Pictometry International Corp. Patent applications |
Patent application number | Title | Published |
20160124077 | LIDAR SYSTEM PRODUCING MULTIPLE SCAN PATHS AND METHOD OF MAKING AND USING SAME - LiDAR scanning methods are disclosed, including a method comprising forming a first scan path with a light detection and ranging (LiDAR) scanning system on an aircraft flying above the ground, the first scan path at a first angle in relation to the aircraft toward the ground; forming a second scan path with the LiDAR scanning system, the second scan path at a second angle in relation to the aircraft, the second angle toward the ground and different relative to the first angle; and creating a digital elevation map of the ground, and vertical and horizontal surfaces above the ground, using the first and second scan paths. | 05-05-2016 |
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 |
20140198211 | System for Detecting Image Abnormalities - An image capture system for capturing images of an object, the image capture system comprising a moving platform such as an airplane, one or more image capture devices mounted to the moving platform, and a detection computer. The image capture device has a sensor for capturing an image. The detection computer executes an abnormality detection algorithm for detecting an abnormality in an image immediately after the image is captured and then automatically and immediately causing a re-shoot of the image. Alternatively, the detection computer sends a signal to the flight management software executed on a computer system to automatically schedule a re-shoot of the image. When the moving platform is an airplane, the detection computer schedules a re-shoot of the image such that the image is retaken before landing the airplane. | 07-17-2014 |
20140126838 | Mosaic Oblique Images and Methods of Making and Using Same - A computer system running image processing software receives an identification of a desired geographical area to be imaged and collected into an oblique-mosaic image; creates a mathematical model of a virtual camera looking down at an oblique angle, the mathematical model having an oblique-mosaic pixel map of the desired area encompassing multiple source images; assigns surface locations to pixels included in the oblique-mosaic pixel map; creates a ground elevation model of the ground and vertical structures within the oblique-mosaic pixel map using overlapping source images of the desired geographical area, wherein the source oblique images were captured at an oblique angle and compass direction similar to that of the virtual camera; and reprojects, with the mathematical model, source oblique image pixels of the overlapping source images for pixels included in the oblique-mosaic pixel map using the ground elevation model to thereby create an oblique-mosaic image of the desired area. | 05-08-2014 |
20140126816 | SYSTEM AND PROCESS FOR COLOR-BALANCING A SERIES OF OBLIQUE IMAGES - Image processing systems and methods are disclosed, including an image processing system comprising a computer running image processing software causing the computer to divide a captured oblique image into a plurality of oblique image sections, the oblique image sections determined at least in part on a path length distance between the location of a point in the scene in the captured oblique image and the location of the camera when the oblique image was captured; and apply a varying amount of color correction to the sections based in part on the determined path length, thereby reducing variation in the captured oblique image caused by specular reflection and atmosphere depicted in the sections prior to color balancing. | 05-08-2014 |
20140125664 | SYSTEMS AND METHODS FOR RAPID THREE-DIMENSIONAL MODELING WITH REAL FACADE TEXTURE - A computer system is described for automatically generating a three-dimensional model of a structure, including hardware and one or more non-transitory computer readable medium accessible by the hardware and storing instructions that when executed by the hardware cause it to locate multiple oblique images containing a real façade texture of a structure having a geographical position from one or more database of oblique images; select a base oblique image from the multiple oblique images by analyzing, with selection logic, image raster content of the real façade texture depicted in the multiple oblique images, the selection logic using a factorial analysis of the image raster content, wherein the factorial analysis is a weighted determination based on at least two factors; and, relate the real façade texture of the base oblique image to the three dimensional model to provide a real-life representation of physical characteristics of the structure within the three-dimensional model. | 05-08-2014 |
20140111554 | Computer System for Continuous Oblique Panning - A computer system for continuously panning oblique images is disclosed. More particularly, the computer system uses a methodology whereby separate oblique images are presented in a manner that allows a user to maintain an understanding of the relationship of specific features between different oblique images when panning. | 04-24-2014 |
20140063243 | Real-Time Moving Platform Management System - The present disclosure describes a method for transmitting sensor data and positional data for geo-referencing oblique images from a moving platform to a ground station system in real-time. The method involves the aid of a moving platform system to capture sensor data and positional data for the sensor data, save the sensor data and positional data to one or more directories of one or more computer readable medium, monitor the one or more directories of the one or more computer readable medium for sensor data and positional data, and transmit the sensor data and positional data from the moving platform system to the ground station system over a wireless communication link responsive to the sensor data and positional data being detected as within the one or more directories. | 03-06-2014 |
20140029867 | CUT LINE STEERING METHODS FOR FORMING A MOSAIC IMAGE OF A GEOGRAPHICAL AREA - Systems and methods for creating a ground confidence map of a geographic area, comprising the steps of creating a ground confidence map of a geographic area, the ground confidence map having a plurality of pixels with each pixel corresponding to a particular geographic location; assigning the pixels in the ground confidence map with pixel values indicative of composite ground confidence scores by calculating composite ground confidence scores for the pixel values of common geographic regions within the overlapping portions of the source images within a kernel corresponding to the particular geographic location of the pixels; and storing pixel values indicative of a statistical probability that the geographical location represented by the particular pixels represent the ground. | 01-30-2014 |
20140003707 | System and Process for Roof Measurement Using Aerial Imagery | 01-02-2014 |
20130315503 | CUT-LINE STEERING METHODS FOR FORMING A MOSAIC IMAGE OF A GEOGRAPHICAL AREA - A method for automatically steering mosaic cut lines along preferred routes to form an output mosaic image includes creating an assignment map corresponding to the output mosaic image where each pixel has an initial designation of unassigned; marking each pixel of the assignment map that intersects the preferred routes as being a Preferred Cut Line pixel to divide the Assignment Map into one or more regions; searching for each region to locate one or more source images that cover that region; and using a Selection Heuristic or Pairing Heuristic to determine quality of coverage. The Preferred Cut Line pixels are redesignated to match the image assignments of their bounded regions, and the output mosaic image is formed by contributing pixel values from the source images based upon the designations set forth in the assignment map. | 11-28-2013 |
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 |
20130208996 | MOSAIC OBLIQUE IMAGES AND METHODS OF MAKING AND USING SAME - A computer system running image processing software receives an identification of a desired geographical area to be imaged and collected into an oblique-mosaic image; creates a mathematical model of a virtual camera looking down at an oblique angle, the mathematical model having an oblique-mosaic pixel map of the desired area encompassing multiple source images; assigns surface locations to pixels included in the oblique-mosaic pixel map; creates a ground elevation model of the ground and vertical structures within the oblique-mosaic pixel map using overlapping source images of the desired geographical area, wherein the source oblique images were captured at an oblique angle and compass direction similar to that of the virtual camera; and reprojects, with the mathematical model, source oblique image pixels of the overlapping source images for pixels included in the oblique-mosaic pixel map using the ground elevation model to thereby create an oblique-mosaic image of the desired area. | 08-15-2013 |
20130208116 | COMPUTER SYSTEM FOR CONTINUOUS OBLIQUE PANNING - A computer system for continuously panning oblique images. More particularly, the computer system uses a methodology whereby separate oblique images are presented in a manner that allows a user to maintain an understanding of the relationship of specific features between different oblique images when panning. | 08-15-2013 |
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 |
20130155109 | SYSTEM FOR AUTOMATIC STRUCTURE FOOTPRINT DETECTION FROM OBLIQUE IMAGERY - A set of instructions stored on at least one computer readable medium for running on a computer system. The set of instructions includes instructions for identifying edges of a structure displayed in multiple oblique images, instructions for determining three-dimensional information of the edges including position, orientation and length of the edges utilizing multiple oblique images from multiple cardinal directions, and instructions for determining, automatically, at least one line segment of a portion of a footprint of the structure utilizing at least one of the relative position and orientation of the edges. | 06-20-2013 |
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 |
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 |
20130135471 | Real-Time Moving Platform Management System - The present disclosure describes a method for creating data products in real-time with the aid of a ground station system. The method includes the steps of monitoring one or more communication links for newly captured sensor data and positional data of oblique images, saving the sensor data and positional data to one or more directories of one or more computer readable media, monitoring the one or more directories of one or more computer readable media for sensor data and positional data, processing the sensor data and positional data to create one or more data products for use by one or more mapping and exploitation systems responsive to the sensor data and positional data being saved in the one or more directories, and storing the one or more data products to one or more directories of one or more computer readable media. | 05-30-2013 |