Patent application number | Description | Published |
20100296693 | SYSTEM AND PROCESS FOR ROOF MEASUREMENT USING AERIAL IMAGERY - The present disclosure shows creating a first layer and a second layer, in computer memory and substantially overlapping at least a segment of line from said first layer with at least a segment of another line from said second layer. A first non-dimensional attribute is different from said second non-dimensional attribute of the two lines. A user length field enabling a client with said interactive file to override at least one of said length numeric values, where said area operator may automatically recalculate area based on said length field override is shown. Also, providing a visual marker that is moveable on said computer monitor around said aerial imagery region, which may be moved, to more precisely identify the location of the building roof structure is shown. | 11-25-2010 |
20130138401 | System and Process for Roof Measurement Using Aerial Imagery - The present disclosure shows creating a first layer and a second layer, in computer memory and substantially overlapping at least a segment of line from said first layer with at least a segment of another line from said second layer. A first non-dimensional attribute is different from said second non-dimensional attribute of the two lines. A user length field enabling a client with said interactive file to override at least one of said length numeric values, where said area operator may automatically recalculate area based on said length field override is shown. Also, providing a visual marker that is moveable on said computer monitor around said aerial imagery region, which may be moved, to more precisely identify the location of the building roof structure is shown. | 05-30-2013 |
20130147802 | System and Process for Roof Measurement Using Aerial Imagery - The present disclosure shows creating a first layer and a second layer, in computer memory and substantially overlapping at least a segment of line from said first layer with at least a segment of another line from said second layer. A first non-dimensional attribute is different from said second non-dimensional attribute of the two lines. A user length field enabling a client with said interactive file to override at least one of said length numeric values, where said area operator may automatically recalculate area based on said length field override is shown. Also, providing a visual marker that is moveable on said computer monitor around said aerial imagery region, which may be moved, to more precisely identify the location of the building roof structure is shown. | 06-13-2013 |
20130170694 | System and Process for Roof Measurement Using Aerial Imagery - Processes and systems are disclosed for determining attributes of a roof structure of real-world three-dimensional building(s), including providing computer input field(s) for a user to input location data generally corresponding to the location of the building, providing visual access to a nadir image of a region including the roof structure of the building; on the nadir image of the region, providing a visual marker that is moveable on the computer monitor around the region, the visual marker initially corresponding to the location data but which may be moved to a final location, having location coordinates, on top of the building to more precisely identify the location of the building roof structure; providing a computer input capable of signaling user-acceptance of the final location of the marker; and, providing visual access to one or more oblique images of an aerial imagery database corresponding to location coordinates of the final location. | 07-04-2013 |
20130212536 | SYSTEM AND PROCESS FOR ROOF MEASUREMENT USING AERIAL IMAGERY - The present disclosure shows creating a first layer and a second layer, in computer memory and substantially overlapping at least a segment of line from said first layer with at least a segment of another line from said second layer. A first non-dimensional attribute is different from said second non-dimensional attribute of the two lines. A user length field enabling a client with said interactive file to override at least one of said length numeric values, where said area operator may automatically recalculate area based on said length field override is shown. Also, providing a visual marker that is moveable on said computer monitor around said aerial imagery region, which may be moved, to more precisely identify the location of the building roof structure is shown. | 08-15-2013 |
20130246204 | Method and System for Quick Square Roof Reporting - A set of instructions stored on one or more computer readable medium for running on one or more computer systems is described herein. The set of instructions generally may include instructions for identifying a geographic location of a roof, instructions for determining contact information of one or more contractors within a region of interest of the geographic location of the roof, instructions for determining a footprint of the roof, instructions for determining predominant pitch of the roof, and/or instructions for determining an estimated roofing area based on the predominant pitch and the footprint of the roof. | 09-19-2013 |
20140003707 | System and Process for Roof Measurement Using Aerial Imagery | 01-02-2014 |
20140237430 | SYSTEM AND PROCESS FOR ROOF MEASUREMENT USING AERIAL IMAGERY - The present disclosure shows creating a first layer and a second layer, in computer memory and substantially overlapping at least a segment of line from said first layer with at least a segment of another line from said second layer. A first non-dimensional attribute is different from said second non-dimensional attribute of the two lines. A user length field enabling a client with said interactive file to override at least one of said length numeric values, where said area operator may automatically recalculate area based on said length field override is shown. Also, providing a visual marker that is moveable on said computer monitor around said aerial imagery region, which may be moved, to more precisely identify the location of the building roof structure is shown. | 08-21-2014 |
20160063654 | METHOD AND SYSTEM FOR QUICK SQUARE ROOF REPORTING - Methods and systems for roof estimations are disclosed, including a method comprising receiving, by at least one computer processor, a roof report order including a geographic location of a roof; providing imagery of the roof based on the geographic location of the roof; receiving, from a user, identification of features of the roof; determining and providing an estimated roofing area based at least on a predominant pitch and a footprint of the roof by analyzing one or more image showing the roof, the footprint of the roof determined at least in part using at least one image of the roof and the identified features of the roof; and generating a roof report for determination of an amount of materials needed for a construction project, wherein the roof report includes at least one image showing the roof and the estimated roofing area of the roof. | 03-03-2016 |
Patent application number | Description | Published |
20100296693 | SYSTEM AND PROCESS FOR ROOF MEASUREMENT USING AERIAL IMAGERY - The present disclosure shows creating a first layer and a second layer, in computer memory and substantially overlapping at least a segment of line from said first layer with at least a segment of another line from said second layer. A first non-dimensional attribute is different from said second non-dimensional attribute of the two lines. A user length field enabling a client with said interactive file to override at least one of said length numeric values, where said area operator may automatically recalculate area based on said length field override is shown. Also, providing a visual marker that is moveable on said computer monitor around said aerial imagery region, which may be moved, to more precisely identify the location of the building roof structure is shown. | 11-25-2010 |
20130138401 | System and Process for Roof Measurement Using Aerial Imagery - The present disclosure shows creating a first layer and a second layer, in computer memory and substantially overlapping at least a segment of line from said first layer with at least a segment of another line from said second layer. A first non-dimensional attribute is different from said second non-dimensional attribute of the two lines. A user length field enabling a client with said interactive file to override at least one of said length numeric values, where said area operator may automatically recalculate area based on said length field override is shown. Also, providing a visual marker that is moveable on said computer monitor around said aerial imagery region, which may be moved, to more precisely identify the location of the building roof structure is shown. | 05-30-2013 |
20130147802 | System and Process for Roof Measurement Using Aerial Imagery - The present disclosure shows creating a first layer and a second layer, in computer memory and substantially overlapping at least a segment of line from said first layer with at least a segment of another line from said second layer. A first non-dimensional attribute is different from said second non-dimensional attribute of the two lines. A user length field enabling a client with said interactive file to override at least one of said length numeric values, where said area operator may automatically recalculate area based on said length field override is shown. Also, providing a visual marker that is moveable on said computer monitor around said aerial imagery region, which may be moved, to more precisely identify the location of the building roof structure is shown. | 06-13-2013 |
20130170694 | System and Process for Roof Measurement Using Aerial Imagery - Processes and systems are disclosed for determining attributes of a roof structure of real-world three-dimensional building(s), including providing computer input field(s) for a user to input location data generally corresponding to the location of the building, providing visual access to a nadir image of a region including the roof structure of the building; on the nadir image of the region, providing a visual marker that is moveable on the computer monitor around the region, the visual marker initially corresponding to the location data but which may be moved to a final location, having location coordinates, on top of the building to more precisely identify the location of the building roof structure; providing a computer input capable of signaling user-acceptance of the final location of the marker; and, providing visual access to one or more oblique images of an aerial imagery database corresponding to location coordinates of the final location. | 07-04-2013 |
20130212536 | SYSTEM AND PROCESS FOR ROOF MEASUREMENT USING AERIAL IMAGERY - The present disclosure shows creating a first layer and a second layer, in computer memory and substantially overlapping at least a segment of line from said first layer with at least a segment of another line from said second layer. A first non-dimensional attribute is different from said second non-dimensional attribute of the two lines. A user length field enabling a client with said interactive file to override at least one of said length numeric values, where said area operator may automatically recalculate area based on said length field override is shown. Also, providing a visual marker that is moveable on said computer monitor around said aerial imagery region, which may be moved, to more precisely identify the location of the building roof structure is shown. | 08-15-2013 |
20130246204 | Method and System for Quick Square Roof Reporting - A set of instructions stored on one or more computer readable medium for running on one or more computer systems is described herein. The set of instructions generally may include instructions for identifying a geographic location of a roof, instructions for determining contact information of one or more contractors within a region of interest of the geographic location of the roof, instructions for determining a footprint of the roof, instructions for determining predominant pitch of the roof, and/or instructions for determining an estimated roofing area based on the predominant pitch and the footprint of the roof. | 09-19-2013 |
20140003707 | System and Process for Roof Measurement Using Aerial Imagery | 01-02-2014 |
20140278697 | BUILDING MATERIALS ESTIMATION - Using remote image acquisition, image processing, and computational systems and methods, it has become possible to obtain actual building dimensions that can be used to generate construction estimates for repairing or maintaining buildings. For example, actual roof dimensions can be used to provide a computer-based estimate of materials and/or materials overage needed. Instead of simply applying a generic overage percentage based on roof shape, a computer-based approach can take into account cut lines as a percentage of total roof area. The resulting computer-generated estimate is shown to be more accurate, less expensive, and faster than using a human on-site estimator. | 09-18-2014 |
20160063654 | METHOD AND SYSTEM FOR QUICK SQUARE ROOF REPORTING - Methods and systems for roof estimations are disclosed, including a method comprising receiving, by at least one computer processor, a roof report order including a geographic location of a roof; providing imagery of the roof based on the geographic location of the roof; receiving, from a user, identification of features of the roof; determining and providing an estimated roofing area based at least on a predominant pitch and a footprint of the roof by analyzing one or more image showing the roof, the footprint of the roof determined at least in part using at least one image of the roof and the identified features of the roof; and generating a roof report for determination of an amount of materials needed for a construction project, wherein the roof report includes at least one image showing the roof and the estimated roofing area of the roof. | 03-03-2016 |
Patent application number | Description | Published |
20140107836 | AUTOMATED BANKING MACHINE THAT CAN DETECT SERVICING ACTIONS - In an example embodiment, an automated banking machine can cause financial transfers responsive to data read from data bearing records. The machine includes a card reader that can read from user cards, card data which corresponds to financial accounts. The machine can operate responsive to the read card data to carry out transactions that transfer and/or allocate funds between accounts. The machine can provide users a transaction receipt. The machine includes a cash dispenser that can dispense cash to authorized users. Value of dispensed cash can be assessed to an account which corresponds to the read card data. The machine is equipped with sensing devices strategically positioned adjacent to machine components. The sensing devices enable the machine to automatically detect servicing activities performed on the machine. The machine is operable to send information corresponding to detected service activity to a service data-collecting computer. | 04-17-2014 |
20140339302 | Automated banking machine that is operable to automatically detect and store service activities - In an example embodiment, an automated banking machine that is operable to detect signals corresponding to a plurality of service activities carried out on a transaction function device. Data representative of the plurality of service activities is stored in the transaction function device's data store. | 11-20-2014 |
20140339303 | AUTOMATED BANKING MACHINE THAT IS OPERABLE RESPONSIVE TO DATA BEARING RECORDS - In an example embodiment, an automated banking machine that operates responsive at least in part to data read from data bearing records. The automated banking machine including a transaction function device, a slot associated with the transaction function device, an indicator adjacent to the slot, the indicator includes at least three different color light emitting diodes (LEDs), and an indicator processor in operative connection with the indicator. The indicator processor is operable to cause the LEDs of the indicator to intermittently illuminate to produce a plurality of blended colors that correspond to a functional status of the transaction function device. | 11-20-2014 |
Patent application number | Description | Published |
20080252681 | Ink-jet ink sets - Ink-jet sets, printer systems, methods of printing, and printing materials are disclosed. | 10-16-2008 |
20080258454 | Security printing and detecting systems and methods - A method of security printing can comprise the steps of printing a transparent ink onto a portion of a coated substrate resulting in printed region and an unprinted region, where the transparent ink is devoid of dyes, pigments, ceramics, metallics, and fluorescents; illuminating both the printed region and the unprinted region of the substrate, where the printed region scatters more light than the unprinted region creating a contrast; and detecting the contrast with a sensor that is sensitive to detecting light scattering differences between the printed region and the unprinted region. | 10-23-2008 |
20090087594 | Additives for use in print media to reduce bronzing - An additive used in a print medium to reduce bronzing. The additive increases a pH of the print medium. The additive is an organic base or an inorganic base. The additive reduces bronzing of an image printed with a dye-based inkjet ink. | 04-02-2009 |
20130010036 | PRINT HEADS AND PRINT HEAD FLUIDS - Print heads and print head fluids are disclosed. An example print head for an inkjet printer system includes a fluid reservoir, and a nozzle fluidically connected to the fluid reservoir. The example print head also includes a fluid having a liquid vehicle component and a tinting dye. The fluid is provided in the fluid reservoir during shipping of the print head to maintain wetting of the print head. The fluid is discharged after installation of the printer head in the inkjet printer system. | 01-10-2013 |
20150065603 | COLOR-TO-COLOR INK BLEED CONTROL ON MEDIA - In one example, an ink set with color-to-color bleed control on media includes a first ink in the ink set with a bound dispersant and a first amount of surfactant and a second ink in the ink set with a free dispersant and a second amount of surfactant greater than the first amount of surfactant. A method for forming an ink set with reduced color-to-color bleed is also provided. | 03-05-2015 |