Abstract: An image display and analysis system is disclosed. The image display and analysis system and method includes a system for reading an image having an object of interest. The image includes corresponding location data indicative of position and orientation of the image capturing device(s) used to capture the image. The system receives one or more selected points within the image on the object of interest, and calculates a measurement of the object of interest using pixel location, the position and orientation of the image capturing device(s), and a TGP vertical plane.

Abstract: A LiDAR system and method are disclosed, comprising a housing, a light source, a receiver, and a light deflection system comprising a light deflection element, rotatable and balanced about an axis, the element having at least three sides, at least two of the three sides having reflective surfaces, wherein at least a first side of the three sides is at a first angle in relation to the axis, and at least a second side of the three sides is at a second angle in relation to the axis, with the first angle being different from the second angle, such that light is deflectable from the reflective surface of the first and second sides out of the housing, whereby upon actuation of the light source and rotation of the light deflection element, the LiDAR system forms at least a first scan path and a second scan path.

Abstract: A computerized system for displaying and making measurements based upon captured oblique images. The system includes an image-capturing device capturing oblique aerial images at image-capturing events and issuing image-data signals corresponding to captured images; at least one geo-locating device issuing a corresponding at least one geo-locating signal indicative at least in part of a geo-location of said image-capturing device during each image capturing event; a computer system receiving and storing said image-data signals and said at least one geo-locating signal; and the computer system executing image and data acquiring software reading the image-data signals and the at least one geo-locating signal, and associating each of the image-data signal with a corresponding at least one geo-locating signal for each image-capturing event.

Abstract: A system and method for generating multi-3D perspective floor plans having real-life physical characteristics. The multi-3D perspective floor plans may be generated using image data and related to a floor plan of a structure.

Abstract: An image display and analysis system is disclosed. The image display and analysis system and method includes a system for reading an image having an object of interest. The image includes corresponding location data indicative of position and orientation of the image capturing device(s) used to capture the image. The system receives one or more selected points within the image on the object of interest, and calculates a measurement of the object of interest using pixel location, the position and orientation of the image capturing device(s), and a TGP vertical plane.

Abstract: 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 line segments of a roof that is preferably displayed within a geo-referenced image, instructions for determining position, orientation and length of the line segments utilizing the geo-referenced image, and instructions for classifying, automatically, at least one of the line segments as one of a plurality of predefined roof elements utilizing at least one of the relative position and orientation of the line segments.

Abstract: A LiDAR system and method are disclosed, comprising a housing, a light source, a receiver, and a light deflection system comprising a light deflection element, rotatable and balanced about an axis, the element having at least three sides, at least two of the three sides having reflective surfaces, wherein at least a first side of the three sides is at a first angle in relation to the axis, and at least a second side of the three sides is at a second angle in relation to the axis, with the first angle being different from the second angle, such that light is deflectable from the reflective surface of the first and second sides out of the housing, whereby upon actuation of the light source and rotation of the light deflection element, the LiDAR system forms at least a first scan path and a second scan path.

Abstract: 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 line segments of a roof that is preferably displayed within a geo-referenced image, instructions for determining three-dimensional information of the line segments including position, orientation and length of the line segments preferably utilizing the geo-referenced image, and instructions for classifying, automatically, at least one of the line segments as one of a plurality of predefined roof elements utilizing at least one of the relative position and orientation of the line segments.

Abstract: A computer system comprises a processor capable of executing processor executable code operably coupled with a non-transitory computer medium storing processor executable code, which when executed by the processor causes the processor to: (a) receive a first signal over a computer network, the first signal indicative of a request for information about a target structure from a user; (b) in response to receiving the first signal, access a database including information about the target structure; and (c) transmit a second signal over the computer network indicative of a virtual property report for the target structure including at least one image of the target structure. The virtual property report may include information about a facet of the target structure facing a street, location of a main entrance of the target structure, location of a secondary entrance of the target structure, location of vehicle access to the target structure.

Abstract: Methods and systems are disclosed including transmitting, by processor of a server computer, image raster content of a geo-referenced aerial image to an operator user device without the geo-referencing information of the geo-referenced aerial image; receiving, by the processor of the server computer from the operator user device, image coordinates, which may be in the form of pixel row/column, representing an object or region of interest selected within the image raster content of the geo-referenced aerial image by a data processing operator of the operator user device; and translating the image coordinates into real-world geographic coordinates. The processor may calculate measurements based on the real-world geographic coordinates and may store real-world geographic coordinates and/or measurements. The geo-referenced aerial image may be isolated such that a data processing operator may not be able to pan or zoom outside of the isolated geo-referenced aerial image.

Abstract: 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.

Abstract: 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.

Abstract: 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.

Abstract: A computerized system for displaying and making measurements based upon captured oblique images. The system includes a computer system executing image display and analysis software reading an oblique image having corresponding geo-location data and a data table storing ground plane data, the ground plane data comprising a plurality of facets within an area depicted within the oblique image, the facets having a plurality of elevation data that conforms to at least a portion of terrain depicted within the oblique image; wherein the computer system displays the oblique image, receives a starting point and an end point selected by the user, where one or both points may be above the terrain, and calculates a height difference between the starting and end points dependent upon the geo-location data and the elevation data of a facet of the ground plane data.

Abstract: A moving platform system suitable for mounting and use on a moving platform, comprising a position system monitoring the location of the moving platform and generating a sequence of time-based position data, a non-line of sight communication system, a high-speed line of sight communication system, and a computer system monitoring the availability of the non-line of sight communication system and the high-speed line of sight communication system and initiating connections when the non-line of sight communication system and the high-speed line of sight communication system are available, and receiving the sequence of time-based position data and transmitting the sequence of time-based position data via the at least one of the currently available non-line of sight communication system and the high-speed line of sight communication system.

Abstract: A computerized system for displaying and making measurements based upon captured oblique images. The system includes a computer system executing image display and analysis software reading an oblique image having corresponding geo-location data and a data table storing ground plane data, the ground plane data comprising a plurality of facets within an area depicted within the oblique image, the facets having a plurality of elevation data that conforms to at least a portion of terrain depicted within the oblique image; wherein the computer system displays the oblique image, receives a starting point and an end point selected by the user, where one or both points may be above the terrain, and calculates a height difference between the starting and end points dependent upon the geo-location data and the elevation data of a facet of the ground plane data.

Abstract: A computerized system for displaying and making measurements based upon captured oblique images. The system includes a computer system executing image display and analysis software. The software reads a plurality of captured oblique images having corresponding geo-location data and a data table storing ground plane data that approximates at least a portion of the terrain depicted within the captured oblique images. The executed software causes the computer system to receive a starting point selected by a user, receive an end point selected by the user and calculate a desired measurement between the starting and end points dependent upon the geo-location data and ground plane data. The desired measurement is selected from a group consisting of a distance measuring mode, a height measuring mode, and a relative elevation measuring mode.

Abstract: A computerized system having a computer system storing a database of captured oblique images having corresponding geo-location data. The computerized system also has a data table storing ground plane data that approximates at least a portion of the terrain depicted within the captured oblique images. The computer system further has computer executable logic that when executed by a processor causes the computer system to receive a selection of a geographic point from a user, search the database to find images that contain the selected point, and make the images available to the user.

Abstract: 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 line segments of a roof that is preferably displayed within a geo-referenced image, instructions for determining three-dimensional information of the line segments including position, orientation and length of the line segments preferably utilizing the geo-referenced image, and instructions for classifying, automatically, at least one of the line segments as one of a plurality of predefined roof elements utilizing at least one of the relative position and orientation of the line segments.

Abstract: A computerized system for displaying and making measurements based upon captured oblique images. The system includes a computer system executing image display and analysis software. The software reads a plurality of captured oblique images having corresponding geo-location data and a data table storing ground plane data that approximates at least a portion of the terrain depicted within the captured oblique images. The executed software causes the computer system to receive a starting point selected by a user, receive an end point selected by the user and calculate a desired measurement between the starting and end points dependent upon the geo-location data and ground plane data. The desired measurement is selected from a group consisting of a distance measuring mode, a height measuring mode, and a relative elevation measuring mode.