Patent Document

BACKGROUND OF INVENTION 
     Embodiments of the present invention relate generally to electronic messaging tools and, more particularly, to a method, system, and storage medium for validating users of communications services. 
     In addition to the exchange of personal communications, email messaging, telephone communications, facsimile transmissions, instant messaging, etc. are increasingly becoming popular tools for marketing purposes as well. As a result, many messaging system users have been inundated with large quantities of unsolicited messages that are often unwelcome and/or of little or no value to the recipient. Further, a large amount of these communications can slow down a user&#39;s processor, consume a great deal of memory, carry viruses, and distract the user from the important messages that must be individually filtered. For the providers of communication services, there is a significant cost to carry large quantities of unsolicited traffic, and it does not make economic sense for them to incur this cost if their subscribers do not wish to receive these communications. 
     Preventing these unsolicited communications is difficult since the originators often disguise their intentions by frequently changing their identities and message. Accordingly, it would be desirable to be able to validate originators of messages and identify the messages intentions. 
     SUMMARY OF INVENTION 
     The foregoing discussed drawbacks and deficiencies of the prior art are overcome or alleviated by a method, system, and storage medium for validating users of communications services. 
     Exemplary embodiments of the invention relate to a method, system, and storage medium for validating users of communications services. The method includes generating records for communications service users by at least one service provider. The records store information relating to the communications service users including legal liability information, an originator type code, and a validation code assigned to selected originator type codes. The validation code facilitates validation of the communications service users. The method also includes storing the records in a subscriber classification database. The originator type code classifies the communications service users according to subject matter such as nature of use, communications type, geography, age, and business type. It will be understood that any additional classifications may be added to, or substituted for, the above classifications in order to realize the advantages of the invention. Other classifiers may include government, politics/voting, solicitations/information, charities/nonprofit, emergencies, etc. 
     Embodiments of the system include an originating communications device in communication with a first service provider and a recipient communications device in communication with a second service provider. The first and second service providers are in communication with one another via a communications network. The system also includes a certified communications system executing over the communications network. The certified communications system includes a subscriber classification database storing records of users of the communications services. The records store information relating to the communications service users such as legal liability information, an originator type code, and a validation code assigned to selected originator type codes. The validation code is used to facilitate validation of the communications service users. The originator type code classifies the communications device users according to nature of use, a communications type, business type, geography, and/or age. The certified communications system receives communications from originating communications service users via the first service provider and retrieves associated records. If the associated record contains a validation code, the certified communications system appends the originator type code to the communication and transmits the communication to the recipient communications service user via the second service provider along with the originator type code. 
     Other systems, methods, and/or computer program products according to embodiments will be or become apparent to one with skill in the art upon review of the following drawings and detailed description. It is intended that all such additional systems, methods, and/or computer program products be included within this description, be within the scope of the present invention, and be protected by the accompanying claims. 
    
    
     
       BRIEF DESCRIPTION OF DRAWINGS 
       Referring to the exemplary drawings wherein like elements are numbered alike in the several FIGURES: 
         FIG. 1  is a block diagram of a system upon which the certified communications system is implemented in accordance with exemplary embodiments of the invention; 
         FIG. 2  is a flowchart describing a process of registering general users (end users) for the certified communications system services in accordance with embodiments of the invention; 
         FIG. 3  is a flowchart describing a process of registering service providers with a central agency for the purpose of becoming ‘validators’ for the certified communications system in accordance with embodiments of the invention; 
         FIG. 4  is a flowchart describing a process of implementing the certified communications system in accordance with embodiments of the invention; and 
         FIG. 5  illustrates a sample computer screen window as seen by a general user registrant of the certified communications system, in accordance with embodiments of the invention. 
     
    
    
     DETAILED DESCRIPTION 
     Disclosed herein is a method, system, and storage medium for validating users of communications services in order to enable service users to distinguish undesirable messages from relevant messages. Forms of communication that may be serviced by the certified communications system include email messaging, voicemail, facsimile transmissions, multimedia messaging, short message service (SMS), instant messaging, telephony, etc. The certified communications system is device independent in that it validates users of a variety of existing communications devices such as telephones, wireless devices (e.g., laptops, PDAs, cellular telephones), computers, facsimile machines, answering machines, etc. A validation database of communications service users are maintained by one or more communications service validators and examined whenever a communications transmission is initiated. If the service user has a subscription record in the database, a validation flag is associated with the message which is then forwarded on through the network. Validation codes and originator type codes are associated with the subscription records that provide information about the message sender. Subscribing recipients of the certified communications system may also provide validation criteria through their subscription records in order to specify the types of communications they authorize a service provider to forward to them or flag before forwarding to them. The certified communications system may be implemented on any type of existing communications network system such as point-to-point and point-to-multipoint communications networks as well as a public switched telephone network (PSTN), wireless, SMS, MMS, IP, WiFi, LAN, WAN, broadcast, video, radio, VoIP, etc. 
     Validation of a communications service user refers to the official or formal sanctioning of a communications service user to the extent that their communications activities are traceable and the service user accountable. Validation, as referred to herein, does not necessarily result in authentication in that the sender&#39;s name, as seen by a recipient, may not in all instances be the sender&#39;s actual name. However, validation signifies that there is a person or entity that is now accountable for their actions. 
     The certified communications system is described in  FIG. 1  with respect to a specific type of communications device, namely computer systems. However, it will be understood by those skilled in the art that the certified communications system services are applicable to other types of communications devices as well. Thus, the description provided in  FIG. 1  is for illustrative purposes, and should not be interpreted as limiting in scope. 
     Referring initially to  FIG. 1 , there is shown a block diagram of a network system for implementing the certified communications system in exemplary embodiments of the invention. Network system  100  includes a computer client system  102  in communication with a service provider  104  via a network connection. 
     Computer client systems  102  and  110  may be general-purpose desktop computers that subscribe to an Internet service provider and may each include an email application, instant messaging system software, a web browser application, and/or any other suitable programs that reside in memory and execute on computer client systems  102 ,  110 . It will be understood by those skilled in the art that the certified communications system of the invention may be executed on systems with variant architectures. Computer client systems  102 ,  110  are in communication with other entities of network system  100  via a network connection such as the Internet or other suitable means of networking architecture. Computer client system  102  as the sender of a message is also referred to herein as “originating communications device”, and computer client system  110  as a recipient of the message is referred to herein as “terminating communications device.” 
     Computer client systems  102  and  110  each subscribe to a communications plan via service providers  104  and  112 , respectively. In the embodiment depicted in  FIG. 1 , service providers  104  and  112  are Internet service providers (ISPs) and provide Internet services to computer clients  102  and  110  under a subscription plan. Generally, service providers receive message transmissions from computer clients and forward them onto other service providers in accordance with the messaging instructions contained in the message address. The other service providers then forward the messages onto the appropriate computer client systems. 
     Service providers  104  and  112  each comprise a server  106  and  114 , respectively, for receiving and transmitting communications between subscribing computer client systems  102  and  110 . Servers  106  and  114 , may each comprise a high-powered multiprocessor computer device including web server and applications server software for receiving requests from computer client systems  102  and  110  to access email or other messaging services via the Internet or other network. While only two servers  106  and  114  are shown, it will be understood that any number of servers may be used by service providers  104  and  112  in order to realize the advantages of the invention. In the system of  FIG. 1 , service providers  104  and  112  are also referred to herein as communication service validators in that they perform the validation services of the certified communications system as described herein, in addition to providing traditional communication services (e.g., Internet service, telephone service, etc.). It will be understood that third party entities may provide the validation services of the certified communications system under an agreement with the service providers. 
     Service providers  104  and  112  further comprise subscription classification databases  108  and  116 , respectively, for storing subscriber account records  115  as described further herein (see generally  FIG. 4 ). Subscriber account records  115  include subscriber information, originator type codes, validation codes, and profiles that include business rules adopted by the subscriber. Participating service providers classify their subscribers into categories based on use, communications type, geography, age, etc. Some of these categories may be defined by a centralized body (e.g., standards or industry association). These categories may include consumer, business, telemarketing, and undefined. A consumer classification refers to a subscriber who sends personal communications. A business classification refers to subscribers associated with a business or whose primary use is business related. A telemarketing classification refers to subscribers who plan to use this mode of communications for solicitations. An undefined classification is reserved for subscribers who would prefer not to identify themselves or their intentions. For example, a subscriber may wish to associate with a personal or professional online chat room without revealing his/her identity. Subscribers with undefined classifications will not receive validation and no validation code is associated with the subscriber. By providing this option, a subscriber may selectively toggle between classifications as needed. For example, a subscriber in a consumer classification may wish to be validated with certain recipients and forego validation with other recipients depending upon the subscriber&#39;s circumstances. Likewise, a subscriber may toggle between validation and validation suppression with respect to a single recipient. In a telephone environment, for example, a subscriber may set his/her telephone to accept all consumer calls, limit business calls between 9:00 a.m. and 5:00 p.m., and block all telemarketing calls or undefined callers. In the event a friend is calling a subscriber from his/her workplace, the certified communications system provides an option to allow the subscriber to override the classification of received communications via business rules specified in the subscriber&#39;s profile. This may also include a caller announcement function whereby the identity of the sender is announced to the subscriber. Exceptions to the business rules may be enabled by a subscriber through the use of an exception report that indicates any exceptions to the prohibited messages defined in the business rules. By having subscribers declare their intentions, receivers of communications may easily screen their messages. 
     Also included in  FIG. 1  is a central agency entity  118  including a server  120  and certified user database  122 . Central agency entity  118  regulates the service providers  104  and  112  to ensure the integrity of the authorized communications system services. Service providers  104 ,  112  register with central agency entity  118  in order to become certified participants in the system. Once registered, service provider records  124  indicating their status are stored in certified user database  122 . Registration activities for service providers and other users are further described in  FIG. 2 . 
     In one embodiment, central agency  118  executes the certified communications system and allows subscribing clients such as computer client systems  102 ,  110 , as well as service providers  104  and  112  to access its features and functions as described further herein. In alternate embodiments, service providers themselves execute the certified communications system. In yet a further embodiment, client systems  102  and  110  share execution of the certified communications system with either of service provider systems  104 ,  112  or central agency entity  118  and may store the certified communications software internally. In alternate embodiments, service providers  104  and  112  are Internet service providers that provide email messaging services and maintain a client base of email users. It will be understood that other embodiments, in addition to those specified above, are contemplated by the certified communications system and that the above representations are made for illustrative purposes and should not be construed as limiting in scope. 
     The certified communications system further comprises a graphical user interface  117  for enabling users of computer client systems  102  and  110  define criteria for determining relevant or desirable messages as desired. Sample computer screen  400  of  FIG. 4  illustrates the features of the certified communications system graphical user interface  117 . 
     As indicated above, the certified communications system may be executed as a standalone application that is installed or downloaded on a computer client system or may be incorporated into an existing messaging application or similar commercially-available product as an enhancement feature. Further, as indicated above, the features of the certified communications system may be provided via a third party application service provider (ASP) or e-utilities broker where service is provided for a per-use fee in alternative embodiments. 
       FIG. 2  is a flowchart describing the process of registering service providers with a central agency  118  to become validators for the certified communications system. The certified communications system receives a request to register from a service provider at step  202 . A service provider record  124  is created by the certified communications system at step  204 . At step  206 , contact information is collected for the registrant such as provider name, address, contact, and other similar types of information. The certified communications system assigns a validation code to the record  124  at step  208 . This may be accomplished by assigning the validation code to the routing address of the communications service user. At step  210 , the completed service provider record  124  is stored in certified user database  122  and the service provider becomes a certified participant in the system. 
     Registration for general users will now be described in  FIG. 3 . A request to register is received from a general user (e.g., a user of computer client systems  102 ,  110 ) at step  302 . A subscriber account record  115  is created at step  304 . A sample computer screen window  500  of  FIG. 5  illustrates a registration web page of user interface  117  as seen by a general user. Contact information  502 ,  506  is gathered by the certified communications system at step  306 . The certified communications system assigns an originator type code  504  in accordance with the information provided by the registrant at step  308 . A validation code is assigned at step  310 . A validation code may comprise any indicia desired that facilitates the certification of the subscriber. For example, the subscriber&#39;s email address  502  may be used as a validation code. In this manner, validation may be processed by sending an email with a unique transaction number to the subscriber requesting that he/she open the email and activate the subscription by clicking on a URL and entering the transaction number. Thus, the user&#39;s email account is confirmed to be a valid and accurate source of contact information for the subscriber. The certified communications system contemplates various other ways to validate a subscriber in addition to the above example. For example, a subscriber who accesses the services of the certified communication system under a fee agreement may be required to provide financial account information such as personal bank account or credit card information. This account information could be used for validation as well. A validation code may be presented in any form that is capable of distinguishing a validated message from a non-validated message. For example, a validation code may comprise a symbol, a letter, a word, a picture, or a sound. 
     Business rules as shown in subwindows  510  and  512  may also be specified by the registrant at step  312 . At step  314 , the subscriber account record  115  is stored in applicable subscriber classification database  108 ,  116 . 
     Once a general user registrant has provided the information above in  FIG. 3 , the user may begin to use the certified communications system services as described in  FIG. 4 . At step  402 , a communication transmission (message) is received by a service provider  104  from an originating user at computer client system  102 . The certified communications system accesses subscriber classification database  108  and retrieves the subscriber account record  115  associated with the sender of the transmission at step  404 . At step  406 , it is determined whether the message is valid by checking the originator type code associated with the sender and the subject line of the message. If valid, the certified communications system flags the message and forwards it on to the recipient at step  408 . The originating service provider  104  appends the originator type code and validation code to the subject line of the email. The validation code includes an encrypted key that the receiving service provider  112  must decrypt in order to validate the authenticity of the originating service provider  104  and originator type code. This appendage, or flag, may comprise various types of indicia for identifying and distinguishing the validated messages from those that are not validated. If not valid, one of several possible actions may be taken. The message may be discarded entirely at step  412 , placed in a queue of invalid messages  414 , forwarded to the recipient without a flag at step  410 , or returned to the sender at step  416 . If options at steps  412  or  416  are selected, the process ends as the recipient never receives the communication. 
     The receiving (also referred to as terminal) service provider  112  (if different from the originating service provider) receives the transmission from any of steps  408 ,  410 , or  414  at step  418 . Similar to step  406 , the message is examined for validity at step  420 . The certified communications system checks the profile information (see  FIG. 5 ,  510 - 514 ) and acts in accordance with the recipient subscriber&#39;s profile. One of several actions may be performed based upon the results of step  420 . If the message is valid, the message is forwarded with a flag to the recipient at computer client system  110  at step  422 . If the message is not valid, it may be returned to the sender at step  424  or forwarded to the recipient without a flag at step  426 , thus, distinguishing the message from those identified as valid. Alternatively, the message may be discarded at step  428 , or placed in a message queue at step  430 . Once the message is forwarded, a recipient is able to acquire information about the message and the message sender without engaging in a full communication engagement or establishing a communications session with the originator. For example, the recipient receives a telephone transmission that indicates via the originator type code that the caller is a telemarketer. The recipient has learned of this information without answering the telephone call. Likewise, a recipient of an email, instant message, or other communication may acquire this information before engaging in a communications session with the calling party as well. 
     As will be appreciated from the above description, the restrictions and limitations that exist with messaging systems are efficiently overcome. Validation codes and originator type codes are associated with subscription records of communications service users which provide information about the users. Users provide validation criteria through their subscription records in order to specify the types of messages they authorize a service provider to forward to them or flag before forwarding to them. This allows the users to effectively screen communications before opening them. 
     As described above, embodiments may be in the form of computer-implemented processes and apparatuses for practicing those processes. In exemplary embodiments, the invention is embodied in computer program code executed by one or more network elements. Embodiments include computer program code containing instructions embodied in tangible media, such as floppy diskettes, CD-ROMs, hard drives, or any other computer-readable storage medium, wherein, when the computer program code is loaded into and executed by a computer, the computer becomes an apparatus for practicing the invention. Embodiments include computer program code, for example, whether stored in a storage medium, loaded into and/or executed by a computer, or transmitted over some transmission medium, such as over electrical wiring or cabling, through fiber optics, or via electromagnetic radiation, wherein, when the computer program code is loaded into and executed by a computer, the computer becomes an apparatus for practicing the invention. When implemented on a general-purpose microprocessor, the computer program code segments configure the microprocessor to create specific logic circuits. 
     While the invention has been described with reference to exemplary embodiments, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the scope of the invention. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the invention without departing from the essential scope thereof. Therefore, it is intended that the invention not be limited to the particular embodiments disclosed for carrying out this invention, but that the invention will include all embodiments falling within the scope of the claims.

Technology Category: h