Patent application number | Description | Published |
20100302272 | Enhancing Images Using Known Characteristics of Image Subjects - A method performed by one or more computers programmed to enhance images, the method including receiving an image and a face region associated with the image, sampling pixels from the face region, generating, based on the sampled pixels, a face-region evaluation, identifying a modification to the image based on the face-region evaluation, and modifying the image in accordance with the identified modification. | 12-02-2010 |
20100303345 | RED-EYE REDUCTION USING FACIAL DETECTION - A computer-implemented method for detecting a red-eye artifact that includes receiving an image depicting a first eye and a second eye corresponding to a human face, and coordinates corresponding to a location of the first eye and the second eye in the image; calculating a distance between the first eye and the second eye using the received coordinates; obtaining a skin tone sample from the image based on the calculated distance and the received coordinates; generating a skin tone color region in a color space based on the obtained skin tone sample; classifying a pixel corresponding to the first eye as a red-eye pixel by comparing the pixel with the generated skin tone color region and a predetermined red-eye color region; and storing an indication of the classifying relative to the pixel. | 12-02-2010 |
20110050706 | Modifying Graphical Paths - A computing device includes a memory configured to store images and associated timing data. The computing device also includes a processor configured to execute instructions to perform a method that includes producing a graphical path on a digital map that represents positions associated with the images. The positions are estimated from the timing data associated with the images. The method also includes modifying the graphical path based upon data that represents user provided adjustments to the estimated positions of the images. The method also includes presenting the modified path. | 03-03-2011 |
20110052073 | Landmark Identification Using Metadata - Methods, systems, and apparatus are presented for associating a point of interest with a captured image. In one aspect, metadata associated with a digital image can be accessed, the metadata identifying an image capture location. Further, a depth of field corresponding to the digital image can be determined and one or more points of interest can be identified that are located within the determined depth of field. Additionally, one of the one or more identified points of interest can be selected as an image subject and the metadata associated with the digital image can be edited to include data identifying the selected point of interest. | 03-03-2011 |
20110055283 | Reverse Geo-Coding for Track Path - Methods and systems are disclosed for associating non-geographical information to track paths. Among other things, meaningful labels for the track paths can be formulated. In one aspect, a method performed by an application executing on a computer system includes receiving a set of images taken during a trip, a corresponding set of acquisition times, and a track path of the trip. The method further contains identifying landmarks near the received track path. Furthermore, the method includes receiving from a human user of the application a landmark selection from the identified landmarks and one or more image selections from the received set of images. In response to receiving the human user's selections, the method can associate the one or more selected images with the selected landmark. Additionally, the method included matching the received set of images to the received track path based on the association. | 03-03-2011 |
20110055284 | ASSOCIATING DIGITAL IMAGES WITH WAYPOINTS - Methods and systems are disclosed for identifying waypoints. In one aspect, a method performed by an application executing on a computer system, includes receiving at least two sets of digital images including a first set of digital images for which image acquisition times are known and a second set of digital images for which image acquisition times and image acquisition locations are known. The method further includes overlaying waypoint identifiers over a map image. The waypoint identifiers correspond to geographical coordinates and to time acquisitions of one or more of the second set of images. Furthermore, the method includes receiving from a user associated with the application a waypoint selection of the overlaid waypoint identifiers and one or more image selections of the first set of images. In response to receiving the selections, the method includes associating the selected ones of the first set of images with the selected waypoint, and generating a trip-descriptor including the first set of images associated with the overlaid waypoint identifiers. | 03-03-2011 |
20110055749 | Tracking Device Movement and Captured Images - A computing device includes a memory configured to store position data and images. The computing device also includes a processor configured to execute instructions to perform a method that includes receiving position data that represents the positions of a position tracking device over a period of time. The position data includes a group of position coordinates that represent a location. The method also includes receiving images that include a group of images associated with the location. The method also includes aligning the group of position coordinates that represent the location and the group of images associated with the location. The method also includes presenting a representation of the alignment of the group of position coordinates and the group of images. | 03-03-2011 |
20130016122 | Multifunctional Environment for Image CroppingAANM Bhatt; NikhilAACI CupertinoAAST CAAACO USAAGP Bhatt; Nikhil Cupertino CA USAANM Cherna; TimAACI San FranciscoAAST CAAACO USAAGP Cherna; Tim San Francisco CA US - Methods, systems, and apparatus, including computer programs encoded on computer storage media, are described for combining the crop function with zoom, pan and straighten functions as part of a single cropping environment, such that a user can select a portion of an image for cropping, apply zoom, pan and straighten transformations to the selected image portion and then crop the transformed image portion in a single utility. In one aspect, the methods include the actions of receiving user input defining a crop region within a displayed image. The methods also include the actions of displaying a user interface including a cropping panel that is configured to display a subset of the image corresponding to the defined crop region. Further, the methods include the actions of receiving user input requesting to perform at least one of a zoom, rotate or translate operation on the crop region displayed in the cropping panel. | 01-17-2013 |
20130027427 | Associating Digital Images with Waypoints - Methods and systems are disclosed for identifying waypoints. In one aspect, a method performed by an application executing on a computer system, includes receiving at least two sets of digital images including a first set of digital images for which image acquisition times are known and a second set of digital images for which image acquisition times and image acquisition locations are known. The method further includes overlaying waypoint identifiers over a map image. The waypoint identifiers correspond to geographical coordinates and to time acquisitions of one or more of the second set of images. Furthermore, the method includes receiving from a user associated with the application a waypoint selection of the overlaid waypoint identifiers and one or more image selections of the first set of images. In response to receiving the selections, the method includes associating the selected ones of the first set of images with the selected waypoint, and generating a trip-descriptor including the first set of images associated with the overlaid waypoint identifiers. | 01-31-2013 |
20130287253 | REVERSE GEO-CODING FOR TRACK PATH - Methods and systems are disclosed for associating non-geographical information to track paths. Among other things, meaningful labels for the track paths can be formulated. In one aspect, a method performed by an application executing on a computer system includes receiving a set of images taken during a trip, a corresponding set of acquisition times, and a track path of the trip. The method further contains identifying landmarks near the received track path. Furthermore, the method includes receiving from a human user of the application a landmark selection from the identified landmarks and one or more image selections from the received set of images. In response to receiving the human user's selections, the method can associate the one or more selected images with the selected landmark. Additionally, the method included matching the received set of images to the received track path based on the association. | 10-31-2013 |
Patent application number | Description | Published |
20100027907 | DIFFERENTIAL IMAGE ENHANCEMENT - Techniques for differentially enhancing selected areas within a digital image are disclosed. In certain embodiments, one or more attributes of a selected pixel or a group of pixels is determined. Examples of such attributes include color properties, grayscale properties, and/or multi-pixel properties, such as texture. In certain embodiments, the attribute may be used in conjunction with the properties of a modification tool, such as a brush, to selectively modify pixels having the attribute value or a similar attribute value. | 02-04-2010 |
20100171712 | Device, Method, and Graphical User Interface for Manipulating a User Interface Object - In some embodiments, an electronic device with a display and a touch-sensitive surface displays a user interface object. The device detects a first contact and a second contact concurrently on the touch-sensitive surface. The device determines which contact of the first contact and the second contact is a topmost contact, a bottommost contact, a leftmost contact, and a rightmost contact on the touch-sensitive surface. While continuing to detect the first contact and the second contact, the device detects movement of the first contact across the touch-sensitive surface, and concurrently moves two edges of the user interface object that correspond to the first contact in accordance with the detected movement of the first contact, including horizontally moving one of the two edges and vertically moving the other of the two edges. | 07-08-2010 |