Caterpillar Inc.Inventors: Liqun Chi, Sanat A. Talmaki, Paul T. Corcoran, Scott A. Leman, Brad L. Holsapple, Mark W. Whiting, Allen J. DeClerk
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Patent number: 9822509Abstract: A method of controlling machines for performing operations at a worksite is disclosed. The method includes receiving pre-construction terrain data, design terrain data, and resource data and then defining a plurality of constraints based on the data. Operations of the machines are simulated based on the data. The method includes estimating process variables associated with the operations and defining and scheduling tasks to be performed by the machines. The method includes collecting real time data from the worksite and updating the estimated process variables and the scheduled tasks of the machines based on the collected real time data. Instructions are then provided to the machines for executing the tasks.Type: GrantFiled: May 2, 2016Date of Patent: November 21, 2017Assignee: Caterpillar Inc.Inventors: Liqun Chi, Sanat A. Talmaki, Paul T. Corcoran, Scott A. Leman, Brad L. Holsapple, Mark W. Whiting, Allen J. DeClerk
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Publication number: 20170314232Abstract: A method of controlling machines for performing operations at a worksite is disclosed. The method includes receiving pre-construction terrain data, design terrain data, and resource data and then defining a plurality of constraints based on the data. Operations of the machines are simulated based on the data. The method includes estimating process variables associated with the operations and defining and scheduling tasks to be performed by the machines. The method includes collecting real time data from the worksite and updating the estimated process variables and the scheduled tasks of the machines based on the collected real time data. Instructions are then provided to the machines for executing the tasks.Type: ApplicationFiled: May 2, 2016Publication date: November 2, 2017Applicant: Caterpillar Inc.Inventors: Liqun Chi, Sanat A. Talmaki, Paul T. Corcoran, Scott A. Leman, Brad L. Holsapple, Mark W. Whiting, Allen J. DeClerk
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Publication number: 20100250123Abstract: A system and method dispenses material from a hauling and dispensing machine about a worksite such as a landscape or terrain development. The system uses positioning technologies that transmit positioning signals to the machine. An onboard controller can receive the positioning signals and determine the machine's actual position with respect to the worksite. The actual position can be compared to a desired topography for the worksite and any variation can be determined. From the determined variation, instructions can be generated to dispense and/or cease dispensing material. In one aspect, a remote management system can be included that generates the instructions and that manages a plurality of machines about the worksite.Type: ApplicationFiled: March 30, 2009Publication date: September 30, 2010Applicant: Caterpillar Inc.Inventor: Scott A. Leman
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Patent number: 7678015Abstract: A power train control system for a mobile machine is disclosed. The power train control system has a power source configured to produce a power output, a transmission device operatively connected to receive the power output and propel the mobile machine, and a control module. The control module is configured to receive an indication of a power demand, receive an indication of a current travel speed of the mobile machine, and reference the power demand and the current travel speed with a power train efficiency map to determine a desired power source speed. The power train control system is also configured to control operation of the transmission device to bring a speed of the power source within a predetermined amount of the desired power source speed.Type: GrantFiled: November 17, 2006Date of Patent: March 16, 2010Assignees: Caterpillar Inc., Eaton CorporationInventors: Steven J. Funke, Jason K. Bloms, Thomas J. Crowell, Scott A. Leman, James R. Weber, Jeff Skorupski, Tom Genise, Rich Nellums, Daniel G. Smedley, Donald Speranza
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Patent number: 7556004Abstract: An engine that includes two intake and two exhaust valves for each cylinder is equipped for single valve constant lift engine braking. The exhaust valves may be actuated in a conventional manner via a rotating cam and a rocker arm coupled to a bridge that spans between the pair of exhaust valves. Engine braking is accomplished by actuating a brake actuator to hold one of the exhaust valves partially open, while the other of the two exhaust valves is allowed to close. Seating velocity of the non-braking valve is limited by including a second actuator button, namely a valve seating actuator, on the rocker arm that engages the valve bridge above the non-braking valve as it moves toward its closed position when the brake actuator is actuated.Type: GrantFiled: October 16, 2006Date of Patent: July 7, 2009Assignee: Caterpillar Inc.Inventors: Stephen M. Wiley, Brian K. Garman, Earl A. Pilgrim, Scott A. Leman
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Patent number: 7441519Abstract: An engine valve actuation system may include an intake valve moveable between a first position that blocks a flow of fluid and a second position that allows a flow of fluid. The system may also include a cam assembly configured to move the intake valve between the first position and the second position. An electromagnetic actuator may be configured to selectively modify a timing of the intake valve in moving from the second position to the first position.Type: GrantFiled: December 23, 2005Date of Patent: October 28, 2008Assignee: Caterpillar Inc.Inventors: Homa Afjeh, Ronald D. Shinogle, Gregory D. Brock, Scott A. Leman
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Publication number: 20080087239Abstract: An engine that includes two intake and two exhaust valves for each cylinder is equipped for single valve constant lift engine braking. The exhaust valves may be actuated in a conventional manner via a rotating cam and a rocker arm coupled to a bridge that spans between the pair of exhaust valves. Engine braking is accomplished by actuating a brake actuator to hold one of the exhaust valves partially open, while the other of the two exhaust valves is allowed to close. Seating velocity of the non-braking valve is limited by including a second actuator button, namely a valve seating actuator, on the rocker arm that engages the valve bridge above the non-braking valve as it moves toward its closed position when the brake actuator is actuated.Type: ApplicationFiled: October 16, 2006Publication date: April 17, 2008Inventors: Stephen M. Wiley, Brian K. Garman, Earl A. Pilgrim, Scott A. Leman
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Patent number: 7347171Abstract: An engine valve actuator providing Miller cycle benefits and a method of operating an engine valve actuator are disclosed. The valve actuator employs a first force to hold an exhaust valve of the engine open during an exhaust stroke and a second, stronger force to hold the exhaust valve open during a compression stroke. The valve actuator may be operated using pressurized fluid adapted to extend an actuator piston through a cylinder. The first force may be derived by a mechanically driven actuator, while the second force may be derived from a high pressure rail of the engine. A low pressure source of the engine may be used to fill the actuator cylinder, with the high pressure rail only being placed into fluid communication with the cylinder when desired. A control valve may be employed to direct either the low pressure or high pressure fluid to the valve actuator cylinder.Type: GrantFiled: February 4, 2002Date of Patent: March 25, 2008Assignee: Caterpillar Inc.Inventors: Scott A. Leman, David Andrew Pierpont
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Publication number: 20070254771Abstract: A power train control system for a mobile machine is disclosed. The power train control system has a power source configured to produce a power output, a transmission device operatively connected to receive the power output and propel the mobile machine, and a control module. The control module is configured to receive an indication of a power demand, receive an indication of a current travel speed of the mobile machine, and reference the power demand and the current travel speed with a power train efficiency map to determine a desired power source speed. The power train control system is also configured to control operation of the transmission device to bring a speed of the power source within a predetermined amount of the desired power source speed.Type: ApplicationFiled: November 17, 2006Publication date: November 1, 2007Inventors: Steven J. Funke, Jason K. Bloms, Thomas J. Crowell, Scott A. Leman, James R. Weber, Jeffrey H. Skorupski, Thomas A. Genise, Richard A. Nellums, Daniel G. Smedley, Donald Speranza
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Patent number: 7252054Abstract: Engines and methods of controlling an engine may involve one or more cams associated with engine intake and/or exhaust valves. In some examples, shifting the rotational phase of one or more cams advances and/or delays timing of the opening and/or closing of valves. Timing of valve closing/opening and possible use of an air supply system may enable engine operation according to a Miller cycle.Type: GrantFiled: November 19, 2004Date of Patent: August 7, 2007Assignee: Caterpillar IncInventors: James R. Weber, Scott A. Leman, Gerald N. Coleman, Kevin P. Duffy, Eric C. Fluga, Jonathan P. Kilkenny
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Patent number: 7204213Abstract: A variable compression ratio internal combustion engine and method of operating the same is provided. The engine comprises an engine block defining at least one cylinder; a head connected with the engine block; a piston slidable in each cylinder; a combustion chamber defined by the head, the piston, and the cylinder; an air intake valve movable to open and close the air intake port; an air supply system including two turbochargers in series fluidly connected to the air intake port; a fuel supply system operable to inject fuel into the combustion chamber; an air intake valve assembly comprising a camshaft configured to open the intake valve; and a hydraulically actuated variable intake valve closing mechanism configured to hold the intake valve open.Type: GrantFiled: April 14, 2005Date of Patent: April 17, 2007Assignee: Caterpillar IncInventors: James Richard Weber, Scott A. Leman
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Patent number: 7201121Abstract: Engines and methods of controlling an engine may involve one or more fluidically driven actuators associated with engine intake and/or exhaust valves. In some examples, the actuators may be placed in flow communication with high pressure fluid from one source and/or low pressure fluid from another. Timing of valve closing/opening and use of an air supply system may enable engine operation according to a Miller cycle.Type: GrantFiled: November 19, 2004Date of Patent: April 10, 2007Assignee: Caterpillar IncInventors: James R. Weber, Scott A. Leman, Gerald N. Coleman, Kevin P. Duffy, Eric C. Fluga, Jonathan P. Kilkenny, David A. Pierpoint
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Patent number: 7191743Abstract: In one aspect, the present disclosure is directed to an internal combustion engine having an engine block defining at least one cylinder and a head connected with said engine block. The head has an air intake port and an exhaust port. The internal combustion engine also has a piston and a combustion chamber. The internal combustion engine further has an air intake valve movable to open and close the air intake port and an air supply system having at least one turbocharger fluidly connected to the air intake port. The internal combustion engine additionally has a fuel supply system operable to inject fuel into the combustion chamber, a cam assembly selectively mechanically linked to the air intake valve to move the air intake valve, and an electromagnetic actuator configured to decouple the cam assembly from the air intake valve and control movement of the air intake valve.Type: GrantFiled: November 19, 2004Date of Patent: March 20, 2007Assignee: Caterpillar IncInventors: James R. Weber, Scott A. Leman, Gerald N. Coleman, Kevin P. Duffy, Eric C. Fluga, Jonathan P. Kilkenny, Homa Afjeh
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Patent number: 7178492Abstract: A method of operating an internal combustion engine, including at least one cylinder and a piston slidable in the cylinder, may include supplying a mixture of pressurized air and recirculated exhaust gas from an intake manifold to an air intake port of a combustion chamber in the cylinder, selectively operating an air intake valve to open the air intake port to allow pressurized air to flow between the combustion chamber and the intake manifold substantially during a majority portion of a compression stroke of the piston, and operably controlling a fuel supply system to inject fuel into the combustion chamber after the intake valve is closed.Type: GrantFiled: September 3, 2004Date of Patent: February 20, 2007Assignee: Caterpillar IncInventors: Gerald N. Coleman, Kevin P. Duffy, Stephen A. Faulkner, Eric C. Fluga, Jonathan P. Kilkenny, Scott A. Leman, Cornelius N. Opris, Maarten Verkiel, James R. Weber
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Patent number: 7025047Abstract: It is known that performance of actual fuel injectors tends to deviate from performance of a nominal injector as a function of rail pressure and on-time, due to such factors as machining tolerances of fuel injector components. In addition, performance characteristics of fuel injectors tend to change after they have been broken in. These changes can lead to unexpected inconsistencies with other engine components. For example, for those engines which utilize smoke limiting maps, when the injectors are not performing as expected, the injection adjustments that result from use of the smoke limiting maps can sometimes become fruitless. Therefore, the present invention includes two in-chassis strategies for evaluating fuel injector performance, including a bare acceleration test and a loaded fuel injector performance test.Type: GrantFiled: September 29, 2004Date of Patent: April 11, 2006Assignee: Caterpillar Inc.Inventors: Scott A. Leman, Ronald Shinogle, William J. Rodier
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Patent number: 7007643Abstract: An engine valve actuation system may include an intake valve moveable between a first position that blocks a flow of fluid and a second position that allows a flow of fluid. The system may also include a cam assembly configured to move the intake valve between the first position and the second position. An electromagnetic actuator may be configured to selectively modify a timing of the intake valve in moving from the second position to the first position.Type: GrantFiled: October 31, 2003Date of Patent: March 7, 2006Assignee: Caterpillar Inc.Inventors: Homa Afjeh, Ronald D. Shinogle, Gregory D. Brock, Scott A. Leman
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Patent number: 6971366Abstract: Engine compression release brakes include some degree of lash between the brake actuation portion and the engine exhaust valve portion. The disclosed apparatus and method provides an integral lash adjuster that includes an adjusting screw that is threadably received by a slidable plunger. Rotation of the adjusting screw causes the plunger to slide relative to a plunger cavity and responsively modify the amount of lash.Type: GrantFiled: November 30, 2001Date of Patent: December 6, 2005Assignee: Caterpillar Inc.Inventors: Steven J. Funke, Michael P. Harmon, Scott A. Leman, Matthew G. Mickiewicz
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Patent number: 6907851Abstract: An engine valve actuation system is provided. The engine valve actuation system includes an intake valve that is moveable between a first position to prevent a flow of fluid and a second position to allow a flow of fluid. A cam assembly is configured to move the intake valve between the first position and the second position. A fluid actuator is configured to selectively prevent the intake valve from moving to the first position. A source of fluid is in fluid communication with the fluid actuator. A directional control valve is configured to control a flow of fluid between the source of fluid and the fluid actuator. A check valve is disposed between the directional control valve and the source of fluid, only allowing fluid flow from the fluid source to the directional control valve. A bleed orifice may be disposed between the directional control valve and the source of fluid, in parallel with the check valve.Type: GrantFiled: December 4, 2002Date of Patent: June 21, 2005Assignee: Caterpillar IncInventors: Travis E. Barnes, Judson R. Bruce, Sean O. Cornell, Douglas E. Handly, Scott A. Leman, David M. Milam, Wade J. Robel, Di Wu