Aerial Viewing Patents (Class 348/144)
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Patent number: 8670036Abstract: An image-based vehicle maneuvering assistant method and system are provided in the present invention, in which images captured by a single image sensing device is processed to determine the changes with respect time by a controller having capability of image processing and identification and distance estimation in image space for providing a complete assisting image-information while the carrier is maneuvering. By means of the presented method of the presented invention, the system is capable of generating track of the carrier, view point transformation, and identifying the characteristic object in the image so as to performing the distance estimation. The present invention may be utilized and applied in different kinds of carrier type to solve the problem of guiding of carrier maneuvering, and assist the carrier lane changing, parking assistance and blind spot detection.Type: GrantFiled: November 20, 2012Date of Patent: March 11, 2014Assignee: Industrial Technology Research InstituteInventors: Kuo-Hsiang Cheng, Yen-Shu Chang, Wei-Min Lee, Shan-Chuan Jeng, Long-Tai Chen
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Publication number: 20140063243Abstract: 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.Type: ApplicationFiled: December 28, 2012Publication date: March 6, 2014Applicant: Pictometry International Corp.Inventor: Pictometry International Corp.
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Publication number: 20140055613Abstract: The invention provides a camera for photogrammetry, which comprises a shaft 11 tiltably supported in any direction via a gimbal 14, a GPS device having a GPS antenna 12 installed on an upper end of said shaft, and a photographic device main unit 13 installed on a lower end of said shaft, wherein optical axis of said photographic device main unit is designed so as to direct in vertical and downward direction, said photographic device main unit has an image pickup unit 24 installed in a known relation with said GPS antenna and a control device for controlling image pickup of said image pickup unit, and said control device 19 controls said image pickup unit so that still image is acquired by the image pickup unit, and an image pickup position at the time of image pickup is obtained by said GPS device.Type: ApplicationFiled: August 22, 2013Publication date: February 27, 2014Applicant: Kabushiki Kaisha TOPCONInventors: Fumio Ohtomo, Hitoshi Otani, Kazuki Osaragi, Mitsuharu Yamada
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Publication number: 20140049643Abstract: A small form-factor gimbal system that provides for stabilization of payload assets in a manner that provides improved stabilization capability. Such a small form-factor gimbal system provides for precision payload asset steering functionality through integration of an inertially stabilized two-axis gimbal in combination with a beam stabilization mechanism (BSM). In a preferred embodiment, such a small form-factor gimbal system has a gimbal diameter of about 5? or less and employs a laser assembly having a Coudé path arrangement in which the laser beam passes from the azimuth subassembly to the elevation subassembly along the elevation subassembly rotational axis.Type: ApplicationFiled: August 10, 2013Publication date: February 20, 2014Applicant: ASCENDANT ENGINEERING SOLUTIONSInventors: Eric Segerstrom, Greg Mooty, Rick Miller
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Publication number: 20140049642Abstract: A gas monitoring system and a gas monitor includes a remote control aircraft, a gas detection device, and a wireless transmission device. The remote control aircraft includes an airframe and a flight controller, and the gas detection device and the wireless transmission device are arranged on the airframe.Type: ApplicationFiled: August 27, 2012Publication date: February 20, 2014Inventors: Yunshao Jiang, Chunhao Wu, Kunhsien Lin, Yongqiang Wang, Zhiyou Shu
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Publication number: 20140043481Abstract: A method and apparatus for strike detection. Images of an object are identified in video images from a video camera on a vehicle. A movement of the object with respect to the vehicle is identified from the images of the object in the video images. It is determine whether the movement of the object with respect to the vehicle indicates that the object will strike the vehicle. A strike report comprising information indicating that the object will strike the vehicle is generated in response to a determination that the object will strike the vehicle.Type: ApplicationFiled: August 13, 2012Publication date: February 13, 2014Applicant: THE BOEING COMPANYInventor: Brian J. Tillotson
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Patent number: 8648909Abstract: A monitoring apparatus includes a display control unit configured to cause a display device to display an image captured by a camera and a registration screen which corresponds to the image, which allows a user to register an object status within the image and a registration unit configured to register the object status within the image input through the registration screen.Type: GrantFiled: December 5, 2007Date of Patent: February 11, 2014Assignee: Canon Kabushiki KaishaInventors: Satoshi Imaizumi, Keisuke Tamiya
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Patent number: 8643719Abstract: A method for monitoring a geographic area that using a plurality of unmanned mobile vehicles. Each unmanned mobile vehicle may be programmed with an operational plan to cover a specific subregion of said geographic area. Each unmanned mobile vehicle may be used to obtain visual images of its associated said subregion during operation. A surveillance system is also disclosed for monitoring a geographic area. The system includes a plurality of autonomously operated unmanned mobile vehicles. Each vehicle includes an onboard system that executes an operational plan to enable the vehicle to traverse a specific subregion of the geographic area. Each onboard system further includes a monitoring system to obtain visual images of its associated subregion.Type: GrantFiled: May 21, 2008Date of Patent: February 4, 2014Assignee: The Boeing CompanyInventors: John Lyle Vian, Ali Reza Mansouri, Emad William Saad
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Patent number: 8643508Abstract: The present general inventive concept relates to methods and systems to select and display information on an avionics display screen. The systems and methods allow for the selection and display of information using knobs to highlight and select the desired information for display, eliminating the need for a cursor function. The systems and methods also provide for multiple pages and/or multiple windows or “tiles” within these pages and/or windows simultaneously on a single screen of a display, with each window, page, and/or tile being fully controlled independently when selected. The present general inventive concept also relates to systems and methods to provide multiple cues on an electronic display system altitude tape to a pilot in advance and impending approach to a predefined altitude. The present general inventive concept also relates to systems and methods to employ variable resolution topographical data based on display range for an avionics navigation display.Type: GrantFiled: July 26, 2010Date of Patent: February 4, 2014Assignee: Aspen Avionics, Inc.Inventor: Brian Turner
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Patent number: 8643720Abstract: 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.Type: GrantFiled: February 28, 2013Date of Patent: February 4, 2014Assignee: Pictometry International Corp.Inventors: Stephen L. Schultz, Chris Schnaufer, Frank Giuffrida
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Publication number: 20140028846Abstract: An aerial digital camera comprises a housing 15, a lens, a frame 45, an image sensor 35 mounted on the frame, at least three flexure bearings 51 connecting the frame and the housing, the flexure bearings allowing a displacement of the frame relative to the housing in a displacement direction 67 parallel to a light receiving surface of the image sensor, a spring 69 providing a biasing force between the housing and the frame oriented in the displacement direction; and an actuator 71 for displacing the frame relative to the housing against the biasing force of the spring.Type: ApplicationFiled: September 30, 2013Publication date: January 30, 2014Applicant: Trimble Germany GmbHInventor: Roland Krueger
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Publication number: 20140022388Abstract: An airspace surveillance system for the detection of missiles launched within a space being monitored, having at least two surveillance platforms positioned outside or on the edge of the space being monitored in such a manner that the space or a part of the space is situated between the monitoring platforms. Each of the monitoring platforms is equipped with at least one camera system in such a manner that the lines of sight of the camera systems of the two monitoring platforms being positioned opposite to and facing each other.Type: ApplicationFiled: February 2, 2012Publication date: January 23, 2014Applicant: EADS Deutschland GmbHInventors: Manfred Hiebl, Hans-Wolfgang Pongratz
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Publication number: 20140015970Abstract: Examples of imaging microsatellites are described that have an imaging system and antenna system disposed within the microsatellite body when the microsatellite is in a non-deployed state. The properties of the antenna system can be adjusted such that the antenna system does not impact, contact, or displace the imaging system when the microsatellite is in the non-deployed state. The properties of the antenna system can be adjusted such that the antenna system does not contact or impact the body of the microsatellite or any other structure when the microsatellite transitions to a deployed state. The antenna system can be configured to achieve a desired gain and/or data transmission rate by adjusting properties of the antenna system based on the radiation pattern of an antenna feed and geometric constraints imposed by the imaging system. Examples of methods for designing such imaging microsatellites are provided.Type: ApplicationFiled: July 5, 2013Publication date: January 16, 2014Applicant: Skybox Imaging, Inc.Inventor: Henrique do Carmo Miranda
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Publication number: 20140015969Abstract: In the method of wide area airborne surveillance, the improvement comprising a single focal plane array camera assembly, said assembly comprising two points of rotation and capable of mapping a plurality of exposures to form one wide area airborne image.Type: ApplicationFiled: April 25, 2013Publication date: January 16, 2014Inventor: Barry Lavoie
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Patent number: 8630755Abstract: The invention provides an automatic taking-off and landing system, comprising a flying object and a taking-off and landing target, wherein the flying object has an image pickup device 21 for taking images found in downward direction, navigation means 4, 5, 6, 8, 9, 10 and 11, and a control unit for processing images acquired by the image pickup device and for controlling the navigation means, and wherein the control unit calculates a positional relation between the taking-off and landing target and the flying object based on the image of the taking-off and landing target as acquired by the image pickup device and controls taking-off and landing operations of the flying object based on a result of the calculation.Type: GrantFiled: September 21, 2011Date of Patent: January 14, 2014Assignee: Kabushiki Kaisha TOPCONInventors: Fumio Ohtomo, Kazuki Osaragi, Tetsuji Anai, Hitoshi Otani
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Patent number: 8614743Abstract: A security camera system according to present invention embodiments includes a telephoto type lens with one or more factors of optical zoom. A set of prisms that steer incoming beams from the surrounding environment (to adjust the field of view) is disposed in front of the lens. The security camera system preferably includes a wide angle staring mode that encompasses a large field of view, where the prisms are oriented to provide no steering effect. The security camera system further includes a high-resolution zoom mode, where the telephoto lens focuses on a region of interest and the prisms perform beam steering to adjust the field of view and enable the region of interest or an object to remain at the center of the security camera system view. Image processing techniques may be employed that consider the beam steering angle and the field of view to compensate for distortion effects.Type: GrantFiled: September 24, 2007Date of Patent: December 24, 2013Assignee: Exelis Inc.Inventor: Robert Scott Winsor
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Publication number: 20130335565Abstract: An imaging platform minimizes image distortion when there is relative motion of the imaging platform with respect to the scene being imaged where the imaging platform may be particularly susceptible to distortion when it is configured with a wide field of view or high angular rate of movement, or when performing long-stares at a given scene (e.g., for nighttime and low-light imaging.) Distortion correction may be performed by predicting distortion due to the relative motion of the imaging platform, determining optical transformations to prevent the distortion, dynamically adjusting the optics of the imaging platform during exposure, and performing digital image correction.Type: ApplicationFiled: May 28, 2013Publication date: December 19, 2013Inventors: Ian S. Robinson, Mark T. Busch, Lacy G. Cook
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Publication number: 20130335566Abstract: This application relates to techniques for obtaining wide area intermittent video (WAIV). Some embodiments disclosed herein include a method of obtaining WAIV. The method can include, for example, capturing images at a series of sensor stations having pre-determined locations along a flightline. The flightline can be repeated one or more times, where images are captured at the same sensor stations with each pass of the flightline. The captured images from the same sensor station may have replicated view geometry and may be co-registered and precisely aligned with pixel-level precision. The captured images from multiple sensor stations through time may also be displayed together based upon absolute or relative sensor station locations to create a temporal sequence of wide area intermittent video. The approach provides efficient methods for creating wide area video with reduced temporal imaging frame rates. Systems and devices for forming wide area intermittent video are also disclosed.Type: ApplicationFiled: June 12, 2013Publication date: December 19, 2013Inventors: Lloyd Lawrence Arthur Coulter, Christopher Lippitt
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Patent number: 8610776Abstract: The invention relates to a system for target designation and/or illumination in a scene, that is designed to be attached to an aircraft comprising one optical path fitted with a matrix sensor forming an image of the scene, each image corresponding to an instantaneous field centered around a line of sight LV, and fitted with a device for deflecting the LV at a determined speed Vd making it possible to carry out a scan in order to perform the target designation and illumination function. The system comprises an additional device for deflecting the LV at a speed Vr making it possible to carry out a counter-scan in order also to perform an air reconnaissance function.Type: GrantFiled: April 7, 2006Date of Patent: December 17, 2013Assignee: ThalesInventors: Serge Larroque, Patrick Unterreiner, Olivier Verdy
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Patent number: 8593519Abstract: A field watch apparatus for use in a subject vehicle acquires a road image from a roadside capture unit located around the subject vehicle on a road and, based on the acquired image, generates an overhead view of a field around the subject vehicle in an intuitively recognizable manner by including a distant surrounding vehicle in the view, thereby providing a precisely understandable view of the field around the subject vehicle for the ease of satisfactorily identifying the distant surrounding vehicle without being compromised by the position of the roadside capture unit.Type: GrantFiled: February 4, 2008Date of Patent: November 26, 2013Assignee: Denso CorporationInventors: Makiko Tauchi, Sei Iguchi, Asako Nagata
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Patent number: 8593518Abstract: A computer system for continuously panningoblique 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.Type: GrantFiled: January 31, 2008Date of Patent: November 26, 2013Assignee: Pictometry International Corp.Inventors: Stephen Schultz, Chris Schnaufer, Frank Giuffrida
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Patent number: 8593486Abstract: Provided is a video image data generation system including a database for storing a plurality of image data photographed in various directions in various locations, correlating the directions and the locations with the stored image data, and correlating and storing a photographed sub-region when the image data is acquired, a route view point specifying device which specifies various locations and eye level directions arranged on a view point route, an image search engine which searches an image of an eye level direction specified from a location of a view point route specified by the route view point specifying device and outputs video data, wherein the image search engine searches image data stored in a database and the image data including a sub-region located in an eye level direction in each of a plurality of locations on a view point route by referencing photography direction data correlated with the sub-region.Type: GrantFiled: November 18, 2011Date of Patent: November 26, 2013Assignee: Kodaira Associates Inc.Inventors: Takatoshi Kodaira, Takamoto Kodaira
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Patent number: 8587662Abstract: A method for responding to potential threats at a store, such as theft or vandalism, can include analyzing threat predictors, such as police reports and store reports, to determine a trend of theft or other threats. In some implementations, a organization, such as a chain of retail stores, can include a large number of facilities. Each facility may be capable of producing a significant volume of video data from various video cameras at the facility. In some implementations, the volume of video data monitored from the stores and from the cameras within the stores can be narrowed or reduced by monitoring substantially only the video data from the stores and locations within the stores that were identified as potential targets in the trend of theft.Type: GrantFiled: October 2, 2009Date of Patent: November 19, 2013Assignee: Target Brands, Inc.Inventors: Derek Moll, Robert Foster
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Patent number: 8581981Abstract: An optical imaging system and associated methods for capturing images from an aircraft, such as a UAV. A camera unit on-board the aircraft is remotely controlled from an image control station. The image control station receives image data from the camera unit, and also delivers control signals for determining a viewing mode of the image.Type: GrantFiled: April 26, 2007Date of Patent: November 12, 2013Assignee: Southwest Research InstituteInventors: Kevin Alley, Roger Lopez, Richard Somers
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Patent number: 8577518Abstract: An automated airborne video recording system for imaging pipeline or electric line rights-of-way, irrigation canals, or any other linear ground features. The system includes a gimbaled, stabilized camera system, a data recorder, and autonomous imager software that computes the shortest vector between the aircraft position and the pipeline based on the aircraft GPS and the Geographic Information Database. The system then commands the stabilized camera system to point directly at the pipeline regardless of the aircraft position and orientation, automatically collecting continuous NTSC or digital video of the entire right of way.Type: GrantFiled: May 26, 2010Date of Patent: November 5, 2013Assignee: American Aerospace Advisors, Inc.Inventors: David Linden, David William Yoel
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Publication number: 20130278766Abstract: The invention relates to a portable optical sensor module having at least one locking device disposed on an outer side of the portable optical sensor module for releaseably attaching the portable optical sensor module to a carrier platform. The at least one locking device comprises a folding handle device forming a carry handle for the portable optical sensor module in an opened locked state of the at least one locking device.Type: ApplicationFiled: December 16, 2011Publication date: October 24, 2013Applicant: LEICA GEOSYSTEMS AGInventor: Gerd Gloeckler
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Patent number: 8564643Abstract: A method for constructing a georeferencing-enabled camera model and its deployment in georeferencing targets located in video sequences due to a single video camera. A video surveillance camera is modeled by a collection of rays converging at a virtual camera point and the retina resolution cell coordinates associated with those rays wherein the ray equations are first established, in the course of a calibration process, for a given camera view, with the aid of other views of the same video surveillance camera, as necessary, and using such a model for mapping image coordinates to terrain coordinates and vice versa in the intended view or its adaptation for use in other views of the same video surveillance camera.Type: GrantFiled: July 26, 2012Date of Patent: October 22, 2013Assignee: Puretech Systems Inc.Inventors: Fereydoun Maali, Monroe M. Thomas
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Patent number: 8553108Abstract: A method of compensating for atmospheric turbulence when recording film sequences. A frame for an image that is being currently recorded is compared at pixel level with a number of frames recorded earlier. Each pixel value in a current frame is compared with pixel values in earlier frames. A matrix is adjusted upward by one unit at positions where a new value is encountered at the positions. Values adjusted upwards in the matrix are retained for a limited number of frame comparisons. A summing window is drawn over the matrix and movement is deemed to have occurred in areas where a sum from the summing window exceeds a limit value. A compensated frame is created. All pixel values in areas where the summing window exceeds the limit value are derived from the current frame. Other values are derived through a temporal median filtering of a number of earlier frames recorded.Type: GrantFiled: August 12, 2010Date of Patent: October 8, 2013Assignee: Flir Systems ABInventor: Johan Holmlund
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Publication number: 20130250105Abstract: A method of adaptive downsampling includes the steps of: (a) receiving input data having a first spatial resolution and a first grid spacing; (b) resampling the input data using an automatically adjustable kernel; and (c) providing output data having a second spatial resolution and a second grid spacing. The second spatial resolution, advantageously, is substantially constant across the second grid spacing. The input data may include image data, and the output data may include resampled, or downsampled image data. The image data may be images of the Earth at a first spatial resolution and a first grid spacing; the output data may be resampled data of the images of the Earth at a second spatial resolution and a second grid spacing.Type: ApplicationFiled: March 22, 2012Publication date: September 26, 2013Applicant: EXELIS, INC.Inventor: KENNETH K. ELLIS
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Publication number: 20130250104Abstract: A method for augmenting Landsat-based image data providing a satellite at an orbital altitude lower than an orbital altitude of a Landsat imaging satellite; providing a set of multispectral imaging devices arranged on the satellite configured to image a terrestrial swath larger than a standard Landsat image swath, configured to always image when orbiting over cloud-free terrestrial surfaces and descending node defined along a northeast to southwest trajectory so as to correspond to Landsat archive data; synchronizing image data from at least four visible bands and a near-infrared band with a first resolution with image data from a shortwave infrared band with a second resolution; retracing the imaged terrestrial swath for one or more iterations; downlinking image data to a ground station being formatted in accordance with a data format; compositing the synchronized image data to create a cloud-free image and periodically cross-calibrating it with Landsat-based image data.Type: ApplicationFiled: March 20, 2012Publication date: September 26, 2013Applicant: GLOBAL SCIENCE & TECHNOLOGY, INCInventor: Darrel Leon WILLIAMS
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Patent number: 8542286Abstract: A large format digital camera has a primary camera system configured for collecting panchromatic image data and a secondary camera system configured for collecting color image data. The secondary camera system has an optical system that has a longer focal length than the optical system of the primary camera system. The resolution of the secondary camera system is greater than the resolution of the primary camera system. The footprint of images produced by the primary camera system is larger in size than the footprint of images produced by the secondary camera system. Images produced by the primary camera system offer information for performing image-based georeferencing by means of photogrammetric triangulation. Images produced by the secondary camera system offer a high-resolution narrow angle color image suitable for use in ortho image production.Type: GrantFiled: November 24, 2009Date of Patent: September 24, 2013Assignee: Microsoft CorporationInventors: Michael Gruber, Martin Josef Ponticelli
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Publication number: 20130242041Abstract: A thrown or projected ball-shaped camera for capturing video and still images over the arc of its airborne trajectory is disclosed. Improvements include an orientation sensor for determining the camera's orientation in flight; an embedded processing unit for triggering an image capture in response to the camera's orientation; an embedded processing unit for rotating a captured image in response to the camera's orientation; and an embedded processing unit for stitching a plurality of captured images. Also disclosed is a ball-shaped camera having multiple embedded cameras for capturing a spherical panoramic image.Type: ApplicationFiled: May 4, 2013Publication date: September 19, 2013Inventor: Steven J. Hollinger
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Patent number: 8537219Abstract: An invention for identifying a spatial location of an event within video image data is provided. In one embodiment, there is a spatial representation tool, including a compression component configured to receive trajectory data of an event within video image data, and generate a set of compressed spatial representation of the trajectory data of the event within the video image data. A database component is configured to input the set of compressed spatial representations into a relational database, and a search component is configured to search the relational database to identify a spatial location of the event within the video image data.Type: GrantFiled: March 19, 2009Date of Patent: September 17, 2013Assignee: International Business Machines CorporationInventors: Michael J. Desimone, Arun Hampapur, Zuoxuan Lu, Carl P. Mercier, Christopher S. Milite, Stephen R. Russo, Chiao-Fe Shu, Chek K. Tan
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Publication number: 20130235199Abstract: A method and system are presented in which images are captured from overview and detail imaging devices such that overview images are created with a first degree of redundancy, and detail images are captured with less overlap and a second degree of redundancy.Type: ApplicationFiled: April 30, 2013Publication date: September 12, 2013Applicant: nearmap australia pty ltdInventor: Stuart William NIXON
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Patent number: 8531524Abstract: Examples of imaging microsatellites are described that have an imaging system and antenna system disposed within the microsatellite body when the microsatellite is in a non-deployed state. The properties of the antenna system can be adjusted such that the antenna system does not impact, contact, or displace the imaging system when the microsatellite is in the non-deployed state. The properties of the antenna system can be adjusted such that the antenna system does not contact or impact the body of the microsatellite or any other structure when the microsatellite transitions to a deployed state. The antenna system can be configured to achieve a desired gain and/or data transmission rate by adjusting properties of the antenna system based on the radiation pattern of an antenna feed and geometric constraints imposed by the imaging system. Examples of methods for designing such imaging microsatellites are provided.Type: GrantFiled: December 14, 2011Date of Patent: September 10, 2013Assignee: Skybox Imaging, Inc.Inventor: Henrique do Carmo Miranda
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Patent number: 8531521Abstract: Methods and apparatus related to smart surveillance camera operation and implementation are described. A smart surveillance camera stores a map corresponding to an area subject to monitoring. The camera provides at least one image detected by said camera and at least a portion of the stored map in conjunction with the at least one image detected by said camera, e.g., to a wireless communications device of an emergency responder in its local vicinity. Current camera position and/or viewing controls such as camera angle setting and/or zoom, are sometimes used, to determine the portion of the overlay map to be communicated in conjunction with a video stream. Externally detectable trigger events, e.g., from a 911 call or from a gunshot audio detector, and/or internally detectable trigger events, e.g., a detected mob in the camera viewing area, are sometimes used to initiate transmission of a video stream and corresponding map overlay.Type: GrantFiled: October 6, 2006Date of Patent: September 10, 2013Assignee: Sightlogix, Inc.Inventor: John Frederick Romanowich
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Patent number: 8527117Abstract: An aircraft hover system for enabling an aircraft to hover at a target spatial location represented by GPS location coordinates. The hover system includes a display screen rendering a display including live video feed of the terrain below the airborne aircraft, a first mark overlaying the video feed, the first mark representing the current position of the aircraft relative to the terrain, and a perimeter surrounding the first mark, the portion of the terrain within the perimeter being substantially magnified compared to that of the terrain outside of the perimeter. The hover system is configured such that, as the aircraft approaches the target spatial location, the distance between the first mark and a second mark on the display gradually decreases until and finally the first and second marks coincide; the second mark representing the target spatial location.Type: GrantFiled: July 5, 2011Date of Patent: September 3, 2013Assignee: Sandel Avionics, Inc.Inventor: Gerald J. Block
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Patent number: 8519951Abstract: A method and apparatus for displaying an image of terrain obtained from a position above the terrain. An image of an object is detected in the image of the terrain for an object that is positioned between the terrain and the position above the terrain. The detected image of the object is replaced in the image of the terrain with replacement image data. For example, the replacement image data may be image data for the terrain below the object. The image of the terrain with the replacement image data may be displayed. The method and apparatus may be used to replace images of clouds in images of the surface of the earth below an aircraft with image data for the surface of the earth below the clouds.Type: GrantFiled: July 30, 2010Date of Patent: August 27, 2013Assignee: The Boeing CompanyInventors: Bethany L. Franko, Domenic S. Giuntoli, Nino Senoadi, Calsee N. Robb, Sean A. Munson, Robert J. Bengtsson, Bradley J. Mitchell, Henry V. Fletcher, III
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Publication number: 20130215268Abstract: A system for rescue of a target by aircraft, comprises control means to plot at least one contour delimiting an area of interest, computation means identifying, on at least one camera, at least one area of interest, in which a predetermined object is likely to be located, an expert system assigning a likelihood coefficient to one identified area of interest, computation means assigning a likelihood coefficient to at least one plotted area of interest, and computation means determining at least one relevant area of interest from the positions and likelihood coefficients assigned to areas of interest comprising at least one identified area of interest in which said object is likely to be located and/or at least one plotted area of interest on a set of images comprising at least one pilot image and/or at least one output image, said display means presenting at least one first relevant area of interest.Type: ApplicationFiled: February 15, 2013Publication date: August 22, 2013Applicant: THALESInventor: THALES
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Publication number: 20130208116Abstract: 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.Type: ApplicationFiled: February 28, 2013Publication date: August 15, 2013Applicant: Pictometry International Corp.Inventor: Pictometry International Corp.
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Patent number: 8497905Abstract: A method and system are presented in which images are captured from overview and detail imaging devices such that overview images are created with a first degree of redundancy, and detail images are captured with less overlap and a second degree of redundancy.Type: GrantFiled: September 23, 2009Date of Patent: July 30, 2013Assignee: nearmap australia pty ltd.Inventor: Stuart William Nixon
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Publication number: 20130188049Abstract: A vehicle display system displays approach lights acquired by a vision system overlaid on, and aligned with, a stored synthetic approach light symbol. A stored approach light type that corresponds to the target runway may be verified to match the acquired approach lights. A synthetic approach light symbol that corresponds to the approach light type is chosen and aligned with the approach lights for display.Type: ApplicationFiled: January 19, 2012Publication date: July 25, 2013Applicant: HONEYWELL INTERNATIONAL INC.Inventors: Ondrej Koukol, Tomas Beda, Jan Lukas, Ondrej Pokorny
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Publication number: 20130191725Abstract: Video drive-by data provides a street level view of a neighborhood surrounding a selected geographic location. A video and data server farm incorporates a video storage server that stores video image files containing video drive-by data corresponding to a geographic location, a database server that processes a data query received from a user over the Internet corresponding to a geographic location of interest, and an image processing server. In operation, the database server identifies video image files stored in the video storage server that correspond to the geographic location of interest contained in the data query and transfers the video image files over a pre-processing network to the image processing server. The image processing server converts the video drive-by data to post-processed video data corresponding to a desired image format and transfers the post-processed video data via a post-processing network to the Internet in response to the query.Type: ApplicationFiled: March 9, 2013Publication date: July 25, 2013Applicant: MV Patents, LLCInventors: William D. Meadow, Randall A. Gordie, JR.
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Patent number: 8493445Abstract: An optical scanner system for contiguous three-dimensional topographic or volumetric imaging of a surface from an aircraft or spacecraft is disclosed. A servo controller synchronizes the rotation rates of a pair of wedge scanners with high precision to the multi-kilohertz laser fire rate producing an infinite variety of well-controlled scan patterns. This causes the beam pattern to be laid down in precisely the same way on each scan cycle, eliminating the need to record the orientations of the wedges accurately on every laser fire, thereby reducing ancillary data storage or transmission requirements by two to three orders of magnitude and greatly simplifying data preprocessing and analysis. The described system also uses a holographic element to split the laser beam into an array that is then scanned in an arbitrary pattern.Type: GrantFiled: March 8, 2007Date of Patent: July 23, 2013Assignee: Sigma Space CorpInventors: John James Degnan, III, David Nelson Wells
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Patent number: 8487996Abstract: Examples of an imaging sensor include a two-dimensional staring sensor with spectral filter strips for multispectral overhead imaging. The sensor may also include a panchromatic sensor with block or strip filters. The sensor may be used to collect multispectral color image data at a sampling resolution from overhead imaging platforms such as airplanes or satellites. The sensor can be used to provide video images. If a panchromatic sensor is included, the sensor may be used to collect panchromatic image data. Examples of methods for processing the image date include using the panchromatic image data to perform multi-frame enhancement or panchromatic sharpening on spectral images to improve their quality and resolution.Type: GrantFiled: August 3, 2012Date of Patent: July 16, 2013Assignee: Skybox Imaging, Inc.Inventors: Julian M. Mann, Daniel Berkenstock, M. Dirk Robinson
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Patent number: 8487787Abstract: A near-to-eye display allows an operator of a vehicle, such as a pilot of an aircraft, to see an obstacle on a conformal pathway, such as a runway or taxiway. The obstacle may be boundaries of the pathway or an object captured by an optional Infrared camera.Type: GrantFiled: September 30, 2010Date of Patent: July 16, 2013Assignee: Honeywell International Inc.Inventors: Carl A. Best, Frank Cupero
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Patent number: 8482610Abstract: Examples of imaging microsatellites are described that have an imaging system and antenna system disposed within the microsatellite body when the microsatellite is in a non-deployed state. The properties of the antenna system can be adjusted such that the antenna system does not impact, contact, or displace the imaging system when the microsatellite is in the non-deployed state. The properties of the antenna system can be adjusted such that the antenna system does not contact or impact the body of the microsatellite or any other structure when the microsatellite transitions to a deployed state. The antenna system can be configured to achieve a desired gain and/or data transmission rate by adjusting properties of the antenna system based on the radiation pattern of an antenna feed and geometric constraints imposed by the imaging system. Examples of methods for designing such imaging microsatellites are provided.Type: GrantFiled: August 3, 2012Date of Patent: July 9, 2013Assignee: Skybox Imaging, Inc.Inventor: Henrique do Carmo Miranda
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Patent number: 8482608Abstract: A camera housing and mounting system for mounting surveillance equipment from the bottom of a power transformer is disclosed. The disclosed system uses magnetic self-adjusting attachment supports that use pivoting magnets mounted on threaded supports that allow adjustment of the length of protrusion of the supports, and thus for universal mounting application. The weather proof housing, outer covering, magnetic mounting system and electrical connections make the device user friendly and quick deployment and electrical connection to the power transformer.Type: GrantFiled: March 17, 2010Date of Patent: July 9, 2013Inventor: Shaun C. Sandoval
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Patent number: 8483425Abstract: To be precisely extracted a house footprint. There is provided a geospatial information creating system for extracting a footprint of a house from an aerial photograph, comprising a processor for executing a program, a memory for storing data required for executing the program, and a storage unit for storing the aerial photograph. The processor detects edges of an image based on a characteristic quantity of neighboring pixels in the aerial photograph stored in the storage unit; extracts an orientation of the house by analyzing directions of the detected edges; and generates a polygon of an outline of the house by using linear lines of the extracted orientation of the house.Type: GrantFiled: August 5, 2010Date of Patent: July 9, 2013Assignee: Hitachi Solutions, Ltd.Inventors: Tao Guo, Yoriko Kazama, Takashi Hino, Yoshiaki Kagawa
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Patent number: 8482609Abstract: Camera based surveillance system planning methods and apparatus are discussed. A surveillance system integration tool, which may be downloaded into a user's computer system, allows for the insertion and orientation of surveillance cameras onto a map, e.g., a downloaded satellite based map. The integration tool presents the user with various surveillance system planning options. A user selects between various available camera types, e.g., visible vs IR spectrum, and between various camera configuration settings, with the user's selections being received and processed by the integration tool. The integration tool allows a user, e.g., a potential customer, to manipulate camera positioning, orientation, and/or settings, thus changing coverage areas for surveillance. The integration tool outputs for display and/or hardcopy a generated output plan including a map with an overlay including at least one inserted camera indication and a corresponding camera surveillance coverage area indication.Type: GrantFiled: November 22, 2006Date of Patent: July 9, 2013Assignee: Sightlogix, Inc.Inventors: Deepam Mishra, Bruce L. Barfield, Garrick Chin