Patent application number | Description | Published |
20150104098 | NOTE RECOGNITION AND MANAGEMENT USING MULTI-COLOR CHANNEL NON-MARKER DETECTION - Techniques are described for creating and manipulating software notes representative of physical notes. A computing device comprises a processor and a note identification module executable on the processor and configured to separate an input image into a plurality of channelized input images. Each of the channelized input images are associated with a different color. The note identification module is configured to apply edge detection and feature extraction to identify polygons within each of the channelized input images and select, from the polygons from the channelized input images, a representative polygon for each of the physical notes in the input image. | 04-16-2015 |
20150104107 | NOTE RECOGNITION AND ASSOCIATION BASED ON GROUPING INDICATORS - Techniques are described for creating and manipulating software notes representative of physical notes. A computing device is described that includes a processor and an image collection module executable on the processor and configured to receive an input image of an environment having a plurality of physical notes. An image processing engine executable on the processor is configured to identify the plurality of physical notes in the input image and generate, for each of the physical notes, a corresponding digital note. The image processing engine is further configured to identify an indication of one or more groups of the plurality of identified notes in the input image and group the plurality of digital notes according to the indication. | 04-16-2015 |
20150106699 | NOTE RECOGNITION FOR OVERLAPPING PHYSICAL NOTES - Techniques for creating and manipulating software notes representative of physical notes are described. A computing device includes a processor, an image collection module executable by the processor and configured to receive an input image of an environment having a plurality of overlapping physical notes, and an image processing engine executable by the processor and configured to process the input image with the computing device to identify the plurality of overlapping physical notes in the input image. The image processing engine determines a boundary of each note in the plurality of overlapping physical notes in the input image, and generates a plurality of digital notes corresponding to the determined boundary of each of the overlapping physical notes identified in the input image. | 04-16-2015 |
20150106754 | ADDING, DELETING DIGITAL NOTES FROM A GROUP OF DIGITAL NOTES - In general, the disclosure describes techniques for creating and manipulating software notes representative of physical notes. A computing device includes a processor, an image collection module configured to receive an input image of an environment having a plurality of physical notes, an image processing engine configured to identify the plurality of physical notes in the input image and generate a plurality of digital notes corresponding to the plurality of notes identified in the input image, wherein the plurality of digital notes include information represented by the plurality of notes in the input image, and a graphical user interface configured to display the input image overlaid with the plurality of digital notes in place of the identified plurality of notes on a first portion of the graphical user interface and to display a set of one or more of the digital notes on a second portion of the graphical user interface. | 04-16-2015 |
20150106760 | ORGANIZING DIGITAL NOTES ON A USER INTERFACE - At least some aspects of the present disclosure feature a computing device configured to display visual representations of digital notes and one or more group images representing one or more groups on a user interface, where each group may include one or more digital notes. The computing device is further configured to receive one or more user inputs via the user interface and change the compositions of the groups based on the received user inputs. | 04-16-2015 |
20150213310 | NOTE RECOGNITION AND ASSOCIATION BASED ON GROUPING INDICATORS - Techniques are described for creating and manipulating software notes representative of physical notes. A computing device is described that includes a processor and an image collection module executable on the processor and configured to receive an input image of an environment having a plurality of physical notes. An image processing engine executable on the processor is configured to identify the plurality of physical notes in the input image and generate, for each of the physical notes, a corresponding digital note. The image processing engine is further configured to identify an indication of one or more groups of the plurality of identified notes in the input image and group the plurality of digital notes according to the indication. | 07-30-2015 |
20150220257 | NOTE CAPTURE AND RECOGNITION WITH MANUAL ASSIST - At least some aspects of the present disclosure feature a computing device configured to receive an input image of an environment having a plurality of physical notes. The computing device automatically processes the input image to identify at least some of the plurality of the physical notes in the input image and displays the input image and indications indicative of the identified physical notes on a user interface. The computing device receives a user input indicating a position within the input image via a user interface and, responsive to the user input, recognizes proximate to the position a missed one of the physical notes that was not identified by the computing device when initially processing the input image. | 08-06-2015 |
20150220800 | NOTE CAPTURE, RECOGNITION, AND MANAGEMENT WITH HINTS ON A USER INTERFACE - At least some aspects of the present disclosure feature a computing device with an image capture device to capture a visual representation of one or more notes. The computing device is configured to generate hint related to image capture and present the hint via a user interface. | 08-06-2015 |