Patent Abstract:
A system and method for authenticating a user in a secure computer system. A client computer transmits a request for a sign-on page, the secure computer system responds by transmitting a prompt for a first user identifier, and the client computer transmits a request including a first identifier, a second identifier stored in an object stored at the client computer and a plurality of request header attributes. A server module authenticates the first and second user identifiers, and compares the transmitted plurality of request header attributes with request header attributes stored at the computer system and associated with the first and second user identifiers. If the first and second user identifiers are authenticated, and if a predetermined number of transmitted request header attributes match stored request header attributes, the server software module transmits a success message, and the user is allowed to access the secure computer system.

Full Description:
BACKGROUND 
     The disclosure relates to computer systems and, more particularly, to systems and methods for authenticating users in secure computer systems. 
     Computer networks, including the Internet, facilitate the transmission of confidential data between computers at physically and geographically remote locations. An area where such confidential data transmission may occur is electronic commerce and, more particularly, electronic banking. Electronic commerce over computer networks may require that a computer system storing confidential information at one location make that information available to a remote user at another location over an unsecured network. In order to minimize the likelihood of an unauthorized user gaining access to such confidential information, it may be necessary for such computer systems to require a remote computer user to authenticate himself or herself in order to access confidential information. Such authentication procedures may include the use of alpha-numeric serial numbers and passwords. The serial number and password may be provided by the remote user or stored on the computer used by the remote user and transmitted over the network to the computer system maintaining the confidential information. The computer system may then match that serial number and password with stored serial numbers and passwords corresponding to that user in order to gain access to the confidential information pertaining to that user. 
     In the field of electronic banking, the Federal Financial Institutions Examination Counsel (FFIEC) has issued guidelines that regulators expect banks to use when authenticating the identity of bank customers using online products and services. The FFIEC considers single-factor authentication (for example, a user identification number and password) to be inadequate for high-risk transactions, such as those involving access to customer information or the movement of customer funds. Accordingly, banks have developed user authentication methodologies using multiple and different authentication criteria. For example, such criteria could compromise something the user knows (a user identification number and password), something the user has (a token, secure browser cookie, or flash local shared object) and something the user is (voiceprint, fingerprint or facial recognition). However, a disadvantage of such methodologies is that the first criteria may be stored elsewhere and therefore vulnerable to unauthorized access, the second criteria may be subject to misappropriation, and third criteria may require the user to purchase implement costly computer components or peripherals to create and transmit the digitized biometric data. Accordingly, there is a need for a user authentication process and system that may involve multiple factors but does not require additional computer components, such as fingerprint scanners, retinal scanners or voice recognition software. 
     SUMMARY 
     The disclosed system and method may authenticate users in a secure computer system and utilize multiple factors for authentication. In one embodiment, the system and method may be employed to authenticate a user over a computer network. In a more specific aspect, the system and method may authenticate a user to enable the user to gain access to the user&#39;s confidential financial information over an unsecured network such as the Internet. 
     A disclosed method of authenticating a user in a secure computer system may include the steps of transmitting from a client computer of the user to the computer system a request for a sign-on page, transmitting from the computer system to client computer a prompt for a first user identifier, and in response to the prompt, transmitting from the client computer to the computer system a request including the first user identifier, a second user identifier and a plurality of request header attributes. The second user identifier may be stored in an object stored on the client computer and, in one embodiment, also may be stored in a local shared object persisted on the client computer. 
     The computer system may authenticate the first user identifier, the second user identifier, and may compare the transmitted plurality of request header attributes with a plurality of request header attributes stored at the computer system and associated with the first user identifier. If the first and second user identifiers are authenticated, and if the transmitted request header attributes correspond to the stored request header attributes, the computer system may transmit a success message to the client computer to be viewed by the user. Thereafter, the user may gain access to the computer system. 
     In one embodiment, the request header attributes each may be assigned a value, which may be a numeric value. When the request header attributes sent by the client computer are matched to the request header attributes stored at the computer system, the values of the matching request header attributes may be totaled. If that total is at least a predetermined value, the success message may be transmitted from the computer system to the client computer. In one embodiment, if the total of the weighted values of the matching request header attributes equals, for example, at least 80 percent of the total weighted values, the computer system may provide access to the client computer, provided the first and second identifiers also match. 
     However, if a match does not exist, or if the total of the weighted values of the request header attributes do not equal or exceed the predetermined value, an error message may be transmitted from the computer system to the client computer. The user at the client computer may be required to re-enroll in the secure computer system. 
     The re-enrollment may involve re-authenticating the user. The user may provide identifying information personal to the user and provide the first identifier. If that provided information matches, the computer system may prompt the user to register his or her client computer. If the user consents, the computer system may register the client computer. In one embodiment, the client computer may be registered by creating a serial number and saving the serial number and request header information from the user computer storage associated with the user, encrypting the serial number, then creating a browser cookie and saving that cookie on the user computer. The computer system may also save the encrypted serial number in a local shared object on the user computer. If a previous serial number exists on the user computer, that serial number may be expired in the database at the client computer. In addition, the browser cookie that contains the old serial number also may be expired. The old serial number also may be deleted from the local shared object. At this point, the user may be authenticated and the computer system may allow access to information stored on the computer system. 
     The disclosed system for authenticating a user in a secure computer system may include a client computer operable by a user, a server associated with a secure computer system in communication with the client computer having storage, a client software module utilized by the client computer for sending to the server a request for a sign on page, and a server software module utilized by the server for transmitting from the server to the client computer a prompt for a first user identifier. The client software module may, in response to the prompt, transmit from the client computer to the server a request including the first user identifier, a second user identifier stored in an object stored at the client computer and a plurality of request header attributes. The server software module may validate the first and second user identifiers and compare the transmitted plurality of request header attributes with a plurality of request header attributes stored at the server and associated with the first identifier. If the first and second user identifiers are validated by the server software module, and if the transmitted request header attributes correspond to the stored request header attributes, the server software module may allow the user client computer access to the secure computer system. 
     Accordingly, the disclosed method and system for authentication of users in a secure computer system may provide a multilayered authentication process. This multilayered process may utilize computer forensics in the form of request header attributes. The disclosed system and method may effect user authentication over a network in a manner that may be relatively quick to implement, require minimal user input and not require peripheral devices. 
     Other advantages of the disclosed system and method will be apparent from the following description, the accompanying drawings and the appended claims. 
    
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
         FIG. 1  is a schematic diagram of an embodiment of the disclosed computer system; 
         FIG. 2  is a record of user authentication information for a user of the system and method depicted in  FIG. 1 ; 
         FIGS. 3A ,  3 B and  3 C are a flow chart showing a process in which a user enrolls in the computer system shown in  FIG. 1 ; 
         FIG. 4  is a flow chart showing the log in process of the enrollment flow chart shown in  FIG. 3 ; 
         FIG. 5  is a flow chart showing the register process of the enrollment process of  FIG. 3 ; 
         FIG. 6  is a flow chart showing the sign on process of the system shown in  FIG. 1 ; 
         FIGS. 7A and 7B  are a flow chart showing the process to re-authenticate a user of the system shown in  FIG. 1 ; 
         FIG. 8  is a sign on screen of the system shown in  FIG. 1 ; 
         FIG. 9  is a screen of the system of  FIG. 1  that requires a user to enter identifier information; 
         FIG. 10  is a screen of the system of  FIG. 1  inquiring whether a user wishes to register his or her computer with the system of  FIG. 1 ; 
         FIG. 11  is a screen asking a user whether he or she wishes to re-authenticate his or her computer into the system of  FIG. 1 . 
         FIG. 12  is a screen asking a user to enroll in the authentication process shown in  FIG. 3 ; 
         FIG. 13  is a screen providing disclosure information to a user in the authentication process shown in  FIG. 3 ; 
         FIG. 14  is a screen asking a user to select a method of enrolling in the process of  FIG. 3 ; 
         FIG. 15  is a screen asking a user to provide identifier information in the authentication process of  FIG. 3 ; and 
         FIG. 16  is a screen notifying a user that he or she has registered his or her computer in the process shown in  FIG. 5 . 
     
    
    
     DETAILED DESCRIPTION 
     As shown in  FIG. 1 , the system for authentication of users in a secure computer system, generally designated  10 , may include a server  12  positioned behind a firewall  14 . A storage device, such as a database  16 , may be associated with the server  12 . The server may communicate with a plurality of client computers  18 ,  20 ,  22  over a network  24  that may be the Internet. The network  24  may be wireless, or include wireless components. The client computers  18 ,  20 ,  22  may include wireless devices such as cellular telephones, personal digital assistants or other hand-held devices, or portable computers. Each client computer  18 ,  20 ,  22  may include a client software module that may have at least one browser program such as Internet Explorer, Safari, NetScape, America Online and the like. Such browser programs may communicate with a server by sending a request over the network  24  that may include a plurality of request headers. The request headers each may contain information about the computer and the user. 
     For example, the request headers may include the following attributes: an accept header (specifies which Internet media types are acceptable for the response from the web server and assigns preferences to them), an accept-encoding header (specifies which data format transformations, such as compression mechanisms, are acceptable for the response and assigns preferences to them), a referrer header (specifies, for the server&#39;s benefit, the address of the resources (URI) from which the request-URI was obtained), a user-agent header (information about the user-agent (client) originating the request), a character encoding header (returns the name of the character encoding used in the body of the request), a local header (the preferred local that the client will accept content in, based upon the accept-language header), an IP address header (the Internet protocol (IP) address of the client that sent the request) and a remote host header (the fully qualified name of the client that sent the request, or the IP address of the client if the name cannot be determined). 
     Each of the client computers  18 ,  20 ,  22  also may include a display screen  26  and storage  28  for the client software module. Storage may be integral with computers  18 ,  20 ,  22 , may be connected over a network, may be a peripheral, or may be shared among the computers. 
     The server  12  of the system  10  may contain a server software module that may provide three levels of authentication of a user of client computers  18 ,  20 ,  22  without need of providing specialized components or peripheral devices to the client computers. In order to implement the disclosed authentication method, a user may be required to enroll in the secure computer system represented by server  12  and storage  16 . 
     Enrollment Process 
     The following enrollment process will be described with reference to enrollment by a customer of a bank or other financial institution in an online banking and investing service. However, it is to be understood that the disclosed system and method for authentication of users in a secure computer system is not limited to users of an online banking and investment service. In fact, the disclosed system and method for authentication may be used in any number of applications such as, for example, a computer system providing access to insurance policies and records, online purchasing of goods and services, or any online system for accessing confidential information over a network. 
     As shown in  FIGS. 3A ,  3 B and  3 C, the enrollment process may begin with a user, which in reference to  FIGS. 3A-3C  is a bank customer who already has applied for and obtained an ATM (automatic teller machine) card or debit card having a PIN (personal identification number) and card issue number. As shown in block  30 , the enrollment process may begin with a potential user of the online services logging on to a web site where the service is provided. As shown in  FIG. 1 , a user at computer  18 , for example, may access the enrollment program, stored in server  12  over the Internet  24 . In response to the request, as shown in  FIG. 12 , the server  12  may send a page  32  to computer  18 , where it is shown on display  26 . The page  32  may ask the user to have certain information ready to be sent to the server  12 . As shown in  FIG. 3A , the step of generating the page is shown at block  34 , and the display of the page  32  on the computer display  26  is shown at block  36 . If the user clicks the “Continue” button  37  ( FIG. 12 ), the message is received by the server  12  and, as indicated in block  38 , and the server may retrieve and send an appropriate disclosure document page  40  for the user, shown in  FIG. 13  and indicated at block  42  in  FIG. 3A . 
     If the user clicks the “Accept” button  44  on page  40 , that may signal the server  12  ( FIG. 1 ) to generate an enrollment choices page, as indicated at block  46  in  FIG. 3A . As shown in  FIG. 14 , the enrollment choices page  48  may ask the user to choose between two methods of enrollment. In one method, for example, the user may elect to enter information from a checking account with an associated ATM or debit card. In another method, for example, the user may enroll with a different type of bank account—one that may not have an ATM or debit card associated with it. The display of page  48  on the display  26  of computer  18  is shown at block  50  in  FIG. 3A . The user may select which type of enrollment method to pursue and then click the “Continue” button  52 . This selection may be received by the server  12  ( FIG. 1 ), indicated at block  52  in  FIG. 3A . 
     The server  12  may then send page  54 , shown in  FIG. 15 , to the user&#39;s computer  18  ( FIG. 1 ). Page  54  contains a box  56 , where the user may enter his or her Social Security number, box  58 , where the user may enter his or her ATM or debit card number and box  60 , where the user may enter his or her e-mail address. The user may then click the “Continue” button  62 . This step is shown at block  64  in  FIG. 3A . The information may be sent to the server  12 , indicated at block  66 . If all of the boxes have been filled in on page  54 , then, as indicated at decision diamond  68 , the user may be requested to enter his or her PIN and card issue number from his or her ATM card, indicated at block  70 . If one or more of the Social Security, ATM card number or e-mail address fail validation, then as shown in decision diamond  68 , the user may be directed to re-enter the information, as shown in block  64 . 
     The ATM card number, PIN and card issue number may be received by the server  12  ( FIG. 1 ), indicated at block  72 , and validated. At this point, the validation may include determining whether the PIN and card issue numbers contain the appropriate number of and type of alpha-numeric digits. As shown in decision diamond  74  ( FIG. 3B ), upon validation of the Social Security number, ATM card number, e-mail address, PIN and card issue number, the ATM card number, PIN and card issue number may be authenticated, which may include matching them with corresponding numbers in a bank customer database (not shown) accessed by the server  12 , as indicated in block  76 . 
     As indicated in decision diamond  78 , upon successful authentication of the ATM card number, PIN and card issue number, the user may be enrolled into the online banking system  10 , as indicated in block  80 . If authentication is unsuccessful, the user may be directed to an overview page, shown at block  81 . As indicated in decision diamond  82 , if the user is a new user, a new user ID and password may be created. The user is shown a page (not shown) asking the user to provide a user ID and password, indicated at block  84 . The user ID and password may be validated, indicated at block  86 , to determine if the appropriate number of alpha-numeric digits are present. As shown in decision diamond  88 , upon validation of the user ID and password, the server  12  may store the user ID and password in database  16  ( FIG. 1 ), indicated at block  90 . The user then may be asked to log into the system, indicated at block  92 . 
     Referring back to decision diamond  82 , if the user is not a new user, but rather is a returning user, the user may be asked to create a new password, but not a user ID, indicated at block  94 . The password, Social Security number, ATM card number and e-mail address are then validated, indicated at block  96 . As indicated at decision diamond  98 , if the validation is successful, the returning user may be invited to log in, indicated at block  92 . 
     Log In Process 
     The log in process is shown at  FIG. 4 . The user may be requested to enter a user name and password, as indicated in block  100 . As indicated by decision diamond  102 , upon successful validation of the user name and password, the user may then be logged in, in the case where the user is a first-time user. In that situation, the user may be shown a success message, indicated at balloon  104 . The server  12  ( FIG. 1 ) may determine that the user is a first-time user since there are no session cookies or local shared objects to be retrieved from the user computer  18  that contain information, such as encrypted serial numbers, identifying that particular user. 
     As shown in  FIG. 3C , at decision diamond  106 , if no such cookies are found, the user may be queried whether he or she wishes to register his or her device. As shown in  FIG. 10 , the server  12  may display page  108  at the user display  26 . The user may indicate a desire to register his or her computer, as by clicking the “Yes” dot  110  and giving his or her computer  18  an alpha-numeric name in box  112 . The user then clicks the “Submit” button  114  and sends the information to the server  12  ( FIG. 1 ). The display of this page  108  is indicated in the flow chart of  FIG. 3C  at block  116 . When the page  108  is transmitted to the server  12 , the server may also receive the request header information from the browser of the computer  18  ( FIG. 1 ). A registration process is indicated at block  118  in  FIG. 3C . 
     Registration Process 
     As shown in  FIG. 5 , one embodiment of a registration process begins at decision diamond  120 . If the registration request is not part of a re-authentication process (see  FIG. 7  and accompanying description), the device (e.g., one of computers  18 ,  20 ,  22 ) may be registered, as indicated at decision diamond  122 . First, the server  12  may create a serial number unique to the user, indicated at block  124 , may save the serial number to a database, along with the request header information received from the user computer  18  with the transmission of page  108 , in addition to the device name entered at box  112 , and the server further may create an expire date. All of this information may be saved to database  16 , as indicated at block  126 . The serial number may then be encrypted, indicated at block  128  and, as indicated in block  130 , the encrypted serial number may be persisted in a browser cookie that is created by the server  12  to reside in storage  28  of computer  18 . The browser cookie may have an expire date associated with it, set by the server software module of server  12 . In one embodiment, the serial number has appended to it a date and time stamp and the entire string is encrypted. 
     In one embodiment, the combination of the serial number and date and time stamp is first hashed (e.g., a sha-1 hash) and then encrypted in the browser cookie. Server  12  may also create a local shared object, preferably by utilizing a Flash player such as an Adobe Flash Player plug-in associated with the browser software of the user computer  18 . This local shared object creation is indicated at block  132  in  FIG. 5 . The local shared object may contain the hashed and encrypted serial number, date and time stamp string, as in the browser cookie. A Flash local shared object is not deleted as readily as browser cookies. Further, the Flash player software creates only a single object for each Internet address. 
     As shown at decision diamond  134 , in the event that there is a pre-existing serial number that has expired, it may be unregistered by expiring the old number in the database  16  (indicated at block  136 ), the browser cookie is also expired, as indicated in block  138 , and the old, encrypted serial number is saved to delete later from the Flash local shared object, as indicated at block  140 . However, if there is no old serial number, then, from decision diamond  134  the process returns to  FIG. 3C  and decision diamond  142 , as indicated by balloon  143 . At that decision diamond  142 , if the device is successfully registered, a success page may be displayed at display  26  ( FIG. 1 ), as indicated at block  144 , and shown in  FIG. 16  as page  146 . At this point, the user may press the “Continue” button  148  at computer  18  and the user may then be allowed to enter the online banking system, indicated at balloon  149 . 
     As shown in  FIG. 2 , the registration process, which may begin at decision diamond  122  in  FIG. 5 , may include the creation of a record  150 . The record  150  may include a field  152  for the user ID number, a field  154  for the serial number created in block  124  of  FIG. 5  and a field  156  for HTTP request headers. With the record  150 , a user may register multiple devices  158 ,  160 ,  162 , corresponding to computers  18 ,  20 ,  22 , respectively. For each device  158 ,  160 ,  162 , the record  150  may include the assigned serial numbers  164  and the values for the various request headers  166 . In this way, the server  12  ( FIG. 1 ) may perform the disclosed authentication process for a user at any number of computers, provided that each of the computers used is registered as shown in  FIG. 5 . 
     Sign On Process 
     After a user has enrolled, as explained with reference to  FIGS. 3A ,  3 B and  3 C, and registered his or her computer, as explained with reference to  FIG. 5 , thereafter, the user may sign on to the system  10  as shown in  FIG. 6 . The sign on process may begin, as indicated in block  168 , with the user sending a request to the server  12  from the user computer  18  ( FIG. 1 ) for a sign-on page. As shown in block  170 , the server  12  may generate a sign-on page which is shown on the display  26  of the computer  18 , as indicated at block  172 . The sign-on page may include boxes for the user to enter his or her identification number and password. An example of a sign-on page  173  is shown in  FIG. 8 . The user enters his or her user identification number in box  174  and password in box  175 . The user then clicks the “Sign On” button  176 , when the user clicks “Sign On” button  176 , the sign on page may run a Java script and flash action script that collect data from the flash local shared object stored in storage  28  at user computer  18  ( FIG. 1 ). 
     When the user clicks to send the sign on information to the server  12 , the request may also contain the encrypted serial numbers stored within the browser cookie stored at the user computer  18  and the encrypted serial numbers from the flash local shared object. Further, the request may contain request header information. The sign-on process then proceeds to the log in process, indicated at block  92  and shown in  FIG. 4 . As described earlier, and indicated in block  100 , the user name and password may be validated and if successful, any duplicate encrypted serial numbers may be removed from the cookies and a prefix may be set that specifies where the encrypted serial numbers were found (i.e., in both the cookie and the flash local shared object, the cookie alone or the flash local shared object alone). The prefix may establish the sort order for the particular computer  18 , with “both” evaluated first (that is, both the browser cookie and flash local shared object) followed by “cookie” (that is, looking for the cookie only) and then “Flash” (looking for the Flash local shared object only). This process is shown in block  177 . 
     As shown in block  178 , server  12  may then decrypt each encrypted serial number found and execute a database look-up based upon the serial number. As indicated in decision diamond  179 , upon successful identification of the serial number, the server may then proceed to the step in block  180 , which is to compare the current request header information with the request header information stored in record  150  (see  FIG. 2 ) and associated with the serial number  154  and user ID number  152  for that computer  18 . As indicated at decision diamond  182 , if the match exists, the log in is successful, as indicated at balloon  104  in  FIG. 4 , and, as indicated in  FIG. 6 , the user may be allowed to enter the banking system, indicated at block  149  in  FIG. 6 . 
     In one embodiment, the request headers are each given a weighted value and the server  12  finds a match only if the total of the weighted values of the matching request headers equals or exceeds a predetermined number. Table I below shows the request header attributes and weighted value for each. 
     
       
         
               
               
               
             
               
               
               
             
           
               
                   
                 TABLE I 
               
               
                   
                   
               
               
                   
                 Attribute 
                 Weighted Value 
               
               
                   
                   
               
             
             
               
                   
               
             
          
           
               
                   
                 Locale 
                 10 
               
               
                   
                 User-agent 
                 6 
               
               
                   
                 Accept-encoding 
                 5 
               
               
                   
                 IP Address 
                 4 
               
               
                   
                 Character Encoding 
                 3 
               
               
                   
                 Referrer 
                 2 
               
               
                   
                 Accept 
                 1 
               
               
                   
                 Remote Host 
                 0 
               
               
                   
                   
               
             
          
         
       
     
     In one embodiment, if a request header from a user computer is 80 percent correct, the match may be sufficient to allow that user to enter the banking system, as indicated at block  149  in  FIG. 6 . 
     As shown in  FIG. 4 , if the request header information from the computer does not match, or does not sufficiently match the stored request header information (see  FIG. 2 ), as indicated at block  184 , the matching serial number may be saved and may be deleted from the user&#39;s machine if the user decides to register that computer  18  again. 
     Re-authentication Process 
     As shown in  FIG. 6 , if the log in process is not successful, as shown at decision diamond  182 , the user may be directed to re-authenticate his or her computer, indicated at block  186  and described with reference to  FIGS. 7A and 7B . The re-authentication process may begin with the server  12  ( FIG. 1 ) directing the user to enter his or her ATM card number, indicated at block  188 . The ATM card number may be transmitted to the server  12  and validated, as indicated at block  190  (that is, the card number may be checked to ensure that it has the appropriate number of alpha-numeric characters). As indicated at decision diamond  192 , if the ATM card number is validated successfully, the user may be directed to enter his or her PIN and card issue number, indicated at block  194 . The PIN and card issue number are validated, as indicated at block  196 , to verify that they each have the correct number of alpha-numeric characters. As indicated in decision diamond  198 , if successfully validated, the ATM card number, PIN and card issue number may then be authenticated, as indicated at block  200 . In each case with decision diamonds  192  and  198 , if the validation is not successful, the user may be again asked to enter the requested number, as indicated in blocks  188 ,  194 , respectively. 
     As shown in decision diamond  202 , if the authentication is successful, the server  12  determines the reason for re-authentication, as indicated at block  204  ( FIG. 7B ). If the authentication process is not successful, then as indicated at decision diamond  202 , the user is directed to the sign on process, indicated at block  206 , and described with reference to  FIG. 6 . As shown at decision diamond  208 , if the reason for re-authenticating is the absence of or entry of an incorrect password, as shown in block  210 , the user may be directed to enter a new password. The new password may be validated, as shown at block  212 , and, as indicated at decision diamond  214 , if successful, the new password may be saved, as indicated at block  216  in the record  150  stored in database  16 . The user may then be directed to the log in process, indicated at block  92  and described with reference to  FIG. 6 . 
     Referring back to decision diamond  208  ( FIG. 7B ), if the reason for re-authentication is the absence of or an incorrect encrypted serial number, then, as indicated in block  218 , the user may be prompted to register his or her computer  181  ( FIG. 1 ). If the user consents, then the registration process may begin, as indicated in block  118  and described with reference to  FIG. 5 . As shown in  FIG. 5 , if the registration process is sent from the re-authenticate process, then as indicated in decision diamond  120 , the user is directed to the log in process  92 , shown in  FIG. 4 . As shown in  FIG. 11 , the user is shown page  219  at display  26 . The user is requested to enter his or her ATM or Debit Card number in box  220 . The user clicks the “Continue” button  221  and is directed to page  222 , shown in  FIG. 9 . The user is directed to enter his or her ATM or debit card PIN in box  223  and debit card issue number in box  224 . The user clicks the “Continue” button  225 . This entry of data and its subsequent validation is represented by block  100  in  FIG. 4 . 
     After the registration process indicated at block  118  is completed, as shown in decision diamond  226  ( FIG. 7B ), if the user elects to register his or her computer  18 , then, as shown in block  228 , the user may be given a confirmation that his or her computer has been registered and, as indicated in block  149 , the user may be given access to the computer banking system  10 . 
     Referring to decision diamond  226 , if the user elects not to register his or her computer  18 , the user nevertheless may be allowed access to the computer banking system, as indicated at block  149 , but must later provide additional identifying information with each subsequent sign on. 
     With respect to log in block  92  in  FIG. 7B , if, after the log in process has been completed, the user&#39;s computer  18  is registered, as indicated at decision diamond  230 , the user may be given access to the computer banking system, indicated at block  149 . If the computer  18  is not registered, the user may be prompted to register his or her current computer, as indicated in block  218 , and at that point may elect whether or not to register his or her computer. 
     The foregoing disclosure describes a system and method for authentication of users in a secure computer system that provides multiple levels and methods of authentication. Moreover, the system and method does not require additional components or peripherals to be employed at user computers. However, it is within the scope of the disclosure to utilize the described method and system in conjunction with an authentication process that uses biometrics (i.e., voice recognition, fingerprint scan, retinal scan), a token or other authentication method, including methods that require additional components or peripheral devices. 
     Another advantage of the system and method is that it accommodates multiple users at multiple remote computers. More specifically, the disclosed system and method may allow multiple users to be authenticated in the secure computer system  10  ( FIG. 1 ) using the same computer  18 ,  20 ,  22 . Each user may enroll in the system  10  using the process of  FIGS. 3A-3C . As part of the device registration process, described with reference to  FIG. 5 , the server  12  may create and encrypt a serial number for that user and persist the encrypted serial number in a browser cookie and local shared object as indicated in blocks  130  and  132  in  FIG. 5 , resulting in a computer with a browser cookie and local shared object having several encrypted serial numbers, each corresponding to a single, different user. Each such user may have a separate record  150  ( FIG. 2 ) stored in database  16  that contains that user&#39;s device names  158 ,  160 ,  162 , serial numbers  154 , and request header attributes  156 . 
     While the systems, components and methods disclosed herein constitute embodiments of the subject method and system, the invention should not be limited to these disclosed embodiments. It is to be understood that changes may be made therein without departing from the scope of the invention.

Technology Classification (CPC): 7