WO1999052060A2

WO1999052060A2 - Identification confirmation system

Info

Publication number: WO1999052060A2
Application number: PCT/US1999/007900
Authority: WO
Inventors: Gerald R. Black
Original assignee: Black Gerald R
Priority date: 1998-04-07
Filing date: 1999-04-07
Publication date: 1999-10-14
Also published as: ATE418126T1; DE69940127D1; CN1307709A; CA2327580C; AU773158B2; WO1999052060A3; JP4712969B2; CN1224935C; EP1084479A4; JP2002510823A; CA2327580A1; EP1084479A2; AU4180899A

Abstract

A stylus (2) with biometric sensors disposed in a grip (4) captures a wide variety of biometrics while the pen is being used. The stylus senses the prints of index finger and thumb along with other properties, while the customer uses the stylus to sign his name.

Description

IDENTIFICATION CONFIRMATION SYSTEM

This Application is related to and claims the benefit of U.S. Provisional Application 60/119.408 entitled "Identification Confirmation System" filed 10 February 1999 (Attorney Docket No. BPN-99,022), U.S. Provisional Application 60/116.212 entitled "Identification Confirmation System" filed 12 January 1999 (Attorney Docket No. BPN-99.021), U.S. Provisional Application 60/114,632 entitled "Identification Confirmation System" filed 04 January 1999 (Attorney Docket No. BPN-99,020), U.S. Provisional Application 60/109,511 entitled "Biometric Writing Implement" filed 23 November 1998 (Attorney Docket No. BPN-98,012), U.S. Provisional Application 60/088,498 entitled "Biometric Hotel and Casino Play" filed 8 June 1998 (Attorney Docket No. BPN-98,011), and U.S. Provisional Application 60/080,962 entitled "Biometric Hotel and Casino Play" filed 07 April 1998 (Attorney Docket No. BPN-98,010).

FIELD OF THE INVENTION

The invention relates generally to a system for confirming the identification of the identity of a person in a transaction using biometric identification without resorting to credit or debit type cards and, more particularly, to a device and method for replacing credit cards, debit cards, house cards, and check cards as are currently being used.

BACKGROUND OF THE INVENTION

Credit cards were originally introduced to replace charge-a-plates. Plastic charge cards, debit cards, ATM cards, stored value cards are already outdated and will soon be phased out. It's not uncommon for people to carry more than eight cards in their wallets. The cards must be replaced every few years, and the cards may become damaged with frequent usage. In addition, consumer fraud and card counterfeiting are on the rise. The cards can be easily lost or stolen, signatures can be easily forged and PIN^'s can be readily determined by criminals. Hence, while plastic cards are easier to carry than money, they are almost as negotiable as money to sophisticated criminals.

Fingerprints offer an infallible means of personal identification. The use of fingerprints for identification dates back many decades, but gained wide acceptance about 100 years ago. Fingerprints are the biometric that form the basis of all worldwide identification. Fingerprints don't change with time while other physical characteristics do. Fingerprint minutiae uniquely identify fingerprints. It^'s proven that minutiae, were unchanging and repeatable features of each fingerprint, and were individually unique. Each finger has a unique arrangement of ridge detail. Typically, a full fingerprint contains up to 100 points of distinction. A person need only be fingerprinted one time to be in the system.

Everyone is affected by identity theft. Identity theft occurs when a criminal assumes the identity of someone else for the purpose of purchasing goods or services, obtaining funds, or gaining access to private information. Protection from identity theft ensures that (1 ) one's good name is not damaged, and (2) one's financial resources and personal data are not subject to attack. Today, identification is confirmed by Bank Cards, PIN's and Passwords, Identification Cards, such as a Driver's License, Knowledge of a Social Security Number. All of these can be compromised. The only real deterrent to identity theft is positive user authentication.

Protection from fraud and identity is urgently needed. This is important, not only to ensure that one's good name is not damaged, but also to ensure that one's financial resources and personal data cannot be so easily attacked. While passwords can be easily misplaced or duplicated and must be changed frequently, fingerprints are unique to every individual. Finger minutiae are the essential protection for law-abiding citizens, government and business.

Banks are already moving to counteract check fraud by resorting to fingerprinting customers. A number of major retailers have begun investigating the use of biometric technologies to track employees and other individuals via automated methods of measuring physical attributes or personal traits. Now finger minutiae, an advanced application based on the unique characteristics of the human finger, is drawing increasing attention as a potential weapon in the fight against credit card fraud. MasterCard estimates that finger minutiae technology, implemented on a global scale, could cut industry fraud losses by between 50% and 60% per year. The FBI estimates that credit fraud cost VISA® and MasterCard® $1.63 billion worldwide in 1995. Despite some anticipated advances in security through the use of smart cards and improved encoding, it remains unlikely that security concerns will keep pace with marketing and customer convenience technologies across the broad market. By the year 2000. gross bank card volume is expected to total $9.9 trillion." (American Banker. May 26 1998. V163. N98, P16-1)

Signing a check, approving a purchase, using a credit card, accessing confidential information ~ all these activities depend on reliably verifying your identity. Fingerprints are recognized all over the world as positive and undeniable proof of identity, and. unlike passwords that may be forgotten or debit cards that can be stolen, a person always has his fingerprints with him.

U.S. Patent 5.103.486 (Grippi) discloses a combination fingerprint-signature identification system. In this system, prisms are used to capture the fingerprint of the index finger while the individual is signing his/her name. The fingerprint image and the signature are processed to form an composite representative for comparison with information shown on a credit card for processing of commercial transactions. While this system combines signature and fingerprint biometrics to confirm identification, the system still requires the use of credit cards, is limited to those two biometrics (index fingerprint and signature), and is limited to the use of optical sensors which are ineffective in commercial settings.

U.S. Patent No. 5.680.470 (Moussa et al.) discloses a method of signature verification involving a set of template signatures that are examined for test features which are normalized and irrelevant features are removed. Similarly, U.S. Patent No. 5,559,895 (Lee et al.) discloses a system for real time signature verification where the signatures are digitized for statistical analysis and various personal features are selected.

Current stylus-type verification systems use accelerometers and pressure sensors to measure stylus pressure and stroke sweep in the users' signature. U.S. Patent No. 5,774,571 (Marshall) discloses a stylus with multiple sensors for biometric verification including grip pressure sensors and gyroscopes. U.S. Patent No. 4,513.437 (Chainer et al.) discloses another data input stylus for signature verification which includes accelerometers and pressure sensors. U.S. Patent No. 5, 247,137 (Epperson) discloses a stylus that enables biometric identification by means of comparison of graphics data and textural data from a remote location. The stylus also captures strokes and gestures which can also be used for confirming identification.

Even so, confirmation of identification is often slow and tedious at the point-of-sale terminal. Generally, a four-step process is used: (1) the customer swipes the card through a card reader; (2) the bank checks and verifies the status of the cardholder's account; (3) once approved, the cardholder signs his name: and (4) the cardholder's ID is checked by displaying a driver^'s license or the like.

Fingerprints are the universal identifier. Visa® and MasterCard® are exploring print sensors within screens at point-of-sale terminals and directly on the card. Since the stylus must be grasped to sign one^'s name and a signature is required m credit transactions, the natural place for the print sensors is within the stylus. A transaction using the system of the present invention requires only that the customer signs the note and the bank approves the transaction. A customer will be thrilled to complete a credit transaction simply by signing his name without using credit cards. The system of the present invention revives an age-old custom of a merchant extending credit on a signature.

What is needed is a system that uses state-of-the-art technology, a system that eliminates the use of all types of personal identification cards, a system that is virtually impregnable to criminals, a system that will significantly reduce transaction time, a system that is universal in virtually all environments, a system that provides maximum safeguards to participating financial institutions, a system that wall enable the customer to access his or her funds from any location but will deny access to all others, a system that is convenient to use and unobtrusive to customers, and a system that provides anonymity in many transactions.

What is needed is a means to convert from a card-based commercial transaction system to a cardless commercial transaction system, the means being user friendly, thereafter enabling customers to participate in either system. What is needed is a means for confirming personal identification that is reliable, state-of-the-art. that enables authorized persons entry into their accounts while preventing such entry to all others, while actually discouraging criminals from trying to crack such systems. What is needed is a system that enables a person upon arrival at the complex to register submitting one or more biometric identifiers which are entered and a credit account is established, and thereafter the guest not need carry on his person while within the complex any cash, chips, credit cards, house cards, key-cards, being able to engage in any activities offered within the complex.

SUMMARY OF THE INVENTION

In order to convert from a card-based financial system to a cardless system, the system of the present invention employs a stylus that senses a complete variety of biometric properties, particularly, the fingerprints of the index finger and the thumb, while the customer uses the implement to sign his name, or even for writing anything. The stylus enables the conversion at point-of-sale terminals when used to verify signatures, and in closed environments where house cards are issued for a limited purpose or within a limited area. Applicants can also use the stylus to participate in government programs (such as subsidies, voter registration, and driver^'s licenses). The identification verification system of the present invention offers improved transaction security for financial institutions by virtually eliminating consumer fraud and counterfeiting, offers improved efficiency by streamlining the transaction time (the customer signs name and submits identifier), while offering improved customer convenience by virtually replacing cards in wallets or purses ( credit cards, debit cards, stored value cards, pre-paid cards, ATM cards, and the like

The system of the present invention revolutionizes the nature of commercial transactions. Positioned at the center of this system is a biometric stylus. The stylus captures the fingerprints of the index finger and thumb when the customer signs his name. Initially, the customer registers by using the stylus. Each time when the customer signs his name during a face-to-face transaction, the prints are compared against the reference prints to authenticate ID.

Pens with sensors are now beginning to appear at some point-of-sale terminals. These stylus do not capture fingerprints, but rather are used only for purposes of signature verification. Initially, the system of the present invention will verify signatures replacing these styluses. Next, the use of credit and debit cards will become optional. Since the system of the present invention is fully compatible with existing card system, the transition will be smooth. The market for the system of the system of the present invention is all point-of-sale terminals, banks, and government agencies worldwide.

Once the system of the present invention is implemented on a worldwide basis, fraud will be drastically reduced, and customer convenience dramatically enhanced. Also, the system of the present invention will be universally accepted like credit cards, will provide customer convenience that cash or credit cards can't even approach, and will provide customer safety that far exceeds cash or credit card systems.

Compaq Computer is now selling computers with print sensors in their keypads. Instead of entering a PIN or a Password to access a computer network, the user puts his finger onto a glass lens the size of a postage stamp. The fingerprint is photocopied and compared to thousands of other prints. The process takes less than a second and the sensor costs under $100. Similarly. Identix has developed a fingerprint system that produces forensic-quality tenprint records, and Veridicom. has developed advanced software and hardware components using Bell Labs patented fingerprint authentication technology. The system of the present invention incorporates a pair of these type sensors into a stylus used for signing a promise to pay. Banks benefit as credit card fraud is reduced at least fifty percent. The system of the present invention virtually ensures that only someone with matching prints will have access to the account. The bank controls the transaction, capturing and processing as much biometric data as necessary before deciding whether to approve. Merchants and customers also benefit from reducing credit card fraud since some of the costs are passed onto them. The system of the present invention assists law enforcement in identifying and apprehending criminals. Criminals are discouraged since anyone trying to access an unauthorized account is identified immediately. Merchants benefit as transaction time is minimized. The system automatically captures the print data when the customer signs his name and processing begins immediately. Customers benefit since they no longer need to carry cards. Cards are easily lost or stolen, signatures are easily forged and PIN's are readily determined by criminals. While cards provide a useful alternative to cash, they are now almost as negotiable as cash to sophisticated criminals. The system of the present invention provides optimal safety for the customer by eliminating the need to carry all credit cards, debit cards, ATM cards, stored value cards, and pre-paid cards in a wallet or purse. At point-of-sale terminals, cardholders will have the added convemence of being able to (1) continue using their cards, (2) use the system of the present invention, exclusively; or (3) use both interchangeably.

Registration using the system of the present invention is similar to opening a new bank account. The applicant provides the bank with basic information; name, address, phone number, and signature. The only difference is that the stylus of the present invention enables the capture of fingerprint data while the applicant signs his name. Another way to register at point-of-sale terminals, is to replace styluses currently used for signature verification with the biometric styluses of the present invention. Once the prints are initially captured, the card isn^'t needed. The next time the cardholder wants to access the same account he need only sign his name. Of course, the cardholder can also continue to use the card.

The account is accessed at any point-of-sale terminal. The person signs his name using a biometric stylus of the present invention that's identical to the stylus used during registration. The prints are again captured and compared to the prints of all registrants in search of a match. Once the bank confirms that there are sufficient funds in the account, the amount is debited from the account, and the transaction is approved. That's all there is to it!

A cardholder can transfer funds into a new account at a point-of-sale terminal by use of a credit card at a point-of-sale terminal by using the stylus of the present invention. The cardholder swipes his card through the cardreader and signs and prints his name using the stylus of the present invention. The prints are captured and the cardholder advises the credit card bank of the amount to be transferred. Account information is exchanged and the card is not needed next time.

A debit variation of the system of the present invention provides improved customer convenience for debit, pre-paid. and stored-value type transactions. No credit is extended to the customer, who pays for his account in advance. This variation opens the financial system to everyone, regardless of credit rating, class, or legal standing. The customer does not need bank affiliation, since the accoimt is assigned to a system bank if none is designated.

The debit variation is initiated at any point-of-sale terminal. ATM, or bank by transferring cash, checks, money order, or credit cards into the account. Since credit is not being extended to the customer, less information is needed. Registration occurs directly with a bank, or with the stylus of the present invention during a debit transaction at a point-of-sale terminal (similar to the system of the present invention). The debit variation also provides anonymity in certain types of transactions. When the size of the participating group is limited, such as in a closed environment (hotel, amusement park, etc.). a stylus can be used without the fingerprint sensors. If the customer selects a pseudonym, authentication is confirmed by the signature and the other biometric sensors in the stylus. Absolute identity is protected without the prints and without disclosing a true identity.

Many retail outlets no longer accept checks because of fear of forgeries. A check confirmation variation of the system of the present invention provides the perfect way to authenticate identification at a point-of-sale terminal. The customer registers with the Biometric stylus of the present invention when opening his checking account. When writing a check, the bank is identified and approves the transaction. The system also ensures against overdrafts. Signature verification for checks is an added benefit for point-of-sale terminals that provide the system of the present invention. This check authentication program can also replace conventional checks.

The system of the present invention is particularly useful in a closed environment, such as a hotel, casino, theme park, library, university campus, cruise liner, military base, prison, sports complex, that are limited as to geographical area or as to services provided or both. Once enrolled into the cardless transaction system of the present invention, any guest upon registration with the hotel complex has full and complete access to any amenity within the complex, at anytime, without carrying on his person anything other than biometric identification that is inherent in his being. The system of the present invention comprises biometric registration upon entry into the complex, biometric access to a guest room, biometric play of slot machines, biometric play at gaming tables, and biometric purchases on-site within the complex such as restaurants, lounges, boutique shops, and the like.

A guest to register upon registration with the hotel complex confirms his identity upon arrival and check-in. selects an amount to be entered into a credit account, enters biometric identifiers that are to be used on-site during his stay. Thereafter whenever the guest seeks access to his room or access to the credit account, identification is confirmed by matching the biometric identifiers and the guest can participate in amenities offered within the complex. The biometric identifiers are preferably prints of the index finger and thumb and are sensed by means of a stylus . The stylus is preferable a stylus which has a special sensing grip to fit the hand and enable a good reading of the thumb and index finger. The grip is transparent. The stylus is preferably portable and includes a sensor an optical or imaging print sensor. Once read, the signals of the prints are transmitted for processing. The guest can add value to his account at terminals throughout the casino.

The cardless transaction system of the present invention also enables room access to a guest suite when the guest grasps a door handle and rotates the handle, identification being confirmed once the door handle is grasped. Most hotel rooms have a latch-type door for room access. When the guest wants access to his room, he grasps the latch handle with his thumb in a preset location, generally the top of the cylinder attaching the latch portion to the door. He applies pressure to the latch portion and the thumb print is read by an optical sensor. The computer seeks a match the thumb print of the person who has registered access to the room. If identification is confirmed, room access is enabled.

The system enables a player to engage any slot machine on the premises purely by biometric means. A lever-type slot match operates similar to the latch-type hotel door described above. The player grasps the handle and pulls it forward, the thumb being placed on a preset location on the lever. If the slot machine is of the push button variety, the player requests play at the machine by pressing the push button. An optical sensor reads the print and seeks a match with all registered prints in the system. Once identification has been confirmed, and the available credit balance in the player^'s credit account is sufficient to cover the play, play is enabled. The biometric identifier ensures that the player making the wager is the player to whom access to the credit account is enabled. The biometric identifier prevents any unauthorized The playing value saved within the computer system is made available to the plaver once identification has been confirmed. If the player wins, the credit balance is increased and if the player loses the credit balance is decreased.

The system enables a player to participate in any table game on the premises, either while at the table or from a remote location. While the principles of the present invention are applicable to all games played within a casino (such as roulette, craps, baccarat), reference in this specification is made primarily to blackjack for purposes of illustration only. The player requests access to his credit account by pressing the push buttons on the player station. An optical sensor reads the print and seeks a match with all registered prints in the system. Once identification has been confirmed, and the available credit balance in the player^'s credit account is sufficient to cover the play, play is enabled. If the player wins, the credit balance is increased and if the player loses the credit balance is decreased. Identification is confirmed prior to each hand by biometric means. FIGURES 18A and 18B disclose a simplified logic diagram for enabling craps play in a biometric manner.

The system enables a guest to make any on-site purchase, at a restaurant, lounge, boutique shop, or the like and access the credit balance registered with the complex. The guest grasps a biometric stylus similar to the implement used at registration to enter the print of the index finger and thumb. An optical sensor reads the thumb and index-finger print from the implement and seeks a match with all registered prints in the system. Once identification has been confirmed, and the available credit balance in the guest^'s credit account is sufficient to cover the purchase, the purchase is made and the credit balance is decreased by the amount of the purchase..

The system is also applicable to resort hotel complexes that do not include slot machines, tables gaming, and other type of gambling activity. Similarly, the principles of the present invention are also applicable to standalone casinos that do not have guest rooms. Registration can occur for a standalone casino either off-site with pre-authorized third parties or with the casino.

For a more complete understanding of the identification confirmation system of the present invention, reference is made to the following detailed description and accompanying drawings in which the presently preferred embodiments of the invention are shown by way of example. As the invention may be embodied in many forms without departing from spirit of essential characteristics thereof, it is expressly understood that the drawings are for purposes of illustration and description only, and are not intended as a definition of the limits of the invention. Throughout the description, like reference numbers refer to the same component throughout the several views.

BRIEF DESCRIPTION OF THE DRAWINGS

FIGURE 1 discloses a preferred embodiment of a functional block diagram of the identification confirmation system of the present invention:

FIGURE 2A discloses a writing stylus with fingerprint sensors for use in the system of the present invention with a built-in grip;

FIGURE 2B discloses a section of the writing stylus shown in FIGURE 2A taken along 2A- 2A;

FIGURE 3A discloses a preferred embodiment of the writing stylus with grip for use in the system of the present invention with a built-in grip;

FIGURE 3B discloses the print images obtained from the print imaging sensors in the writing stylus of FIGURE 3 A;

FIGURE 4A discloses an assembly view of a conventional ball-point stylus with a grip in combination with a digital surface for use in the identification confirmation system of the present invention;

FIGURES 4B, 4C, and 4D disclose various grip configurations which provide alignment of the print sensors with the index finger and thumb;

FIGURES 5A, 5B. 5C, 5D. and 5E disclose various grip configurations that are compatible with conventional styluses and pencils, the grip including a cord connection to the writing surface, and sensors being incorporated into the grip;

FIGURES 6A and 6B disclose a simplified logic diagram of one embodiment of the identification verification system of the present invention for registration;

FIGURES 7A and 7B disclose a simplified logic diagram of one embodiment of the identification verification system of the present invention when used in a transaction:

FIGURES 8 discloses a simplified logic diagram for conversion of a credit card to a cardless commercial transaction svstem for use with the identification verification svstem of the present invention;

FIGURES 9 discloses a payment selector used by a customer to select which account the transaction is to be paid from in another variation of the identification confirmation system of the present invention;

FIGURES 10 discloses a keypad for use with a digitizing surface to enable data entry such as a primary identifier for use with the identification confirmation system of the present invention;

FIGURE 11 A is a functional block diagram disclosing a block diagram configuration of the system of the present invention for use in a closed environment (a hotel-casino) replacing conventional house cards and room keys;

FIGURE 1 IB is a functional block diagram disclosing a block diagram configuration of the system of the present invention for use in another closed environment (a stand-alone casino) replacing conventional house cards and room keys;

FIGURE 11C is a functional block diagram disclosing a block diagram configuration of the system of the present invention for use in yet another closed environment (a hotel-resort) replacing conventional house cards and room keys;

FIGURE 12A is a functional block diagram disclosing a block diagram configuration of the primary components for the system of the present invention for use in the hotel-casino of FIGURE 11A - biometric registration, biometric room access, biometric gaming, and biometric on-site purchases;

FIGURE 12B is a functional block diagram disclosing a block diagram configuration of the system of the present invention for use in a stand-alone casino of FIGURE 11B- biometric registration, biometric casino gaming, and biometric on-site purchases;

FIGURE 12C is a functional block diagram disclosing a block diagram configuration of the primary components for the system of the present invention for use in a hotel-resort of FIGURER 11C - biometric registration, biometric room access, and biometric on-site purchases: FIGURE 13A through 13D disclose one embodiment of a simplified a schematic flowchart for a logic sequence for a roulette game showing the gaming system from initial clearance for a player to final withdrawal of the player from the game for use with the systems of 1 1A and

11B;

FIGURE 14 discloses a keypad for playing roulette using the system of FIGURES 1 1A and

11B;

FIGURE 15 discloses a door latch for use in hotels and motels that adapts a door latch with a print sensor for the thumb as placed on the latch handle, identification being verified as the door is grasped for purposes of entry use with the systems of 1 1A. 1 IB. and 11C:

FIGURE 16 discloses a gas pump equipped with print sensors for the thumb and fingers for use in a commercial transaction where the customer need not face the cashier to pay for the gasoline, identification being made as the tank is being filled;

FIGURE 17A is a schematic representation of a first preferred embodiment of an optoelectronic system for enabling a fingerprint to be read for use in the biometric management system of the present invention;

FIGURE 17B is a schematic representation of a second preferred embodiment of an optoelectronic system for enabling a fingerprint to be read for use in the biometric management system of the present invention;

FIGURES 18A and 18B disclose one embodiment of a simplified schematic flowchart for a logic sequence for a craps game showing the gaming system from initial clearance for a player to final withdrawal of the player from the game;

FIGURE 19A discloses a simplified logic diagram enabling guest-room entry for the biometric latch or door knob for the biometric management system of the present invention:

FIGURE 19B is a preferred embodiment of a functional block diagram of a guest room key security system for use with system shown in FIGURE 11C: and

FIGURE 20 discloses another preferred embodiment of a process flow path for identification verification using the biometric identification system of the present invention. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

Referring now to the drawings, in the broadest terms the preferred embodiment of the identification confirmation system of the present invention as shown in FIGURE 1 comprises a stylus 2 with fingerprint sensors disposed in a grip 4. a digitizing inscription pad 5. a keypad enabling data entry 6, a digital display unit 8, and a processing unit 7.

The stylus 2 includes sensors that capture biometric properties of the signer. The processor 7 processes the captured information to determine whether to allow access to an account, or other entry or privilege once identification has been confirmed. In one preferred embodiment, the system includes means to enable the signer to enter a primary identifier, the identifier being a series of letters, digits, a spoken word converted to text (speech recognition), or the like. The primary identifier is the signer^'s printed name, the signer^'s birthday (and year), zip code, mother^'s maiden name, or PIN or password.

The biometric stylus 2 of the identification confirmation system of the present invention has print imaging sensors in the grip 4 to sense the index fingerprint and thumb print, in addition to other biometric sensors including but not limited to the following: pressure sensors (point and grip); accelerometers; gyroscopes; position of index finger relative to point: position of thumb relative index finger. FIGURE 20 discloses a simplified logic diagram where multiple biometric sensors are used to determine account confirmation.

The biometric stylus 2 of the identification confirmation system of the present invention has print sensors positioned within the unique grip 4 (see FIGURES 2A and 2B). Electronic images of the index finger and thumb are extracted during use. Thereafter, the customer uses a similar stylus to submit a set of prints for comparison with the set of prints of the authorized user - the prints either match or don't match. The use of two prints makes a mistake highly unlikely. The stylus 2 thwarts forgers since even if the signature is the same the prints are not (the content of the writing is unimportant). The stylus 2 is provided by banks, POS terminals, and government agencies worldwide. The principles of the biometric stylus 2 are combined with other biometrics housed within the stylus 2 to provide near perfect confirmation. Digital systems evaluate the fingerprint by comparing the similarity, number, and unit relationship of the points of distinction.

FIGURES 6A and 6B disclose a simplified logic diagram for registration with the identification confirmation system of the present invention. The customer initially registers with a bank or point-of-sale terminal by signing his name with a special identical stylus 2 and exchanging legal tender to open the account. The account can be a debit account, a savings account, a checking account, or even a credit account. Much more information is needed if the customer seeks credit. Later when the customer wants to access the account to pay for goods or services, he signs his name with an identical stylus 2. Whenever the customer wants to access the credit account at a point-of-sale transaction, an identical stylus 2 is used, the customer signs his name, and the computer searches through the appropriate files for purposes of comparison (see FIGURES 7A and 7B).

In still another preferred embodiment of the identification confirmation system of the present invention additional biometric sensors are periodically added to the stylus 2 to provide the financial institution with all information that is necessary. So long as the additional sensors do not affect the weight or balance of the stylus 2 so that fingerprint and signature biometrics are altered, no harm is done.

When registration occurs at someplace other than a financial institution, such at a point of sale terminal, the customer pays legal tender to the merchant (a pre-paid or stored value type of account) who in exchange opens an account for the customer. The financial institution is the one affiliated with the merchant, thereby enabling the customer to open an account without ever having any bank affiliation. Such an account can be one where the customer opts not to use fingerprints and selects a pseudonym for purposes of privacy as hereinafter described.

The biometric identifiers are preferably prints of the index finger and thumb and are sensed by means of a stylus 2. The stylus 2 is preferable a stylus 2 which has a special sensing grip 4 to fit the hand and enable a good reading of the thumb and index finger. The grip 4 is transparent. The stylus 2 is preferably portable and includes a sensor an optical or print imaging sensor. Once read, the images of the prints are captured for further processing. In one preferred embodiment, the biometric stylus 2 includes temperature sensors for purposes of activation. The sensors are well known in the art and are similar to the heat sensors found in elevators, the heat from the hand engaging the system.

In another embodiment, the point of the stylus 2 is a conventional fountain pen 2 that ensures that the orientation of the stylus 2 is aligned with the print sensors disposed within the stylus 2. Preferably, a print sensor is disposed on the top surface of the stylus 2 and two additional sensors are disposed on the adjacent side surfaces of the stylus 2. This ensures repeatability of print images sensed..

For a right-handed person, the index finger is aligned with the point and the thumb is positioned on the stylus surface abutting the left-side of the stylus top surface. For a left handed person, the index finger is aligned with the point and the thumb is positioned on the stylus 2 surface abutting the right-side of the stylus top surface. By capturing and comparing the index finger and thumb print of the applicant with the reference finger and thumb print, the likelihood of an error becomes highly unlikely. In the event that a biometric stylus 2 or grip 4 is not available, manual backup enables conventional identity confirmation. Accordingly, sensors are positioned within the stylus 2 to read each of these prints.

The stylus 2 has a special sensing grip 4 to fit the hand and enable a good reading of the prints of the index finger and the thumb. The cross-section of the stylus 2 is generally rectangular with rounded corners, and the print surfaces for the thumb and index finger are slightly recessed and concave. FIGURES 5A. 5B. 5C. 5D. and 5E disclose various preferred embodiments of grip configurations that are compatible with conventional styluses and pencils, the grip 4 including a cord connection to the writing surface, and sensors being incorporated into the grip 4. FIGURE 5E shows a teardrop configuration with the seam pointing upward. The applicant points the seam upward and places his index finger on one side of the seam and his thumb on the other side of the seam. This embodiment assures that only two sensors are needed whether the applicant is right or left handed. Also, the combination concave-convex shape enables a larger portion of the two prints to be sensed by the print imaging sensors. FIGURES 3A and 3B disclose a U-shaped grip 4 and the images captured therefrom with the sensors.

In one variation, the biometric stylus 2 is attached to a surface or counter by means of a plastic coated hollow tube, containing fiber optic cable therewithin. It is through the fiber optic cable that the print images are transmitted to the processor disposed within the surface or counter. The sensors are disposed within the stylus 2. In another variation, the biometric stylus 2 is portable. While the sensors are also disposed within the stylus 2. the signals of the prints are transmitted to the processor for conversion and storage. The prints of the thumb and index finger are preserved in the systems processor for as references for subsequent comparisons. The goods and service providers have a similar stylus 2 which is used by the guest to confirm identification and access the credit account.

In another embodiment a grip 4 is provided that is compatible with conventional styluses and pencils, the print imaging sensors being positioned within the grip 4. The grip 4 is symmetrical and preferably has a cubical shape with concave sidewalls. A power cord is affixed to the grip 4 to provide power to the sensors and also to prevent theft. If the stylus 2 wears out or breaks down, it can be readily replaced with another conventional stylus, at a modest cost. Also, by having standard grip sizes, any problem with using biometric styluses of differing sizes which might change some of the properties of the biometrics are eliminated. The grip configurations are designed to provide as good a reading as possible of as much of the index finger and thumb print as possible. Certain preferred embodiments include concave cubes (see FIGURE 4C), an enlarged cylindrical chamber section (see attached drawing). The grip 4 is preferably transparent and is designed to be self-aligning, that is, the customer must grasp the grip where the sensors are located to use the stylus. FIGURE 4B is self-aligning using a lip that eliminates the need for a third senor to accommodate both left and right-handed people. FIGURE 4D discloses a fountain pen type stylus which is self- aligning because of the orientation of the pen tip.

While the power unit of the stylus 2 can be incorporated into the body of the stylus 2. the stylus 2 is preferably not portable, and includes a power cord that is affixed to the tablet counter to prevent theft. The stylus 2 includes a print imaging sensor configuration, as the signals of the prints are transmitted for processing. The fiber optic cable transmits print images to a processor. The processor is in the surface/counter. The stylus 2 includes a sensor configuration.

For transactions involving a larger pools of potential customers, processing strategies are needed so that the system does not need to continually process millions of files to confirm the identity of the customer.

One main purpose of a credit-type card is to provide a primary identifier for file searching purposes. When the system of the present invention has widespread global acceptance, it will become necessary to distinguish the customer from hundreds of millions of other people. It is not practical to have the driver search such numbers of records for each transaction.

The primary identifier in a conventional credit card transaction is any one of the following: the imprinted name; the imprinted PAN; or the information stored in the magnetic stripe (smart card).

To replace a card, the replacement system also preferably includes at least one primary identifier. Examples of primary identifiers comprise birthday (6 digit code), zip code. PIN. or printed name. There is a preference for numerical data because of language and translation problems, since Arabic numbering is essentially the global standard.

Certain basic strategies are needed. Since the fingerprints enable determination of whether the customer is right or left handed, records of people that don't match the hand of the customer are discarded immediately during processing. In one preferred embodiment, the signature is the first biometπc processed (when fingerprints are not used). Writing styles that are dissimilar enable almost all registered files to be rejected. The print of the index finger and thumb are the next biometrics used. If either or both cannot be read, the customer is so advised and the transaction is rejected. If the prints are of good quality, each is checked as against the remaining records in the pool of registered records. The prints of each transaction are preserved and used to develop an improved composite of the customer^'s prints for subsequent transactions.

In one preferred embodiment, a numerical is used (see FIGURE 10) to streamline the confirmation process. The customer enters a zip code or perhaps a PIN which is checked prior to the signature. The zip code is preferred in instances where the clientele is national or international, whereas a PIN is preferred for instances where the transaction is regional.

There are rwo basic type of card transaction that the principles of the identification system of the present invention are of particular applicability to:

Credit transactions where the customer needs to identify himself/herself so that the institution can determine credit status for purposes of advancing credit. It is critical that exact identity be made at time of registration so that credit histories can be properly accessed and analyzed; and

Prepaid or stored value type of transactions where the customer has deposited an amount of money for subsequent use.

In one preferred embodiment of the present invention, the exact identity of the customer can be withheld in prepaid or stored-value transactions. In one preferred embodiment of the present invention, the stylus 2 includes an on-off switch. In the off position, the fingerprint sensors are not used, so that the confirmation is done without sensing the fingerprints. In this embodiment, the signature becomes the primary biometric. If the customer signs a pseudonym rather than his regular name, withholding his actual name, the system processes the transactions without knowing the customer^'s actual name or his prints. As long as the pseudonym is used to access the account, anonymity is assured while using the identification system of the present invention.

The same result can be achieved by having two separate styluses, (1 ) a stylus 2 which includes print sensors for transactions where privacy is not the primary concern: and (2) a stylus 2 without print sensors for stored value or prepaid accounts. In yet another preferred embodiment, the print sensors are incorporated in the grip 4. and the grip 4 is removed when the fingerprints are not to be used. The only thing that is necessary is that the individual be able to access his account, so that the system provides near perfect repeatability. Of course the customer will need to remember the alias used to access the account. This is particularly attractive feature to those people with concerns about mdividual privacy, s ce they may participate m blind transactions while using the stylus 2. The customers can obtain pnnt-outs of monthly statements by going to a special terminal and verifying his identification with a biometric stylus 2 and thereafter requesting such information.

Transactions where the pool of potential customers is under 50,000 people include closed environments like resorts, hotels, colleges, dormitories, theme parks, prisons, cruise liners, and the like. For this volume of regisrrants. the primary identifier is not needed, but if used, does improve transaction time and system efficiency somewhat.

The identification confirmation system of the present mvention enables a credit card holder to convert the account to use with the biometπc stylus 2 (see FIGURES 8 which discloses a simplified logic diagram). The conversion process enables the cardholder to conduct transactions with the stylus 2 or by presenting the card. Upon signing with the stylus 2. the dπver accesses the card record for the cardholder and creates a duplicate record in the verification system of the present invenϋon. Thereafter, the cardholder transfers legal tender from his card credit balance to the new account. If all of the available balance is transferred over, the credit card is destroyed. FIGURES 9 discloses a payment selector used by a customer to select which account the transaction is to be paid from in another vaπation of the identification confirmation system of the present invention.

A credit cardholder can also set up a new account at a point-of-sale terminal by use of his card. The cardholder swipes his card through a cardreader and signs and prints his name using the biometπc stylus 2. The biometrics are captured and the cardholder advises the credit card bank of the amount to be transferred to the new account. Account information is exchanged and the card is no longer needed.

A vaπety of digitizing lnscnption pads are known in the art U.S. Patent 5,652,412 (Lazzouni) discloses an apparatus for reading and storing coordmate informauon representative of the instantaneous position of a stylus on a writing surface. The system provides a writing paper havmg a prerecorded pattern of pixels, each pixel containing encoded location information which identifies an absolute and unique coordmate location on the paper. The system enables the simultaneously recording of written information on encoded paper and for recordmg the written information in a memory Other digitizing lnscnption pads can be found in U.S. Patent No 5.051.736 (Bennett et al.), U S Patent No 5.477.012** (Sekendur): and U.S Patent No 4.688.933 (Lapeyre) Also. U S Patent No 5,263.742 (Koch) discloses a fingerprinting system where the print is developed by making a copy on a sensitized surface by back reflecting radiant energy through an adhesive where the print is imaged. Similarly, U.S. Patent No. 5,709,746 (Ballard) discloses a self-contained fingerprint kit.

While the biometric stylus 2. signature, and other biometrics that can be captured by the combination stylus 2 and digitizing inscription pad are sufficient to distinguish the customer from hundreds of millions of others, an efficient search strategy is needed.

While there has been considerable development of technology of improved sensing systems for signatures, the signature is not and probably never will be the biometric of choice since handwriting and signatures change with time and every with each writing such that a match with perfect confidence is not possible. However, the signature is needed for legal purposes, so that it will always be needed to include some sort of signature verification into any identification system. The signatures of each transaction are preserved and used to develop an improved composite of die customer's signature for subsequent transactions.

The biometrics needed are all provided by the stylus 2. The primary biometric is the print of the index finger, and the thumb print being the other primary biometric. Some examples of secondary biometrics comprise the signature, stylus point pressure, stylus grip pressure, accelerometers, gyroscopes, position of index finger, position of thumb relative to index finger.

Also, a timer is extremely useful in measuring biometrics associated with signature. The timer is useful in determining acceleration and deceleration, the time needed to sign the name, the time spacing that the stylus 2 is lifted from the digital surface, and first name time, middle initial time, and last name time.

Alphanumeric data for the primary identifier can be provided by (1) a digitizing inscription pad, (2) a mouse and CRT, (3) a touch sensitive CRT, (4) voice and speech recognition, and (5) a keypad embedded in the writing surface.

In applications where higher populations are involved, one preferred embodiment includes more than one primary identifier in the event that approval is denied, that the another search can be initiated for backup purposes.

Banks benefit in that credit card fraud is eliminated. The Identification confirmation system of the present invention system is virtually impregnable to criminals. The bank controls the entire transaction, since they capture and process as many biometrics as necessary before deciding whether or not to approve. Merchants and customers also benefit since consumer fraud costs are often passed onto them. Fingerprints are recognized all over the world as positive proof of identity and are the key to the system. Each finger contains up to 100 different points of distinction which never change with time. Merchants benefit in that the transaction time is minimized. The identification confirmation system of the present invention system minimizes the time between when the customer signs his name and when the transaction is approved. The system automatically captures the fingerprint data when the customer signs his name and processing begins immediately. Any transaction that does not involve cash requires a customer signature anyway - his obligation to pay. Customers also benefit from improved transaction efficiency by not having to wait in slow-moving lines. Customers benefit in that all cards are eliminated. Cards are easily lost or stolen, signatures are easily forged and PIN's are readily determined by criminals. While cards are easier to carry than money, they are almost as negotiable as money to sophisticated criminals. The identification confirmation system of the present invention system provides maximum security and safety for the customer by eliminating the need to carry all credit cards, debit cards, ATM cards, stored value cards, and pre-paid cards in a wallet or purse.

As shown in FIGURE 2A, the identification confirmation system of the present invention uses a biometric stylus 2 that has print imaging sensors positioned within the unique grip 4. Electronic images of the index finger and thumb are extracted during user registration. Thereafter, an applicant uses a similar stylus 2 to submit a set of prints for comparison with the set of prints of the authorized user - the prints either match or don't match. The use of two prints makes a mistake highly unlikely. The stylus 2 will thwart forgers since the content of the writing is unimportant. The stylus 2 is provided by banks. POS terminals, and government agencies worldwide.

In one preferred embodiment, the principles of the biometric stylus 2 can be combined with signature verification technology to identify the applicant and the writing content. Also, since prints of the index finger and thumb of the writing hand are the most common biometrics, once captured the prints can be used for comparing other types of touch contact (e.g. - a keypad). In another preferred embodiment, a digitizing inscription pad is used, and the position of the stylus 2 relative to the surface enables determination of the written text. An optical sensor in the writing surface reads the signature or the writing to be used in combination with the prints. Alternatively, the system includes a keypad in the writing surface for the customer to enter a PIN instead of the optical sensor or in addition to the optical sensor. There are several types of pπnt sensors that are preferred for the stylus 2 the following bemg listed with the preferred first

Vendicom. Inc uses a CMOS chip These plates are covered with a thin layer of dielectric When a finger is placed on top of the chip, each sensor acts as die bottom plate of a capacitor, with the surface of the finger acting as the top plate The endicom chip as small as a postage stamp — can be easily embedded to laptop computers and keyboards Accompanying circuitry measures the capacitance of each of these sensors Fingertip ' valleys" are further from the chip, and show as a lower capacitance Fingertip "πdges vield a higher capacitance The chip s dielectric technology enables people to touch the sensi e. silicon chip without destroying it The dielectπc is chemically and mechanically strong enough to allow repeated contact with people's fingers, yet electronically sensitive enough to capture the prints Other suppliers of CMOS fingerprint sensors are Siemens, and Hams

Identicator Technology Inc. uses Identicator's DFR-200 reader technology and its software algoπthm technologies A matchbox-sized fingerprint reader enables full feature extraction and match in less than one second Instead of entering an ID and password to get to a corporate network, users simply put their finger atop the glass lens of a tiny reader affixed to the personal computer The device photocopies the print and compares it to a database of thousands of other prints in well under a second The Identicator pπnt sensor enables secure user authentication on PC's

TouchSafe Personal from Identπx is a state-of-the-art fingerprint venfication reader. The design works with portables, desktops or servers, and assists with finger placement TouchSafe Personal uses an internal 32-bit RISC processor, compact optics and encrypted seπal communications The optional smart card reader can store the fingerprint template and other confidential data The Identix TouchPπnt 600 Live-Scan Workstation is a fingerprint system that produces forensic-quality tenpπnt records by electronicalh scanning and captuπng rolled fingerpπnts

Registration m the system of the present mvention is similar to opening a new bank account An application provides the bank with basic information - name, address, phone number, and signature The

difference is that a special stylus 2 is used that enables the bank to capture certain data while the applicant signs his name. These biometrics include prints of the index finger and thumb, and point and grip pressure.

The account can be accessed at any point-of-sale terminal. The person signs and prints his name using a biometric stylus 2 that's identical to the stylus 2 used during registration. The biometrics are again captured and compared to the biometrics of all registrants in search of a match. The bank then confirms that there are sufficient funds in the account, deducts the amount from the account, and approves the transaction. That's all there is to it!

A credit cardholder can also set up a new account at a point-of-sale terminal by use of his card. The cardholder swipes his card through a cardreader and signs and prints his name using the biometric stylus 2 . The biometrics are captured and the cardholder advises the credit card bank of the amount to be transferred to the new account. Account information is exchanged and the card is no longer needed.

Automated systems evaluate the fingerprint features by showing the coincidence of the minutiae features, taking into consideration the similarity, number, and unit relationship of the characteristics to each other. Searching and matching of fingerprints is accomplished by assigning each minutiae point a position on an x y coordinate, a direction of flow, and relationship to other minutiae. If a person has to use a stylus 2 anyway to verify a commercial transaction, why not use sensors in the stylus 2 and writing surface to confirm identification (forget about the plastic cards).

In still another preferred embodiment of the identification confirmation system of the present invention, other sensors are added to the stylus 2, as necessary, to tighten security and reduce fraud - including a pressure sensor to measure point pressure; another pressure sensor to measure grip pressure; an accelerometer to the stylus point to measure stroke speed; a gyroscope positioned at the top end of the stylus 2 to measure the angle of the stylus 2; a heat sensor in the stylus grip 4 to measure position of the index finger relative to the point: and a position sensor in the stylus grip 4 to measure the position of the thumb relative to the index finger. Additional sensors include measuring the speed of the signature, the customers finger temperature, and so on. While all of these biometric identifiers are subject to minor variations, the bank checks as many as needed until it is satisfied that the person seeking entry is authorized to access the account.

In a perfect system, the person who is entitled to entry will always be enabled entry, and all others will always be kept out. Hence, in addition to primary identifiers and biometrics ( rimary and secondary) other demographic information is analyzed when the decision of identity is in doubt to assure that the system of the present invention operates in a near- perfect manner. Such demographic information includes the location of the transaction request relative to the primary residence of the registrant, the frequency (if ever) that the registrant has ever engaged is such transactions, and whether or not the registrant has made other transaction during the past 24-hour period and where such transactions are located.

In yet another embodiment a grip 4 is provided that is compatible with conventional styluses and pencils, the print imaging sensors being positioned within the grip 4. The grip 4 is symmetrical and preferably has a cubical shape with concave sidewalls. A power cord is affixed to the grip 4 to provide power to the sensors and also to prevent theft. If the stylus 2 wears out or breaks down, it can be readily replaced with another conventional stylus, at a modest cost. Also, by having standard grip sizes, any problem with using biometric styluses of differing sizes which might change some of the properties of the biometrics are eliminated.

Some primary applications for the system of the present invention include identification for (I) Drivers' license registration and verification; (2) Voter registration and confirmation; (3) Law enforcement; (4) Credit card verification; (5) All banking transactions; and (6) College and high school students for applying for financial aid and to confirm test-taker identification.

In still another embodiment of the system of the present invention, the biometric stylus 2 is combined with one or more primary identifiers to authenticate identification to replace credit, debit cards and the like. The primary identifiers include phone number, name, area code or zip code. The system performs the initial search based upon the primary identifiers) to reduce the size of the universe. Then identity is either confirmed or denied based upon the prints. In another preferred embodiment, additional biometric sensors are used in addition to the fingerprints.

To better illustrate how the principles of the present invention can be used in closed environments to replace single purpose cards, house cards, debit cards and the like, attention is now drawn to FIGURES 11A, 1 IB, and 11C. which illustrate various closed environments (hotel-casino, a stand-alone casino, and a hotel-resort, respectively. PCT Application 97/05736 (Black and Dykman) discloses a system whereby the casino is able to acquire all information relative to live games in the casino (such as blackjack, roulette, and craps) by use of scanners, house cards, and interactive monitors. The casino is able to ascertain the identity of each player, how much each player is wagering, each player^'s gaming decisions, and the value of the gaming materials. See for example U.S. Patent 5.326.104: U.S. Patent 5,340,119; U.S. Patent 5,566,327 (Sehr). Similarly. FIGURES 12A, 12B, and 12C disclose is a functional block diagram disclosing a block diagram configuration of the primary components for the system of the present invention for use in the systems of FIGURES 1 1A. 1 IB. and 1 lC. respectively.

The system of the present invention comprises biometric registration upon entry into the complex, biometric access to a guest room, biometric purchases on-site within the complex such as restaurants, lounges, boutique shops, and the like, and biometric play of slot machines, biometric play at gaming tables.

To participate in the system of the present invention, the guest selects the biometric option during registration, confirms his identity, selects an amount to be entered into a credit account, and enters biometric identifiers that are to be used on-site during his stay. Thereafter whenever the guest seeks access to his room or access to the credit account, identification is confirmed by matching the biometric identifiers and the guest can participate in all amenities offered within the complex.

The biometric identifiers of choice involve prints of the hand, since hands are d e natural way for people to manually engage a device, such as slot machine, a keypad, a door latch, and a stylus 2 . While other hand prints, such as the palm and prints of all the fingers, the hand prints are preferably the print of the thumb and the index finger for reasons hereafter described. During registration, the guests are offered one or more choices of on-site participation during their stay. The process interface of the various

A first option is conventional identification where the guests carry on their persons cash, chips, credit cards, and the like so that they have access to various areas within the complex, such as their guest rooms, table games within the casino, slot machines within the casino, shops, lounges, and restaurants, and entertainment.

A second option is the system described in PCT Application 97/05736 (Black et al.), wherein the guests use a key-card within the hotel complex. The room key is in the general shape of a credit card and enables room access. The opposite edge of the room key has value added thereto during registration, enabling the guest to pay for goods and services while on the premises by use of the card so long as there is sufficient value in the credit account to cover the costs of such goods and services When the value of the credit account becomes depleted, the guest either purchases additional value or uses another form of payment

In order to prevent the use of the card by unauthoπzed persons, the user identifies himself pπor to use While a PIN may be useful for purposes of identification, it is generally agreed that when considerable value is mvolved. better secuπty than what a PIN can provide is needed The identifier of choice for this system is a thumbpπnt that the guest uses to confirm ldentits The pπnt is registered during check-in. is digitized and preserved in a file for the guest The key-card mcludes data that matches the guest with the pπnt The guest requests access to the credit account by inserting the key-card mto a card reader Once a match is made of the thumbpπnts access is enabled

The key-card system is completely compatible with conventional systems as mentioned in the first option The two systems can operate side by side, wherem some guests use the first option while others the second. It is also possible for the same guest to use the key-card system for a while, and switch at any time to the conventional system, and back again to the key-card system

The third option is the process control system of the present mvention which is compatible with conventional play, with the key-card option, both systems together, and even other systems Smce a biometπc is preferably employed m the key-card system, the system of the present mvention eliminates the key-card completely, and simply enable a guest to use biometπcs to access his credit account from anywhere with the complex

The biometπc identifiers of choice are the prints of the thumb and dex finger of the right hand for a πght-handed person, and the thumb and mdex finger of the left hand for a left- handed person The prints are submitted to the system processor by conventional means whereby the guest places his thumb and then his finger onto a transparent button, enabling such prints to be read and digitized for subsequent use Confirmation of thumb and fingerprints can be accomplished at all pomt-of-sale locations within the complex by optical sensors similar to the registration system

Another means for biometπc identification in all pomt-of-sale transactions involves a stylus 2 that enables the hotel to use the guest s signature which is submitted duπng check-in as an identifier Yet another way to register mto the system of the present mvention is by means of a u que biometπc stylus 2 The biometπc identifiers are preferably pπnts of the mdex finger and thumb and are sensed by means of a stylus 2 The stylus 2 is preferable a stylus 2 which has a special sensing gπp 4 to fit the hand and enable a good reading of the thumb and mdex finger The gπp 4 is transparent The stylus 2 is preferably portable and mcludes an optical or pπnt imaging sensor Once read, the signals of the pπnts are transmitted for processmg The guest can add value to his account at terminals throughout the casino

When one uses a stylus 2. it is generally grasped by the mdex finger and thumb for purposes of writing on a flat surface The styius 2 mcludes two adjacent flat surfaces which are specifically configured to optimize the completeness of the pπnts taken If the guest is πght- handed, the surface used to read the mdex finger is to the πght of the second surface If the guest is left handed, the surface for the mdex finger is to the left of the second surface In both instances the second surface is used to read the guest's thumbpπnt Accordingly, sensors are embedded within the stylus 2 to read each of these pnnts

The fingerprint capture and verification system is commercially available from Thomson- CSF Semiconducteurs Specifiques (TCS) and Oxford Micro Devices, Inc TCS' FingerChip™ silicon chip fingerprint sensor and Oxford s A236 video digital signal processor chip are deployed together to create a fully-programmable and optimized fingerprint capture and verification system The FingerChip™ measures only 2 millimeters by seventeen millimeters and uses pπnt imaging to capture images of the guest's fingerprint disposed over the protected surface of the chip. After the finger is swept across the surface, an image of the fingerprint is reconstructed from a sequence of video images and digitized The image data is then processed and reconstructed by an algoπthm that is propπetary to Thomson, after which verification of the fingerpπnt is performed

Another version of the biometπc stylus 2 employs optical sensors and imaging (see FIGURES 17A and I7B) The one or more sensors are preferably compatible with an optoelectronic sensing and processmg system The sensor enables a new version of the biometπc print to be during check-in The sensors are in cooperative engagement with the processor where the pπnts are stored for future use The processor advises the employee at the pomt-of-sale transaction to enable access to the credit account when the new version of the biometπc pπnt matches the reference version of the biometπc pπnt The optoelectronic system includes a laser source to improve system accuracy and uses Fourier transforms, which are generally realized in numerous applications of pattern recognition techniques. The sensors are highly sensitive to the relative angular orientation of the matched filter and the biometric print.

The handprint area on the surface of the biometric stylus 2 enables the reading of the biometric prints is transparent providing a means for angular orientation in real time and response in real time. The thumb and index finger are placed against the print areas of the biometric stylus 2.

The light from the laser illuminates the tips of the thumb and index finger, and the light reflected from the thumb and index finger tips pass as an encoded beam through a spherical lens which projects the beam upon a matched filter located at its shadow plane. The matched filter represents the complex spatial Fourier transform of the image of a reference thumbprint and index-finger print, having been produced with coherent light on any suitable recording medium such as photographic, thermoplastic or photothermoplastic media.

For subsequent matching, the person rotates the thumb or index finger to align the Fourier- transform of the introduced thumb with the stored holographic representation of the authorized thumbprint. As the person rotates the thumb correlation procedures are realized continuously in time until the images are angularly matched and a correlation signal is present.

The Fourier-spectrum comparison provides invariance to in-plane displacements of the introduced image and invariance to in-plane scale differences. The procedure automatically provides the formation of the correlation signal inside the wavefront. the procedure being absolutely real-time, as a result of the implementation of the two-dimensional spatial comparison.

A photo-sensitive element is located in the shadow plane of the matched filter. The output command signal of the photo-sensitive element is cooperatively engaged to the security access member, such as a release member of a guest room or a trigger member of a slot that engages the rotating drums of the slot machine causing them to rotate. The security access system of the present mvention is compatible with any mechanical, electronic, or pneumatic lock control which operates in response to a command signal from a photoelectronic element.

Optoelectronic locking systems utilizing biometric identifiers are well known in the art. U.S. Patent 5.138.468 (Barbenell) discloses a keyless holographic lock, and U.S. Patent 4,876,725 (Tomko) discloses an optical fingerprint verification system.

The stylus 2 has a special sensing grip 4 to fit the hand and enable a good reading. The cross-section of the stylus 2 is generally rectangular with rounded comers, and the print surfaces for the thumb and index finger are slightly recessed and concave.

In one variation, the biometric stylus 2 is attached to a surface or counter by means of a plastic coated hollow tube, containing fiber optic cable therewithin. It is through the fiber optic cable that the print images are transmitted to the processor disposed within the surface or counter. The sensors are disposed within the stylus 2. In another variation, the biometric stylus 2 is portable. While the sensors are also disposed within the stylus 2, the signals of the prints are transmitted to the processor for conversion and storage. The prints of the thumb and index finger are preserved in the systems processor for as references for subsequent comparisons. The goods and service providers have a similar stylus 2 which is used by the guest to confirm identification and access the credit account.

The biometric stylus 2 also has applications beyond hotel and casino applications. Some of these applications include in any point-of-sale transaction, in the sales of controlled substances (guns, liquor, medicines), on-site in banks to enable account access, driver's iicenses renewals, and to confirm the identity of all test-takers.

Some advantages of a biometric stylus 2 in these other applications include that it is more secure for identification purposes than driver's license or credit cards, and it can be used even if an alias is signed since the print is being compared and not the text of what is written.

Access to a guest suite is enabled by the system of the present invention when the guest grasps a door handle and rotates the handle, identification is confirmed once the door handle is grasped. Most hotel rooms have a latch-type door for room access. When the guest wants access to his room, he grasps the latch handle with his thumb in a preset location, generally the top of the cylinder attaching the latch portion to the door. He applies pressure to the latch portion and the thumb print is read by an optical sensor. The computer seeks a match the thumb print of the person who has registered access to the room. If identification is confirmed, room access is enabled (see FIGURE 15). In a similar manner. FIGURE 16 discloses the biometric prints captured during an application for a gasoline service station card can be used to confirm identity while the customer is filling his tank.

The engagement member is configured to enable a biometric print to be sensed upon a manual contact with the engagement member. The engagement member is repositioned when a manual force is applied in a clockwise direction. The engagement member includes one or more print areas that are transparent, the print areas enabling the optoelectronic sensors to read and analyze the print. The engagement member enables room entry through a door knob or latch, a vehicle door (see 19B).

When a person seeks access into the restricted area, the person applies a manual force to an engagement member. The force can be a push for a push button or digital key, or a rotational twist for a door knob, or door latch. Contact of the person's hand with the engagement member is required.

Whenever an engagement member. like a door knob or latch is opened by the application of even moderate to light manual force, more than one print is needed to secure the member within the hand of the person seeking entry. The thumbprint. the print of the index finger and even some of the other prints are read and preserved for subsequent comparison. The hotel employee assigns a room and enters data into the system assigning the prints of the guests to each guest room.

Subsequently, when room access is requested, the prints are read when the latch or door handle is grasped. One or more sensors is positioned within the engagement member for monitoring and preserving new versions of the biometric prints. The data relative to the biometric prints are sensed and preserved for subsequent use whenever the engagement member is touched.

Initially, the primary print (thumbprint) is scanned to determine if the reading provides goods prints for purposes of comparing and matching. If the thumbprint is blurred, one or more secondary prints (index finger, other fingers, palm) are examined. No search is initiated until and unless a good print is provided for purposes of comparison. The processor compares the new version of the biometric print as against prints of all those who are authorized to enter the particular room in search of a match. Entry into the guest room is enabled only after the biometric print of the person seeking entry matches the biometric print of a person having authorized access.

For applications involving a small number of authorized users (a guest room or a telephone or computer terminal within the guest room), if the person requesting access provides a good primary print, only the one print is compared and if there is no match there is no need to read other prints. If the results are inconclusive, one or more secondary prints are compared for a possible match.

The system of the present invention is particularly well-suited for use with a conventional door latch mechanism, and FIGURE 1 discloses a first embodiment of the system of the present invention for use with a door latch. Such latches are common in homes, apartments, business offices, and hotels. To engage the latch, the thumb is positioned in a circular recess on the latch handle, the recess being secured to the latch mount, the latch mount being normal to the latch handle. The primary prints are the thumb and the index finger. The hand engagement mechanism does not turn unless and until identification has been confirmed.

The contour portion of the engagement member is recessed and indented to enable a three- dimensional scan of each print. If the button is flat and little force is needed for engagement, a full reading of enough of the print does not enable confirmation of identification with sufficient confidence to enable access.

FIGURE 15 discloses a second preferred embodiment of the engagement member for the system of the present invention for use with a door knob. The knob is modified to include a plurality of contours for the thumb and fingers when the knob is grasped. The door knob is specially contoured and designed to match the contours of the hand when the door knob is grasped, the position of the thumb, and fingers are predetermined as the digits fit into the individual contours. The resident may choose from a variety of shapes and sizes.

The engagement member may be locked into place until guest identification is confirmed. The engagement member may also be repositionable prior to identification, but not engaged with the release member. Once identification is confirmed and the person is identified as an authorized entrant, access is enabled. The latter approach provides the system more time to confirm player identification. FIGURE 19A a simplified logic diagram for biometric room entry.

Also, push-pull door knobs (not shown) are becoming increasingly common, particularly with older people who have difficulty completing a secure grip 4 and applying sufficient force to enable entry. For all practical purposes the principles of the present invention are fully applicable to these door knobs and the sensors are positioned within the knob to correspond with the appropriate hand force or motion used to engage such doors, the pulling or pushing motion.

In a similar manner, the system of the present invention is configured to enable a player to engage any slot machine on the premises purely by biometric means. A lever-type slot match operates similar to the latch-type hotel door described above. The player grasps the handle and pulls it forward, the thumb being placed on a preset location on the lever. An optical sensor reads the print and seeks a match with all registered prints in the system. Once identification has been confirmed, and the available account balance is sufficient to cover the play, the rollers in the slot machine are engages and play is enabled. The biometric identifier ensures that the player making the wager is the player to whom access to the credit account is enabled. The biometric identifier prevents any unauthorized. If the player wins, the credit balance is increased and if the player loses the credit balance is decreased. If the slot machine is of the push button variety, the player requests play at the machine by pressing the push button.

Also, the system enables a player to participate in any table game on the premises, either while at the table or from a remote location. While the principles of the present invention are applicable to all games played within a casino (such as roulette, craps, baccarat), reference in this specification is made primarily to blackjack for purposes of illustration only. The player requests access to his credit account by pressing the push buttons on the player station. An optical sensor reads the print and seeks a match with all registered prints in the system. Once identification has been confirmed, and the available credit balance in the player^'s credit account is sufficient to cover the play, play is enabled. If the player wins, the credit balance is increased and if the player loses the credit balance is decreased. Identification is confirmed prior to each hand by biometric means. Unless the player changes the wager amoimt after each gaming unit, the same wager is entered for the next gaming unit. However, the player needs to press an "'AGAIN" button before each gaming unit to confirm that the player still physically remains at the player position (see FIGURE 14). FIGURES 13A through 13D disclose a simplified a logic sequence for a roulette game showing the gaming system from initial clearance for a player to final withdrawal of the player from the game for use with the systems of 11A and 1 IB.

The system enables a guest to make any on-site purchase, at a restaurant, lounge, boutique shop, or the like and access the credit balance registered with the complex. The guest grasps a biometπc stylus 2 similar to the implement used at registration to enter the print of the index finger and thumb. An optical sensor reads the thumb and index-finger pπnt from the implement and seeks a match with all registered prints in the system. Once identification has been confirmed, and the available credit balance in the guest's credit account is sufficient to cover the purchase, the purchase is made and the credit balance is decreased by the amount of the purchase. Alternately, the guest submits a finger or thumbprint at the point-of-sale through conventional sensors to confirm identification.

The security access system has numerous applications, entry into any private area; replacement for any PIN: telephone handset and related off-site purchases; and computer keyboard and related off-site purchases. The system can also be incorporated into process control environment where security is required. The security access system enables authorized access to a restricted area and a credit balance and comprises an engagement member, one or more sensors, a processor, and a security access member.

A distinction is made between applications involving the matching of prints of the guest requesting access as against a limited number of authorized entrants (guest room access) and those applications where the prints of the guest requesting access are compared against a large number of guests in the system (slot and table play in a casino). While both instances require a comparison with known authorized entrants, the former comprises a much smaller pool and processing is greatly simplified. In the latter, the central processor needs to process a considerably more data, and search strategies are used to streamline the search.

For example, m applications involving slot machine access, the search compares the pπnts of the player seeking entry with all registered guests, initially, the pπnts of the guest seeking entry are compared with the player who last played this slot machine. Absent a match, the prints are compared with other players playing adjacent machines. Absent a match, the prints are compared with all players in the general area within the last few minutes. Eventually, the pool is expanded until all registered guests have been screened for a match. To improve efficiency, the prints can be sorted by types and styles that are well known in the art. The pool is gradually expanded in logical incremental steps. With each gradual expansion, previously checked prints can be dropped so that they are not rechecked. This area is continually expanded until a match is found or the search has been completed.

The system of the present invention is readily adaptable to off-site purchases and other applications involving the telephone or the keyboard of a computer (not shown). It often becomes necessary to confirm positively the identity of the person on the other end of the telephone. For off-site purchases by phone, it is important to confirm the identify of the person making the purchase. Also, many phones now have caller ID where the person receiving the incoming call can read the caller's phone number before answering the call. If the caller uses the engagement member of the present invention, the person receiving the call can also identify the caller.

For the handle or handset of a telephone, the primary prints are the thumb, the index finger, and the middle finger. In another embodiment, the optical sensors can also be positioned relative to any of the digital keys on the phone and confirm identification. This approach is useful in applications involving a smaller pool of possible users since only one print is read.

The system of the present invention when used in applications involving keypads and computer keyboards includes a modified keyboard with the sensors positioned either relative to an existing key or a special biometric push button having a recess to enable a three- dimensional print (see FIGURE 10). When one or more keys are pressed, the prints of the user are read to confirm that entry is authorized.

The optical sensors can also be positioned relative to any of the digital keys on the keyboard and confirm identification. A smaller pool of users is needed since only one print is read. However, keyboard sensors can be useful in instances where the caller's phone number is read and there are only a limited number of people authorized from that number as with a modem. Also, keyboard sensors can be used in combination with PIN^'s to provide increased security. Preferably, multiple biometric prints are used to confirm identification. Secondary biometrics include not only fingerprints, thumbprints. and palm prints, but also speech and voice recognition, and facial readings (retinal scans, infrared facial readings, feature spacings, and the like). For example, to enter a guest room, a parallel system may include a recorded message asking "Who's there?" The response is recorded through a speaker and voice recognition is used to identify the speaker. Speech recognition can also be used to monitor the content of the response. Also, facial imaging scanners are disposed within the doors to guest rooms and in overhead cameras with mirrors in the casinos for use as secondary biometrics. All unauthorized biometric prints can be preserved for law enforcement purposes to assist in identifying and convicting burglars and thieves.

Throughout this application, various U.S. Patents, Applications, and Provisional Applications are referenced by patent number or title and inventor. The disclosures of these Patents/Applications in their entireties are hereby incorporated by reference into this specification in order to more fully describe the state of the art to which this invention pertains.

It is evident that many alternatives, modifications, and variations of the identification confirmation system of the present invention will be apparent to those skilled in the art in light of the disclosure herein. It is intended that the metes and bounds of the present invention be determined by the appended claims rather than by the language of the above specification, and that all such alternatives, modifications, and variations which form a conjointly cooperative equivalent are intended to be included within the spirit and scope of these claims.

Claims

1. A stylus comprising: means for sensing a first biometric identifier: and means for sensing a second biometric identifier.

2. A stylus comprising: means for sensing print data relative to the index finger; and means for sensing print data relative to the thumb.

3. A stylus comprising: means for sensing fingerprint data: and means for sensing biometric data other than fingerprint data.

4. A stylus that is compatible with both a signature verification system and a cardless commercial transaction system, the implement comprising: means for collecting biometric data for signature verification; and means for collecting biometric data for a cardless commercial transaction.

5. A system comprising: a first device for capturing a biometric/fingerprint: and a second device for capturing a principal identifier.

6. A grip enabling cooperative engagement with a stylus, the grip comprising: means for cooperative engagement with the stylus : and means for sensing biometric data.

7. A grip enabling cooperative engagement with a stylus, the grip having a print imaging sensor.

8. A grip enabling cooperative engagement with a stylus, the grip comprising: means for sensing data relative to a first biometric property: and means for sensing data relative to a second biometric property.

9. A grip enabling cooperative engagement with a stylus, the grip being compatible with a conventional stylus, the grip comprising: a biometric sensor: and a power source.

10. A grip enabling cooperative engagement with a stylus, the grip comprising: means for sensing a fingerprint: and means for orienting the fingerprint sensor with the position of the finger.

11. A method for conducting a cardless transaction (credit/debit/check method) method, the method comprising:

providing a first device for sensing reference biometric data of a first biometric property;

establishing an account in a databank, the account having an approved value, the account including the reference biometric data;

providing a second device for sensing current biometric data, the second device collecting current biometric data of the first biometric property;

capturing current biometric data by use of a second device;

comparing the current biometric data with the reference biometric data; and

enabling access to the account whenever the current biometric data matches the reference biometric data.

12. A method of screening applicants, the method comprising;

providing a first stylus for sensing reference biometric data of a first biometric property;

establishing a databank of the reference biometric data;

providing a second stylus, the second stylus sensing current biometric data of the first biometric property;

capturing biometric data by use of a second stylus comparing the current biomet╧Çc data to the reference biomet╧Çc data

enablmg participation m a government program whenever the current biomet╧Çc data matches the reference biometric data

3 A point-of-sale terminal comp╧Çsmg.

a first system for conductmg commercial transactions, the first system us g a cardlike device for accessmg financial data: and

a cardless svstem for conductmg commercial transactions, the cardless system including means for sensmg a biomet╧Çc data, the cardless system operatmg m parallel with the first system enabling the completion of a commercial transaction without

card-like device, account access bemg enabled when identity is confirmed by compa╧Çng current biometric data with reference biometric data.

14. A process control system for a closed environment comprising:

a first device for sensmg data relative to a first biomet╧Çc property p╧Çor to entry mto the closed environment, the first device enablmg the capture of reference biometric data relative to the first biomet╧Çc property; and

a second device for sensmg data relative to the first biomet╧Çc property upon request for entry mto a secure area, the second device enabling the capture of a current set of biomet╧Çc data relative to the first biomet╧Çc property, the second device bemg disposed proximate to the secure area, entry bemg enabled mto the secure area when identity is confirmed b> compa╧Çng current biometric data with reference biomet╧Çc data.

15 A process control system for a closed environment comp╧Çsmg-

a first device for sensmg data relative to a first biomemc property p╧Çor to entry to the closed environment, the first device enablmg the capture of reference biomemc data relative to the first oiomemc properr, means for establishing an account record, the account record including an account value and the reference biometric data: and

a second device for sensing data relative to the first biometric property upon request for access to the account, the second device enabling the capture of a second set of biometric data relative to the first biometric property, the second device being disposed within the closed environment, account access being enabled when identity is confirmed by comparing current biometric data with reference biometric data.

16. a system for processing commercial transactions comprising:

using a first biometric sensor to capture a reference set of biometric data relative to a plurality of first biometric properties pertaining to the identity of an individual;

establishing a databank of such biometric data for reference purposes;

using a second biometric sensor to capture a current set of biometric data analogous to the first biometric properties;

comparing data pertaining to a first biometric property from the current set of set to data pertaining to the first biometric property to the first biometric property from the reference set of data pertaining to the first biometric property; and

continuing to compare additional biometric properties until the driver is satisfied that the biometric properties match.

17. A method for conducting financial transactions, the method comprising:

capturing reference data regarding a principal identifier and retaining such data in a reference file;

capturing reference data regarding a biometric property and saving the data in the reference file submitting a current principal identifier and current biometric data at a later point in time;

sequencing through the reference files seeking a match between the current principal identifier and the reference principal identifier: and

comparing the current biometric data for the files where the current principal identifier matches the reference principal identifier to determine if the current biometric data matches the reference biometric data.

18. A method for accessing an account to conduct a cardless financial transaction, comprising:

entering data relative to a reference version of a first biometric print, the data being retained for reference purposes;

applying a manual force to the engagement member in a manner to gain access to the account, the engagement member including a sensor for monitoring the first biometric print as the manual force is applied to the engagement member;

sensing a new version of the first biometric print, the new version being sensed as the manual force is being applied to the engagement member;

processing data relative to the new version of the first biometric print as the data of the new version is compared with the data of the reference version of the first biometric print to determine whether access is authorized: and

enabling access to the account only whenever the new version of the first biometric print matches the reference version of the first biometric print.

19. A svs_tem for monitoring activity within a closed environment comprising:

(a) means for registration of selected biometric characteristics during entry into a facility:

(b) means for conducting cardless commercial transactions within the facility by identification based upon matching of the biometric characteristics; and

(c) means for access to secure areas within the facility by identification based upon matching of the biometric characteristics.

20. A svstem for monitoring activity within a closed environment comprising:

(a) means for registration of fingerprint data during entry into a facility;

(b) means for conducting cardless commercial transactions within the facility by identification based upon matching the fingerprint data.

21. A system for monitoring activity within a hotel-casino comprising:

(a) means for registration of selected biometric characteristics during entry into a facility;

(b) means for conducting cardless commercial transactions within the facility by identification based upon matching of the biometric characteristics: and

(d) means for gambling within the hotel-casino without cash, chips, and cards by identification based upon matching of the biometric characteristics.