Patent application number | Description | Published |
20090162177 | LOADER AND LOADER CONTROL SYSTEM - A loader and a control system for a loader provide for monitoring the position of a part of the implement carried by the loader. The loader has a body with left and right upright tower portions, and a loader drive system including ground engaging drive elements. Left and right interconnected lift arm assemblies each have an implement lift arm pivotally connected with a corresponding tower portion of the body at a lift arm pivot point. A lift actuator is connected between the body and the lift arm. The implement is pivotally connected with the lift arm assemblies about an implement pivot axis. The lift arm pivot point and the implement pivot axis in side elevation define a straight reference line. At least one implement tilt actuator is connected between at least one of the lift arm assemblies and the implement. A position sensor is mounted on the body at the level of, or above, the lift arm pivot points. An inclinometer is movable with the left and right interconnected lift arm assemblies to provide an indication of the inclination of the lift arm assemblies along the straight reference line. An angle sensor provides an indication of the orientation of said implement with respect to said left and right interconnected lift arm assemblies. The control is responsive to the position sensor, the inclinometer, and the angle sensor. The control determines the position of the position sensor and the position of a part of the implement with respect to the position sensor. | 06-25-2009 |
20110091308 | LOADER AND LOADER CONTROL SYSTEM - A loader and a control system for a loader provide for monitoring the position of a part of the implement carried by the loader. The loader has a body with left and right upright tower portions, and a loader drive system including ground engaging drive elements. Left and right interconnected lift arm assemblies each have an implement lift arm pivotally connected with a corresponding tower portion of the body at a lift arm pivot point. A lift actuator is connected between the body and the lift arm. The implement is pivotally connected with the lift arm assemblies about an implement pivot axis. The lift arm pivot point and the implement pivot axis in side elevation define a straight reference line. At least one implement tilt actuator is connected between at least one of the lift arm assemblies and the implement. A position sensor is mounted on the body at the level of, or above, the lift arm pivot points. An inclinometer is movable with the left and right interconnected lift arm assemblies to provide an indication of the inclination of the lift arm assemblies along the straight reference line. An angle sensor provides an indication of the orientation of said implement with respect to said left and right interconnected lift arm assemblies. The control is responsive to the position sensor, the inclinometer, and the angle sensor. The control determines the position of the position sensor and the position of a part of the implement with respect to the position sensor. | 04-21-2011 |
20120202446 | PROVIDING INFORMATION ABOUT MOBILE COMMUNICATION DEVICES - A method and system for providing information about mobile communication devices with respect to an area of interest is disclosed. A first person associated with the mobile communication device located in the area of interest is identified, wherein the identifying occurs at a location and messaging center. A contact person associated with the first person is identified. Information is provided to the contact person that the mobile communication device associated with the first person is located in the area of interest. | 08-09-2012 |
20130197960 | SYSTEM FOR ADAPTIVE CONSTRUCTION SEQUENCING - A computer system for adaptive construction sequencing. In one embodiment, a scheduling component is used to access a schedule for completing a project is. A 3-dimensional (3-D) simulation component is used to generate a 3-D model of at least one component used in completing the project. The 3-D simulation component is used to generate a 3-D simulation showing the construction of the project in accordance with the schedule. A cost estimating component is used to generate a cost estimate of the cost of completing the project in accordance with the schedule. | 08-01-2013 |
20130275035 | PERFORMING NON-CONTACT BASED DETERMINATION OF THE POSITION OF AN IMPLEMENT - Embodiments of the present invention are directed to a method for performing non-contact based determination of the position of an implement. In one embodiment, the method includes using a non-contact based measurement system to determine a first measurement comprising the position of the implement relative to a mobile machine coupled with the implement, determining a second measurement comprising the geographic position of the mobile machine and determining the geographic position of the implement using the first measurement and the second measurement. | 10-17-2013 |
20130282266 | SYSTEMS FOR PERFORMING NON-CONTACT BASED DETERMINATION OF THE POSITION OF AN IMPLEMENT - Embodiments of the present invention are directed to systems for performing non-contact based determination of the position of an implement. In one embodiment, a non-contact based measurement system is used to determine the relative position of an implement coupled with a mobile machine. The geographic position of the mobile machine is determined and the geographic position of said implement based upon the geographic position of the mobile machine and the position of the implement relative to the mobile machine. | 10-24-2013 |
20130333364 | METHOD AND SYSTEM FOR CONTROLLING AN EXCAVATOR - A control for an excavator of the type having a plurality of hydraulic cylinders for moving excavator components such that digging is accomplished at a worksite with an excavator bucket or other excavator implement, includes a plurality of hydraulic control valves, each of which is associated with a respective one of the hydraulic cylinders for controlling the application of hydraulic fluid pressure to the respective one of the hydraulic cylinders, and a plurality of manually actuated joystick valves for supplying hydraulic fluid pressure to the respective hydraulic control valves to control the movement of the hydraulic cylinders. The control includes a sensor arrangement for sensing the position of one or more excavator components. | 12-19-2013 |
20140125651 | 3D MAPPING OF A SURVEYED ENVIRONMENT - A real time 3D survey site modeler is disclosed. One embodiment includes a survey data collector to collect survey data for a location and obtain information for each object that is surveyed. In addition, a 3D model creator receives the collected survey data and creates a 3D model of the world being surveyed in real time. | 05-08-2014 |
Patent application number | Description | Published |
20080247758 | Position determination system using radio and laser in combination - A combined radio and laser positioning system comprising: a network of ground based radio communication devices, a laser transmitter configured to generate at least one laser beam, and at least one user unit. Each user unit comprises a radio receiver configured to receive at least one ranging radio signal transmitted by at least one ground based radio communication device, a laser detector configured to receive at least one laser beam generated by the laser transmitter, and a processor configured to convert a set of data including: {a set of data transmitted by at least one ranging radio signal, and a set of data transmitted by said at least one laser beam} into position coordinates of the user unit, wherein a set of vertical coordinates of the user unit is obtained with a laser-assisted (LA) accuracy. | 10-09-2008 |
20100138266 | MANAGEMENT OF MATERIALS ON A CONSTRUCTION SITE - A computer implemented method and computer system for management of materials on a construction site. In one embodiment, at least one cost scenario is defined for moving at least one material with a vehicle pool. A status of a project which uses the material is then determined. A report is generated which identifies a vehicle of the vehicle pool and defines a load of the material which is to be moved by the vehicle from a first location to a second location. | 06-03-2010 |
20130024245 | MANAGEMENT OF MATERIALS ON A CONSTRUCTION SITE - In a computer implemented method for management of materials on a construction site, a status of a project which uses at least one material is determined by a computer system. A report is generated by the computer system. The report identifies a vehicle, from a vehicle pool, to be utilized to move the material and defines a load of the material which is to be moved by the vehicle, according to a mass haul plan, from a first location to a second location. The vehicle is identified based on results of a simulation. The status of the project is automatically updated by the computer system based on an actual size and an actual drop-off location of the load of the material moved by the vehicle. The computer system updates the report based on the updating of the status of the project. | 01-24-2013 |
Patent application number | Description | Published |
20090256860 | System and Method for Presenting Topographical Data for an Earthmoving Operation - System and method for presenting a visual image of a work site for an earthmoving machine. In one embodiment, target design data for the work site may be received. A spatial location and orientation for an earthmoving machine operating in relation to the work site may also be received. A visual image of at least a portion of the work site may be received from an imaging device mounted to the earthmoving machine. A visual image of the portion of the work site may be displayed with a subset of the design data overlaying the visual image, wherein the subset of the design data relates to the portion of the work site. | 10-15-2009 |
20090259373 | Earthmoving Machine Sensor - System and method for providing an excavation characteristic associated with an earthmoving machine. In one embodiment, a radio frequency identification (RFID) tag associated with an attachment mounted to an earthmoving machine may be identified. An optical benchmark signal may be detected, by an optical receiver. The position of the attachment relative to the earthmoving machine may be determined based, at least in part, on identification of the RFID tag. The position of the attachment may be provided to an operator of the earthmoving machine | 10-15-2009 |
20100241484 | System and Method to Provide Consumables - System and method for providing consumables to machines. In one embodiment, machine data indicating a remaining quantity of a machine consumable for a machine may be received by a server. A location may be received by the server providing a location of the machine. An estimated operational duration for the machine may be determined and a supplier may be selected to provide the machine consumable based, at least in part, on the estimated operational duration. The supplier may be requested to provide the machine consumable to the machine within a time period based on the estimated operational duration. | 09-23-2010 |
20120274772 | Railway Track Monitoring - Novel tools and techniques for monitoring railway track geometry. In one aspect, some such tools and techniques can determine a location of a platform along a railway, capture one or more images of the railway, and/or analyze the rail configuration at that point. In another aspect, some solutions might employ photogrammetric techniques to analyze the rail configuration and thereafter store data about the rail configuration, perhaps correlated with the location of the images, in a data store. | 11-01-2012 |