Registers – Systems controlled by data bearing records – Banking systems
Reexamination Certificate
1999-09-14
2002-05-21
Frech, Karl D. (Department: 2876)
Registers
Systems controlled by data bearing records
Banking systems
C235S380000
Reexamination Certificate
active
06390362
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of Invention
This invention pertains to the art of devices and methods for preventing check fraud, and more particularly to an integrated fraud-preventing process between the customer and the bank.
2. Description of the Related Art
It is well known that check fraud is one of the largest challenges facing financial institutions today. Technology has made it increasingly simple for criminals, either independently or in organized gangs, to create increasingly realistic counterfeit checks and false identification that can be used to defraud banks. A 1994 survey by the American Bankers Association found that 54% of community banks, 94% of mid-sized banks, and 88% of large banks sustained losses from check fraud in 1993. Between 1991 and 1993, the number of fraudulent checks submitted increased 136%, from 537,000 to 1,267,000. Over the same period, annual losses from those frauds increased to reach $815,000,000.
Thrifts, savings banks, and other financial institutions, retail merchants, government agencies, and large corporations, are also victims of check fraud. A recent survey of more than 2,000 large US corporations concluded that on average, they lost approximately $360,000 a year to check fraud. The FBI estimates that if commercial banks and other institutions combined their check fraud losses, the total would be $12 billion to $15 billion annually.
Several methods have been tried in order to curtail the problem of check fraud in the banking industry. One of the ways that has been used is called positive pay. Positive pay allows a company and its bank to work together to detect check fraud by identifying items presented for payment that the company did not issue. In the usual case, the company electronically transmits to the bank a list of all checks that issued on a particular day. The bank verifies checks received for payment against that list and pays only those on the list. The bank rejects checks not on the company's list, checks that exceed a specific dollar amount, or checks that carry dates long past. The bank investigates rejected checks to find out if the items are fraudulent or in error. The bank only pays exception items approved by the company.
Another related method of curtailing check fraud is reverse positive pay. Reverse positive pay is similar to positive pay, but the process is reversed, with the company, not the bank, maintaining a list of checks issued. When checks are presented for payment and clear through the Federal Reserve system, the Federal Reserve prepares a file of the check's account numbers, serial numbers, and dollar amounts, and sends the file to the bank. In reverse positive pay, the bank sends that file to the company, where the company compares the information to its internal records. The company lets the bank know which checks match its internal information, and the bank pays those items. The bank then researches the checks that do not match, corrects any misreads or encoding errors, and determines if any items are fraudulent. The bank pays only “true exceptions”, that is, those that can be reconciled with the company's files.
Another security measure that some banks have used, and seen a reduction in check fraud as result of, is fingerprinting non-customers that seek to cash checks. Generally, the programs require all persons presenting checks for payment who do not have an account with the bank to provide a thumbprint. A person who does not object to providing a fingerprint is asked to ink his or her thumb on a small pad and place the imprint in the space between the memo line and the signature line of the check being presented. If the bank later finds out that the check was fraudulent or was altered it can provide the check, with the fingerprint, to law enforcement officials.
A final known security measure is adding security features to the checks themselves. Some of the useful security measures include the following: watermarks, copy void pantograph, chemical voids, high resolution microprinting, 3-dimensional reflective hollow strip and security inks. Each of these measures will be briefly summarized. 1.) Watermarks are made by applying different degrees of pressure during the paper manufacturing process. Most watermarks make subtle designs on the front and back of the checks. These marks are not easily visible and can only be seen when they are held up to light at a 45° angle. 2.) Copy void pantographs are patented designs in the background pattern of checks. When photocopied, the pattern changes and the word “VOID” appears, making the copy non-negotiable. 3.) Chemical voids involve treating check paper in a manner that is not detectable until eradicator chemicals contact the paper. When chemicals are applied, the treatment causes the word “VOID” to appear, making the item non-negotiable. Checks treated with chemical voids cannot be altered without detection. 4.) High resolution microprinting is very small printing typically used for the signature line of a check or around the border in what appears to be a line or pattern to the naked the eye. When magnified the line or pattern contains a series of words that run together or become totally illegible if the check has been photocopied or scanned with a desktop scanner. 5.) A 3-dimensional reflective hollow stripe is a metallic stripe that contains one or more holograms, similar to those in credit cards. These items are difficult to forge, scan, or reproduce because they are produced by a sophisticated, laser based etching process. 6.) Security inks react with common eradication chemicals. These inks reduce a forger's ability to modify the printed dollar amount or alter the designated payee because when solvents are applied, a chemical reaction with the security ink distorts the appearance of the check. This makes such items very difficult to alter without detection.
Although these security measures have been somewhat effective in deterring check fraud, the problem still persists. The currently known security measures are generally fairly expensive, and usually only available to medium to large size businesses. The present invention allows for an easy and efficient method for verifying the validity of a check, and can be used by even the individual customer. The present invention provides further security measures for verifying the validity of a check received by the banking system.
Another problem in the banking industry is the delay that occurs from the time a check is written until the time the check finally clears the bank and is paid to the payee. Currently, if the payee bank and the drawee bank are separate entities, the process could take several days. The current invention presents a method for integrating the entire process and making it instantaneous.
One known method for verifying and tracking checks is found in U.S. Pat. No. 5,594,226 to Steger. Steger provides an apparatus for automatically accessing and verifying checking account status based on information containing a barcode printed on a check, travelers check, or money order. This method deals with a point-of-sale check verification system, and not a method for clearing checks at a bank. The Steger patent is mainly a method for determining that a checking account has enough money to cover the check that is being presented. The present invention allows a check to be created with a barcode containing the payee, the amount of the check, and the date of the check, so that when the bank receives the check for presentment, it can verify the authenticity of the check.
Another known method for verifying checks is found in U.S. Pat. No. 5,903,881 to Schrader et al. Schrader provides a software product, computer implemented, method and system to integrate a user interface having three simultaneously displaced items of information. The interface displays the account balance, and both clear and uncleared transactions. However, this invention does not have any way of preventing a fraudulent check from being cleared by the bank. The present invention allows the bank to check
Emerson Roger D.
Emerson & Skeriotis
Frech Karl D.
Thompson Daniel A.
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