Patent application number | Description | Published |
20100170945 | CHECK CARRIER - The check carrier consists of an envelope of translucent material that is dimensioned to closely conform to the dimensions of a standard check. The back of the check carrier includes an endorsement window through which a bank or other financial institution can apply its endorsement stamp directly to the check. The bottom of the check carrier may be provided with an area for receiving the MICR printing such that the MICR can be read directly off of the carrier. The MICR area can be removed. The open end of the check carrier can be sealed closed using a repositionable adhesive. The adhesive can also be used interior of the check carrier such that the adhesive contacts the check to fix the check within the carrier. | 07-08-2010 |
20140037182 | IMAGE CHECK CONTENT ESTIMATION AND USE - Apparatus, methods and media for deriving a transaction record based on handwritten check content. The apparatus may include, and the methods and media may involve, a receiver device that is configured to receive a check image. The apparatus may include, and the methods and media may involve, a processor device. The processor device may be configured to define a check segment within the check image; translate content from the segment from handwriting to estimated block text; and store the block text in a transaction record in machine readable memory. The apparatus may include, and the methods and media may involve, a transmitter that is configured to transmit the block text to a financial institution product engine. | 02-06-2014 |
20140040141 | USE OF CHECK-FACE META-DATA FOR ENHANCED TRANSACTION PROCESSING - A computer-readable media storing computer-executable instructions for using a check deposit device to process a check is provided. The method derives meta-data from the check. The check deposit device may use an image receiver device to obtain a check image from the check. The method may use the processor to define a plurality of check segments within the check image. The processor device may obtain content from each of the plurality of check segments. The processor device may be store the content of each of the check segments in a machine readable memory and may utilize a transmitter to transmit the content from the plurality of check segments to a check-clearance engine. The check deposit device may receive from the check-clearance engine, in response to the transmission of the portion of the content from the plurality of check segments, an indication of the sufficiency of funds in an account. | 02-06-2014 |
20140046841 | DISTRIBUTED PROCESSING OF A CHECK IMAGE - Apparatus and methods for distributed processing of a check image are provided. A payee may submit a request to deposit a negotiable instrument. The request may be received at a first financial institution. The negotiable instrument may be a check. A transaction record may be generated at the time of the request. The transaction record may be based on information handwritten or printed on the negotiable instrument. The transaction record may be transmitted to a second financial institution. The second financial institution may conduct a fraud analysis based on the transaction record. The second financial institution may transmit a fraud indicator to the first financial institution. Based on the fraud indicator, the first institution may accept or deny the request of the payee. Apparatus and methods may distribute computing resources associated with detection of fraudulent negotiable instrument. The resources may be distributed among the first and second financial institutions. | 02-13-2014 |
20140052697 | CORRECTION OF CHECK PROCESSING DEFECTS - Apparatus, methods and media for correcting a defective check processing datum. The apparatus may include, and the methods and media may involve, a receiver that is configured to receive from memory a first transaction record. The transaction record may include Magnetic Ink Character Recognition (MICR) line data. The MICR line data may be electronically read from a check. The transaction record may include non-MICR data. The non-MICR data may be electronically read from the check. The apparatus may include, and the methods and media may involve, a processor that is configured to identify a defective datum among the MICR line data. The processor may identify a portion of the non-MICR data that corresponds to the defective datum. The processor may store in memory a second transaction record. The second transaction record may include corrected data that includes an element that is derived from the identified portion of the non-MICR data. | 02-20-2014 |
20140095379 | Payments Perfection And Processing System - Data associated with a payment may be perfected before additional processing. An image file is received during a first time period, and a processor determines, during the first time period, data associated with the image file. The processor automatically determines, during the first time period, one or more exceptions associated with the data by evaluating if the data meets one or more exception rules. The processor performs, during the first time period, one or more data perfection procedures triggered by the one or more exceptions to obtain perfected data. The processor sends, during the first time period, the perfected data to a posting application. | 04-03-2014 |
20140355865 | IMAGE OVERLAY FOR DUPLICATE IMAGE DETECTION - Embodiment for detecting duplicate images include systems for determining that two or more of the images have similar key attributes such as attributes related to certain data in the images or image quality. Further, the embodiments include superimposing at least a portion of a first image of the two or more images over at least a portion of the second image of the two or more images, comparing the first image and second image; and determining whether the first image and the second image are identical. | 12-04-2014 |
20150066750 | Payments Perfection and Processing System - Data associated with a payment may be perfected before additional processing. An image file is received during a first time period, and a processor determines, during the first time period, data associated with the image file. The processor automatically determines, during the first time period, one or more exceptions associated with the data by evaluating if the data meets one or more exception rules. The processor performs, during the first time period, one or more data perfection procedures triggered by the one or more exceptions to obtain perfected data. The processor sends, during the first time period, the perfected data to a posting application. | 03-05-2015 |