| Patent application number | Description | Published |
|---|
| 20080281645 | Computerized Protection System and Method for Automatically Identifying and/or Characterizing Risk Parameters - The invention concerns a computerized protection system and method for automatically identifying and/or characterizing risk parameters. The invention is characterized in that it comprises a look up table ( | 11-13-2008 |
| 20090012840 | System and Method for Developing Loss Assumptions - A method for developing assumptions for use in evaluating the possible occurrence of an event comprises the steps of defining a plurality of factors correlated with each other to the event, assigning a plurality of levels to each factor, determining a relative occurrence rate for selected combinations of factors and levels, and assigning selected combinations to one of a plurality of cohorts. In certain embodiments, the method, and a corresponding system are used in designing an insurance product. The method may include the additional steps of assigning values to the levels and evaluating expected performance of the product based upon the values assigned to the levels and the expected loss distribution. The step of producing an expected loss distribution includes determining, for at least some of the selected combinations, a cumulative probability of occurrence, and determining, for at least one of the selected combinations, an incremental probability of occurrence. | 01-08-2009 |
| 20090177498 | System and Method for Developing Loss Assumptions - A method for developing assumptions for use in evaluating the possible occurrence of an event comprises the steps of defining a plurality of factors correlated with each other to the event, assigning a plurality of levels to each factor, determining a relative occurrence rate for selected combinations of factors and levels, and assigning selected combinations to one of a plurality of cohorts. In certain embodiments, the method, and a corresponding system are used in designing an insurance product. The method may include the additional steps of assigning values to the levels and evaluating expected performance of the product based upon the values assigned to the levels and the expected loss distribution. The step of producing an expected loss distribution includes determining, for at least some of the selected combinations, a cumulative probability of occurrence, and determining, for at least one of the selected combinations, an incremental probability of occurrence. | 07-09-2009 |
| Patent application number | Description | Published |
|---|
| 20110080607 | System And Method For Print Production Sheet Identification - A system and method is disclosed for print production sheet identification. The method discloses: receiving a set of calibration sheets; collecting an array of pixel samples from at least one of the calibration sheets according to a set of pixel sampling rules to generate at least one reference sample array; capturing an image of a set of physical sheets generated from the set of calibration sheets; collecting an array of pixel samples from at least one of the imaged physical sheets according to the set of pixel sampling rules to generate at least one post-processing sample array; and comparing the post-processing sample array to the reference sample array to determine if the two arrays have less than or equal to a predetermined number of differences. The system discloses: a sampling module, operated by a processor, a scanner, and a comparison module, operated by a processor. | 04-07-2011 |
| 20110142337 | Method For Red-eye Detection - A method involving generating a pixel map of a digital image, scanning the pixel map and labeling a found red pixel, where each row of the pixel map is scanned for a red pixel, where a coordinate of each labeled red pixel is stored and compared to surrounding red pixels, arranging found labeled red pixels with previously found labeled red pixels that have a corresponding y-axis coordinate thereby creating a contiguous group, determining if the contiguous group is a red-eye artifact, and creating a list of coordinates that denote red-eye artifacts within the digital image. | 06-16-2011 |
| 20120020557 | CORRECTING AN ARTIFACT IN AN IMAGE - A method of correcting an artifact in a captured image includes generating a binary map that corresponds to the artifact in the captured image. The method also includes generating a luminance mask from the binary map, the luminance mask applying a level of correction near an edge of the artifact that is different from a level of correction applied at the center of the artifact and generating, a chrominance mask to correct a color of the artifact. The method further includes performing corrections to pixels according to the luminance and the chrominance masks. | 01-26-2012 |
| Patent application number | Description | Published |
|---|
| 20110001850 | Automatic Redeye Detection - Candidate redeye areas ( | 01-06-2011 |
| 20110032354 | Remote-controlled Pointing - A remote-controlled pointing system ( | 02-10-2011 |
| 20110069328 | SYSTEM AND METHOD FOR CREATING A DATA-BEARING IMAGE - A system for creating a data-bearing image can include a reference image generator configured to apply a clustered-dot halftone screen to a continuous-tone image. The resulting reference halftone image includes carrier cells in which a pixel cluster can be shifted to at least two shift positions in the carrier cell. The system also includes a payload encoder configured to segment the data payload and encode data segments into one of the carrier cells by shifting the cluster to one of the shift positions. The system also includes an output device configured to output the resulting data-bearing halftone image. | 03-24-2011 |
| 20110073655 | Blur Resistant Barcode - A blur resistant barcode is disclosed. The blur resistant barcode comprise a plurality of parallel lines and spaces where information is encoded in the barcode by variations in the thicknesses of the plurality of parallel lines and by variations in the spacing between the plurality of parallel lines. The blur resistant barcode has at least one blur resistant feature that has a thickness in an axis of motion greater than a maximum thickness of any one of the plurality of parallel lines. The axis of motion is perpendicular to the plurality of parallel lines. | 03-31-2011 |
| 20120014604 | Blur Estimation - A method and apparatus for removing blur in an image is disclosed. The blur in the image is caused by relative motion between the imaging device and the object being imaged. A set of differences between the pixel values in the image is calculated. The set of differences in pixel values are divided into two groups, wherein the first group of differences in pixel values corresponds to differences in pixel values due to noise, and the second group of differences in pixel values corresponds to differences in pixel values due to noise and motion. An estimate of the motion blur is determined using the second group of differences in pixel values. The estimate of the blur is then used to remove the blur from an image. | 01-19-2012 |
| 20120070030 | PAYLOAD RECOVERY SYSTEMS AND METHODS - A payload recovery system includes a reference halftone image of a data-bearing halftone image and a reference map of the data-bearing halftone image. The system further includes a cell alignment system for receiving a scanned image of a hard copy of the data-bearing halftone image and for generating an aligned scan of the scanned image using the reference halftone image and the reference map. A raw payload recovery system determines possible shift positions of each carrier cell of the aligned scan using a shift rule and the reference map; and a reconstructed data-bearing halftone image is generated by the raw payload recovery system using the possible shift positions and the reference halftone. The system also includes a recovered raw payload generated by the raw payload recovery system using the shift rule and the reference map. | 03-22-2012 |
