Abstract:
A service that leverages an innovatively extended version of Bayes&#39; Theorem to provide comprehensive spam detection and optional spam elimination capabilities within established wireless messaging paradigms such as, possibly inter alia, Short Message Service, Multimedia Message Service, Wireless Application Protocol, and IP Multimedia Subsystem. The service may optionally leverage the capabilities of a centrally-located Messaging Inter-Carrier Vendor.

Description:
[0001]    This application claims the benefit of U.S. Provisional Patent Application No. 60/873,257, filed on Dec. 7, 2006, which is herein incorporated by reference in its entirety. 
     
    
     BACKGROUND 
       [0002]    1. Field of the Invention 
         [0003]    The present invention relates generally to telecommunications services. More particularly, the present invention relates to capabilities that enhance substantially the value and usefulness of various messaging paradigms including, inter alia, Short Message Service (SMS), Multimedia Message Service (MMS), Wireless Application Protocol (WAP), Internet Protocol (IP) Multimedia Subsystem (IMS), Instant Messenger (IM), etc. 
         [0004]    2. Background of the Invention 
         [0005]    As the ‘wireless revolution’ continues to march forward the importance to a Mobile Subscriber (MS)—for example a user of a Wireless Device (WD) such as, inter alia, a mobile telephone, a BlackBerry, etc. that is serviced by a Wireless Carrier (WC)—of their WD grows substantially. One consequence of such a growing importance is the resulting ubiquitous nature of WDs—i.e., MSs carry them at almost all times and use them for an ever-increasing range of activities. 
         [0006]    As MSs employ their WDs for ever more activities their WDs become increasingly more vulnerable to a range of undesirable behaviors. One undesirable behavior is spam (i.e., unsolicited, undesired bulk messages). Internet-based Electronic Mail (E-mail) spam has become notorious. As benn noted by NetZero, spam “ . . . is the Internet&#39;s equivalent of junk mail. The Internet abuse generally referred to as spamming ranges from annoyances like electronic mass mailings, mass advertisements, junk email, chain letters, and off-topic newsgroup postings on one hand to more serious abuses such as perpetration of scams or confidence games, transmission of fraudulent product or service promotions and harassing or threatening emails on the other. All types of spam waste the valuable time, energy and resources of the recipients, the service providers involved, and the whole Internet community.” 
         [0007]    Numerous efforts or initiatives have arisen in response to the growth of Internet-based E-mail spam including, inter alia, purely technical efforts (such as, e.g., the SpamHaus project) and legal initiatives (such as, e.g., the CAN-SPAM Act of 2003 [Controlling the Assault of Non-Solicited Pornography and Marketing Act]). 
         [0008]    Perhaps inevitably, spam artists recently have begun targeting WDs within wireless messaging ecosystems. In fact, the term “SpaSMS” has recently been coined to describe SMS-based spam. 
         [0009]    As a result a range of new, enhanced anti-spam mechanisms are necessary to identify or detect, and optionally eliminate, spam within a wireless messaging ecosystem. 
         [0010]    The present invention provides such enhanced spam detection and elimination capabilities and addresses various of the (not insubstantial) challenges that are associated with same. 
       SUMMARY OF THE INVENTION 
       [0011]    Embodiments of the present invention employ an innovatively extended version of Bayes&#39; Theorem to provide comprehensive spam detection and optional spam elimination capabilities within established wireless messaging paradigms such as, possibly inter alia, SMS, MMS, IMS, etc. 
         [0012]    More particularly, embodiments of the present invention provide a method for detecting undesirable or “spam” messages being passed through a wireless network. The method includes intercepting a message at a messaging inter-carrier vendor (MICV) that was sent over a wireless network. The message is passed to an application server that is in communication with a database. The application server the calculates a probability that the message is an undesirable message. Preferably, the calculation takes into account, among other things, one or more of words, expressions, shortcuts, idioms, and abbreviations, in the message. 
         [0013]    In addition, the probability calculation may be based on the formula 
         [0000]        Pr (spam|words)=( Pr (words|spam)* Pr (spam))/( Pr (words))* AF    
         [0014]    wherein the probability that the message is undesirable (spam) given the message includes certain words is equal to (a) the probability of finding those certain words in an undesirable message (Pr(words|spam)) times the probability that any message is undesirable (Pr(spam)) divided by the probability of finding those certain words in any message (Pr(words)) (b) adjusted or scaled by an Applicability Factor (AF). 
         [0015]    In accordance with embodiments of the invention the Applicability Factor (AF) may be based on a source address of the message, a source carrier of the message, a frequency count, and/or a time of day or day of week that the message was sent. 
         [0016]    If a given message is determined to be spam, then the messages may be dropped, quarantined, or one or more alert messages may be generated and sent. 
         [0017]    These and other features of the embodiments of the present invention, along with their attendant advantages, will be more fully appreciated upon a reading of the following detailed description in conjunction with the associated drawings. 
     
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
         [0018]      FIG. 1  is a diagrammatic presentation of an exemplary Messaging Inter-Carrier Vendor (MICV). 
           [0019]      FIG. 2  illustrates one particular arrangement that is possible through aspects of the present invention. 
           [0020]      FIG. 3  provides an exemplary catalog of some of the shortcuts that are frequently employed in SMS, MMS, etc. messages. 
           [0021]      FIG. 4  illustrates an exemplary sliding window facility that may be employed by aspects of the present invention. 
           [0022]      FIG. 5  depicts exemplary calculations under an aspect of the present invention. 
           [0023]      FIG. 6  illustrates various of the exchanges or interactions that are supported by aspects of the present invention. 
           [0024]      FIG. 7  is a diagrammatic presentation of aspects of an exemplary Service Provider (SP) Application Server (AS). 
       
    
    
       [0025]    It should be understood that these figures depict embodiments of the invention. Variations of these embodiments will be apparent to persons skilled in the relevant art(s) based on the teachings contained herein. 
       DETAILED DESCRIPTION 
       [0026]    The present invention may leverage the capabilities of a centrally-located, full-featured MICV facility. Reference is made to U.S. Pat. No. 7,154,901 entitled “INTERMEDIARY NETWORK SYSTEM AND METHOD FOR FACILITATING MESSAGE EXCHANGE BETWEEN WIRELESS NETWORKS,” and its associated continuations, for a description of a MICV, a summary of various of the services/functions/etc. that are performed by a MICV, and a discussion of the numerous advantages that arise from same. The disclosure of U.S. Pat. No. 7,154,901, along with its associated continuations, is incorporated herein by reference. 
         [0027]    As illustrated in  FIG. 1  and reference numeral  100  a MICV  120  is disposed between, possibly inter alia, multiple WCs (WC 1    114 →WC x    118 ) on one side and multiple SPs (SP 1    122 →SP y    124 ) on the other side and thus ‘bridges’ all of the connected entities. A MICV  120  thus, as one simple example, may offer various routing, formatting, delivery, value-add, etc. capabilities that provide, possibly inter alia: 
         [0028]    1) A WC  114 → 118  (and, by extension, all of the MSs  102 → 104 ,  106 → 108 , and  110 → 112  that are serviced by the WC  114 → 118 ) with ubiquitous access to a broad universe of SPs  122 → 124  and 
         [0029]    2) A SP  122 → 124  with ubiquitous access to a broad universe of WCs  114  → 118  (and, by extension, all of the MSs  102 → 104 ,  106 → 108 , and  110 → 112  that are serviced by the WC  114 → 118 ). 
         [0030]    Generally speaking a MICV may have varying degrees of visibility (e.g., access, etc.) to the (MS⇄MS, MS⇄SP, etc.) messaging traffic: 
         [0031]    1) A WC may elect to route just their out-of-network messaging traffic to a MICV. Under this approach the MICV would have visibility (e.g., access, etc.) to just the portion of the WC&#39;s messaging traffic that was directed to the MICV by the WC. 
         [0032]    2) A WC may elect to route all of their messaging traffic to a MICV. The MICV may, possibly among other things, subsequently return to the WC that portion of the messaging traffic that belongs to (i.e., that is destined for a MS of) the WC. Under this approach the MICV would have visibility (e.g., access, etc.) to all of the WC&#39;s messaging traffic. 
         [0033]    An implementation that contains a ‘route all of their messaging traffic to a MICV’ option may serve to enhance aspects of the present invention. 
         [0034]    While the discussion below will include a MICV it will be readily apparent to one of ordinary skill in the relevant art that other arrangements are equally applicable and indeed are fully within the scope of the present invention. 
         [0035]    In the discussion below the present invention is described and illustrated as being offered by a SP. A SP may, for example, be realized as a third-party service bureau, an element of a WC or a landline carrier, an element of a MICV, multiple third-party entities working together, etc. 
         [0036]    To help explain key aspects of the present invention consider the illustrative example that is depicted through  FIG. 2  and the narrative below. 
         [0037]    As indicated in  FIG. 2  and reference numeral  200  all of the messaging traffic of numerous WCs (WC 1    210 →WC n    212 ) is exchanged with a MICV  214  and the MICV  214  is connected with SP x    216  (a SP that offers, possibly inter alia, the present invention). Among other things this provides SPX  216  with visibility (access, etc.) to all of the messaging traffic (to, possibly inter alia, conduct spam detection operations against all of that traffic) and, inter alia, the opportunity (as explained below) to continuously expand its internal repositories, refine the results of its message review and other analytical activities, etc. as time progresses (and as ever more messages are presented to it). 
         [0038]    Aspects of the present invention leverage Bayes&#39; Theorem. This theorem, which is well known to those of ordinary skill in the art, relates the conditional and marginal probabilities of two stochastic (or random) events, A and B: 
         [0000]        Pr ( A|B )( Pr ( B|A )* Pr ( A ))/( Pr ( B )) 
         [0039]    where Pr(A|B) is the conditional probability of A given B; Pr(B|A) is the conditional probability of B given A; Pr(A) is the marginal probability of A; and Pr(B) is the marginal probability of B. 
         [0040]    Paul Graham, in his seminal 2002 note “A Plan for Spam,” described an E-mail spam filter that was based on Bayes&#39; Theorem. The core of Graham&#39;s Bayesian filter may be summarized as: 
         [0000]        Pr (spam|words)=( Pr (words|spam)* Pr (spam))/( Pr (words)) 
         [0041]    where the probability that an E-mail message is spam given that it contains certain words (i.e., Pr(spam|words)) is equal to the probability of finding those certain words in a spam E-mail message (i.e., Pr(words|spam)) times the probability that any E-mail message is spam (i.e., Pr(spam)) divided by the probability of finding those certain words in any E-mail message (i.e., Pr(words)). 
         [0042]    A number of products that seek to target E-mail spam have implemented Graham&#39;s Bayesian filter. These products include, inter alia, BogoFilter, CRM114, DSPAM, SpamAssassin, SpamBayes, and SpamProbe. 
         [0043]    Aspects of the present invention extend Graham&#39;s model to, inter alia, make the model incrementally more flexible and tailor the model to the unique, idiosyncratic, etc. characteristics of a wireless messaging ecosystem. The extended model may be summarized as: 
         [0000]        Pr (spam|words)=( Pr (words|spam)* Pr (spam))/( Pr (words))* AF    
         [0044]    where the probability that a (SMS, MMS, etc.) message is spam given that it contains certain words (i.e., Pr(spam|words)) is equal to (a) the probability of finding those certain words in a spam (SMS, MMS, etc.) message (i.e., Pr(words|spam)) times the probability that any (SMS, MMS, etc.) message is spam (i.e., Pr(spam)) divided by the probability of finding those certain words in any (SMS, MMS, etc.) message (i.e., Pr(words)) (b) adjusted or scaled by an Applicability Factor (AF). 
         [0045]    Within the extended model it is important to note: 
         [0046]    1) The option to dynamically adjust the catalog of words (‘words’ in the above formula) that the evaluation process draws upon. 
         [0047]    2) The option to include, for example: 
         [0048]    i) Dynamically updateable catalogs of common expressions, shortcuts, idioms, abbreviations, etc. (for example, as illustrated in FIG.  3 —“wru” for “Where are you?”, “aamof” for “as a matter of fact”, “w84mi” for “wait for me”, etc.) that frequently are employed in (SMS, MMS, etc.) messages. 
         [0049]    ii) Dynamically updateable catalogs of ‘seed’ words (i.e., specific conventional and/or unconventional words that have been identified in previously captured spam SMS, MMS, etc. messages). 
         [0050]    3) The option to assign a Sensitivity Factor (SF), indicating possibly inter alia ‘spam’ or ‘not spam,’ to any of the words in the catalogs that were described in 1 and 2 above. As one possible example, a SF may be defined to lie within the range 0←SF←1 (with the boundary values of 0 and 1 indicating ‘no weight’ [for 0] and ‘neutral weight’ [for 1]). As another possible example, a SF may be allowed to span a wider range of values (with, possibly inter alias, an associated modulus or other scaling mechanism to ensure that a final or end calculated value never exceeds a configurable threshold such as 100%). 
         [0051]    4) The option to dynamically adjust any of the SFs that were described in 3 above. 
         [0052]    5) The optional inclusion of a SF in the calculation or generation of an individual probability (e.g., Pr(words|spam)). 
         [0053]    6) The option to dynamically adjust any of the derived probabilities (e.g., Pr(words|spam), etc.). 
         [0054]    7) The inclusion of an AF to indicate the relative importance, likelihood of spam, etc. for a (SMS, MMS, etc.) message based on ‘extra’ criteria. For example, an AF may consist of a defined group of, and therefore be calculated or generated by evaluating, one or more of the elements within a flexible, extensible, and dynamically updateable or configurable framework of factors. Potential framework factors might include, possibly inter alia: 
         [0055]    i) Source Address (SA). For example one specific message SA (such as, for example, the source Telephone Number [TN], source Short Code [SC] or Common Short Code [CSC], etc.). Or a mix or collection of specific SAs. Or an explicit range of SAs. 
         [0056]    ii) Frequency Count. For example, the number or count of incoming messages (in total, for a specific SA, for an explicit range of SAs, etc.) within a sliding window. A sliding window may be dynamically configurable to be a specific size or duration. An illustrative sliding window facility with incoming messages  410 - 438  is depicted in  FIG. 4  and reference numeral  400 . 
         [0057]    iii) Time of Day (ToD). For example, the  23  hours of a day—0, 1, 2, . . . , 23, and 24—based on any of several possible reference points (including, possibly inter alia, a local time zone, Greenwich Mean Time, etc.). 
         [0058]    iv) Day of Week (DoW). For example, the seven days of a week—Sunday, Monday, . . . , Friday, and Saturday. 
         [0059]    v) Source Carrier. For example, one specific source carrier (such as, for example, Verizon Wireless, T-Mobile, etc.). Or a mix or collection of specific source carriers. 
         [0060]    The specific framework factors that were described above are illustrative only and it will be readily apparent to one of ordinary skill in the relevant art that numerous other factors are easily possible and indeed are fully within the scope of the present invention. 
         [0061]    One or more framework factors may optionally be assigned a Weighting Factor (WF) to incrementally increase or decrease the importance or impact of a factor to that factor&#39;s relative contribution to an AF. As one possible example, a WF may be defined to lie within the range 0←WF←1 (with the boundary values of 0 and 1 indicating ‘no weight’ [for 0] and ‘neutral weight’ [for 1]). As another possible example, a WF may be allowed to span a wider range of values (with, possibly inter alias, an associated modulus or other scaling mechanism to ensure that a final or end calculated value never exceeds a configurable threshold such as 100%). 
         [0062]    For purposes of illustration consider the following hypothetical example. In this example an initial probability (of a message being spam) was calculated to be 37%. Additionally, an AF has been defined as consisting of two framework factors with each framework factor having an associated WF—(a) SA with a WF of 75% and (b) Frequency Count with a WF of 25%.  FIG. 5  and reference numeral  500  illustrate the different extended probabilities (of a message being spam)  506 / 508  that would arise from a range of AF values  502 / 504 . 
         [0063]    Multiple AFs may be defined with, possibly inter alia, a specific AF being automatically or manually enabled or disabled based on one or more criteria including, for example, ToD, DoW, etc. 
         [0064]    An AF may optionally default to ‘no impact or effect.’ 
         [0065]    The AF characteristics that were described above are illustrative only and it will be readily apparent to one of ordinary skill in the relevant art that numerous other options are easily possible (e.g., a modulus or other scaling mechanism may be incorporated to ensure that the value of a calculated probability, when an AF is included, never exceeds a configurable threshold such as 100%) and indeed are fully within the scope of the present invention. 
         [0066]    The elements of the extended model that were described above are illustrative only and it will be readily apparent to one of ordinary skill in the relevant art that numerous other options are easily possible (e.g., any or all of the catalogs, calculations, values [such as SF and/or AF], etc. that were described above might optionally be made WC-specific, MICV-specific, etc.) and indeed are fully within the scope of the present invention. 
         [0067]    To help explain key aspects of the present invention consider the illustrative interactions that are depicted in  FIG. 6  and reference numeral  600  (which capture various of the exchanges or interactions that might occur as [SMS, MMS, etc.] messaging traffic is generated, routed, processed, etc.) Of interest and note in the diagram are the following entities: 
         [0068]    MS,  602 →MS a    604  and MS 1    606 →MS z    608 . MS WDs such as a mobile telephones, BlackBerrys, PalmPilots, etc. 
         [0069]    WC 1    610 →WC n    612 . Numerous WCs. 
         [0070]    MICV  614 . As noted above the use of a MICV, although not required, provides significant advantages. 
         [0071]    SP  616  AS  618 . Facilities that provide key elements of the instant invention (which will be described below). 
         [0072]    SP  616  Database (DB)  620 . One or more data repositories that are leveraged by the AS  618  of SP  616 . 
         [0073]    In the discussion to follow reference is made to messages that are sent, for example, between a MS  602 → 604 / 606 → 608  and an SP  616 . As set forth below, a given “message” sent between a MS  602 → 604 / 606 → 608  and a SP  616  may actually comprise a series of steps in which the message is received, forwarded and routed between different entities, including a WD associated with a MS  602 → 604 / 606 → 608 , a WC  610 → 612 , a MICV  614 , and a SP  616 . Thus, unless otherwise indicated, it will be understood that reference to a particular message generally includes that particular message as conveyed at any stage between an origination source, such as a WD of a MS  602 → 604 / 606 → 608 , and an end receiver, such as a SP  616 . As such, reference to a particular message generally includes a series of related communications between, for example, a MS  602 → 604 / 606 → 608  and a WC  610 → 612 , the WC  610 → 612  and a MICV  614 , and the MICV  614  and a SP  616 . The series of related communications may, in general, contain substantially the same information, or information may be added or subtracted in different communications that nevertheless may be generally referred to as a same message. To aid in clarity, a particular message, whether undergoing changes or not, is referred to by different reference numbers at different stages between a source and an endpoint of the message. 
         [0074]    In  FIG. 6  the exchanges that are collected under the designation Set  1  and Set  2  represent the activities that might take place as (SMS, MMS, etc.) messages are routed by the various WCs  610 → 612  to a MICV  614  (via  622 → 624 ) and then directed, by the MICV  614 , to a SP  616  (via  626 ). It is important to note these exchanges are illustrative only and it will be readily apparent to one of ordinary skill in the relevant art that numerous other exchanges are easily possible and indeed are fully within the scope of the present invention. 
         [0075]    In  FIG. 6  the exchanges that are collected under the designation Set  3 , Set  4 , and Set  5  represent the activities that might take place as (SMS, MMS, etc.) messages are processed by SP  616  (specifically, by an AS  618  of SP  616 ). To provide context for our review of the Set  3 , Set  4 , and Set  5  exchanges we take a brief detour to describe an illustrative SP AS. 
         [0076]      FIG. 7  and reference numeral  700  provide a diagrammatic presentation of aspects of an exemplary SP AS  702 . The illustrated AS  702  contains several key components—Gateways (GW 1    708 →GW a    710  in the diagram), Incoming Queues (IQ 1    712 →IQ b    714  in the diagram), WorkFlows (WorkFlow 1    718 →WorkFlow d    720  in the diagram), Database  722 , Outgoing Queues (OQ 1    724 →OQ c    726  in the diagram), and an Administrator  728 . It will be readily apparent to one of ordinary skill in the relevant art that numerous other components are possible within an AS. 
         [0077]    A dynamically updateable set of one or more Gateways (GW 1    708 →GW a    710  in the diagram) handle incoming (e.g., SMS/MMS/IMS/etc. messaging, etc.) traffic  704 / 706  and outgoing (e.g., SMS/MMS/IMS/etc. messaging, etc.) traffic  704 / 706 . Incoming traffic  704 / 706  is accepted and deposited on an intermediate or temporary Incoming Queue (IQ 1   712 →IQ b    714  in the diagram) for subsequent processing. Processed artifacts are removed from an intermediate or temporary Outgoing Queue (OQ 1   724 →OQ c    726  in the diagram) and then dispatched  704 / 706 . 
         [0078]    A dynamically updateable set of one or more Incoming Queues (IQ 1    712 →IQ b    714  in the diagram) and a dynamically updateable set of one or more Outgoing Queues (OQ 1    724 →OQ c    726  in the diagram) operate as intermediate or temporary buffers for incoming and outgoing traffic  704 / 706 . 
         [0079]    A dynamically updateable set of one or more WorkFlows (WorkFlow 1    718 →WorkFlow b    720  in the diagram) remove incoming traffic from an intermediate or temporary Incoming Queue (IQ 1    712 →IQ b    714  in the diagram), perform all of the required processing operations (explained below), and deposit processed artifacts on an intermediate or temporary Outgoing Queue (OQ 1    724 →OQ c    726  in the diagram). The WorkFlow component will be described more fully below. 
         [0080]    The Database  722  that is depicted in  FIG. 7  is a logical representation of the possibly multiple physical repositories that may be implemented to support, inter alia, configuration, word catalog, calculation, etc. information. The physical repositories may be implemented through any combination of conventional Relational Database Management Systems (RDBMSs) such as Oracle, through Object Database Management Systems (ODBMSs), through in-memory Database Management Systems (DBMSs), or through any other equivalent facilities. 
         [0081]    An Administrator  728  provides management or administrative control over all of the different components of an AS through, as one example, a World Wide Web (WWW)-based interface  730 . It will be readily apparent to one of ordinary skill in the relevant art that numerous other interfaces (e.g., a data feed, an Application Programming Interface [API], etc.) are easily possible. 
         [0082]    Through flexible, extensible, and dynamically updatable configuration information a WorkFlow component may be quickly and easily realized to support any number of activities. For example, WorkFlows might be configured to support the receipt and processing of incoming (SMS, MMS, IM, etc.) messages; to support the calculation of probabilities (as, for example, described above in connection with the extended model); to support the generation and dispatch of outgoing alert, update, etc. messages; to support the generation of scheduled and/or on-demand reports; etc. The specific WorkFlows that were just described are exemplary only; it will be readily apparent to one of ordinary skill in the relevant art that numerous other WorkFlow arrangements, alternatives, etc. are easily possible. 
         [0083]    A SP may maintain a repository (e.g., a database) into which selected details of all administrative, messaging, processing, etc. activities may be recorded. Among other things, such a repository may be used to support: 
         [0084]    1) Scheduled (e.g., daily, weekly, etc.) and/or on-demand reporting with report results delivered through SMS, MMS, IMS, etc. messages; through E-mail; through a WWW-based facility; etc. 
         [0085]    2) Scheduled and/or on-demand data mining initiatives (possibly leveraging or otherwise incorporating one or more external data sources) with the results of same presented through visualization, Geographic Information System (GIS), etc. facilities and delivered through SMS, MMS, IMS, etc. messages; through E-mail; through a WWW-based facility; etc. 
         [0086]    Over time as ever more messages are presented to a SP the SP may continuously expand the depth and/or the breadth of its internal repositories, and consequently incrementally refine, improve, etc. the quality, etc. of its message review and other analytical activities. 
         [0087]    Returning to  FIG. 6  . . . the processing activities that are depicted under the designation Set  3 , Set  4 , and Set  5  might include possibly inter alia (via, among other things,  628 → 630 ): 
         [0088]    A) Retrieving an incoming message from an IQ. 
         [0089]    B) Extracting from a received message, and optionally validating/etc., various data elements including, inter alia, the SA (such as, for example, the source TN), the Destination Address (such as, for example, the destination TN), the message content or body, etc. 
         [0090]    C) Preserving various elements of the received message in a Messages database table. 
         [0091]    D) Updating a MS database table, as appropriate and as required, to ensure that an entry exists for the SA (such as, for example, the TN) of the message. 
         [0092]    E) Performing one or more analytical steps. The analytical steps may be realized through a combination of: 
         [0093]    i) Flexible, extensible, and dynamically configurable Workflows (as previously described) that implement the rules, logic, etc. for a range of methods (including, inter alia, statistical, keyword matching, stylistic, linguistic, heuristic, etc.) that implement the extended model—Pr(spam|words)=(Pr(words|spam)*Pr(spam))/(Pr(words))*AF—as described above. 
         [0094]    ii) Dynamically updateable data sources (including, possibly inter alia, the catalog of words and the catalog of common expressions/shortcuts/idioms/abbreviations/etc. that were described above). 
         [0095]    and may, among other things, optionally score, rate, rank, etc. the developed results; optionally augment the developed results with such things like demographic, geographic, etc. data; etc. 
         [0096]    F) Generating one or more indicators. Indicators may capture, inter alia, specific characteristics (such as ‘this message is spam’), patterns, traits, features, etc. 
         [0097]    G) Preserving one or more of the generated indicators in an Indicators database table. 
         [0098]    H) Leveraging a flexible, extensible, and dynamically configurable list of defined events (e.g, as maintained in an EventDefinitions database table) to generate one or more events. Events may include, inter alia, alerting one or more parties (such as, for example, a WC, a MICV, etc.) to the presence of a spam message through any combination of one or more channels such as SMS/MMS/etc. messages, E-mail messages, IM messages, data feeds; optionally blocking a spam message; etc. 
         [0099]    I) Depositing one or more of the generated events on an OQ. 
         [0100]    J) Preserving one or more of the generated events in an Events database table. 
         [0101]    K) Depositing, consistent with the generated indicator(s) and event(s), the incoming message on an OQ (for dispatch, e.g., first back to a MICV  614  [via  632 ] and then back to the appropriate WC  610 → 612  [via  634 → 636 ] for final delivery to the appropriate WD  602 → 604  and  606 → 608 ). For example, if an incoming message is not identified as spam then it may be deposited on an OQ. Alternatively, if an incoming message is identified as spam it may, depending upon previously-identified MICV and/or WC preferences, be blocked or dropped (and hence not deposited on an OQ). 
         [0102]    The catalog of processing steps that were described above are illustrative only and it will be readily apparent to one of ordinary skill in the relevant art that numerous other processing steps (such as, possibly inter alia, scoring, ranking, rating, etc. one or more of the generated indicators) are easily possible and indeed are fully within the scope of the present invention. For example: 
         [0103]    1) An incoming message that is identified as spam may optionally be ‘quarantined’ for, possibly inter alia, subsequent review (by representatives of a MICV, a WC, etc.). 
         [0104]    2) An incoming message that is identified as spam may optionally result in one or more outgoing (SMS, MMS, etc.) alert, notification, etc. messages (to, for example, one or more representatives of a MICV, a WC, etc.). 
         [0105]    3) For reasons of performance, one or more date/time-specific Training Windows may optionally be defined for, possibly inter alia, a WC, a MICV, etc. Incoming messages that are retrieved from an IQ may optionally bypass one or more of the processing activities that were described above (the specific steps to be bypassed being configurable within a Training Window) if the receipt of those messages lies outside of an applicable Training Window. 
         [0106]    4) Various of the elements that were described above might optionally be made WC-specific, MICV-specific, etc. 
         [0107]    5) An optional registration process may be provided (through, possibly inter alia, a WWW site, an exchange of SMS/MMS/etc. messages, an Interactive Voice Response [IVR] facility, an exchange of E-mail messages, etc.) by which, possibly inter alia, one or more representatives of a MICV, a WC, etc. may identify themselves, provide contact information, etc. 
         [0108]    It is important to note the exchanges that were described above (as residing under the designation Set  3 , Set  4 , and Set  5 ) are illustrative only and it will be readily apparent to one of ordinary skill in the relevant art that numerous other exchanges are easily possible and indeed are fully within the scope of the present invention. 
         [0109]    It will be readily apparent to one of ordinary skill in the relevant art that numerous alternatives to the arrangements that were described above are easily possible. 
         [0110]    The various alert, notification, report, etc. message(s) that were described above may optionally contain an informational element—e.g., a service announcement, a relevant or applicable factoid, etc. The informational element may be selected statically (e.g., all generated messages are injected with the same informational text), selected randomly (e.g., a generated message is injected with informational text that is randomly selected from a pool of available informational text), or location-based (i.e., a generated message is injected with informational text that is selected from a pool of available informational text based on the current physical location of the recipient of the message as derived from, as one example, a Location-Based Service (LBS)/Global Positioning System (GPS) facility). 
         [0111]    A SP may optionally allow advertisers to register and/or provide (e.g., directly, or through links/references to external sources) advertising content. 
         [0112]    The provided advertising content may optionally be included in various of the message(s) that were described above—e.g., textual material if an SMS model is being utilized, multimedia (images of brand logos, sound, video snippets, etc.) material if an MMS model is being utilized, etc. The advertising material may be selected statically (e.g., all generated messages are injected with the same advertising material), selected randomly (e.g., a generated message is injected with advertising material that is randomly selected from a pool of available material), or location-based (i.e., a generated message is injected with advertising material that is selected from a pool of available material based on the current physical location of the recipient of the message as derived from, as one example, a LBS/GPS facility). 
         [0113]    The message(s) that were described above may optionally contain promotional materials, coupons, etc. (via, possibly inter alia, text, still images, video clips, etc.). 
         [0114]    It is important to note that while aspects of the discussion that was presented above focused on the use of TNs, SCs, etc. it will be readily apparent to one of ordinary skill in the relevant art that other message address identifiers are equally applicable and, indeed, are fully within the scope of the present invention. 
         [0115]    The discussion that was just presented referenced several specific wireless messaging paradigms including SMS, MMS, IMS, etc. However, it is to be understood that it would be readily apparent to one of ordinary skill in the relevant art that other messaging paradigms are fully within the scope of the present invention. 
         [0116]    It is important to note that the hypothetical example that was presented above, which was described in the narrative and which was illustrated in the accompanying figures, is exemplary only. It is not intended to be exhaustive or to limit the invention to the specific forms disclosed. It will be readily apparent to one of ordinary skill in the relevant art that numerous alternatives to the presented example are easily possible and, indeed, are fully within the scope of the present invention. 
         [0117]    The following list defines acronyms as used in this disclosure. 
         [0000]    
       
         
               
               
             
           
               
                   
               
               
                 Acronym 
                 Meaning 
               
               
                   
               
             
             
               
                 AF 
                 Applicability Factor 
               
               
                 API 
                 Application Programming Interface 
               
               
                 AS 
                 Application Server 
               
               
                 CAN-SPAM 
                 Controlling the Assault of Non-Solicited Pornography and 
               
               
                   
                 Marketing 
               
               
                 CSC 
                 Common Short Code 
               
               
                 DB 
                 Database 
               
               
                 DBMS 
                 Database Management System 
               
               
                 DoW 
                 Day of Week 
               
               
                 E-mail 
                 Electronic Mail 
               
               
                 GIS 
                 Geographic Information System 
               
               
                 GPS 
                 Global Positioning System 
               
               
                 GW 
                 Gateway 
               
               
                 IM 
                 Instant Messenger 
               
               
                 IMS 
                 IP Multimedia Subsystem 
               
               
                 IP 
                 Internet Protocol 
               
               
                 IQ 
                 Incoming Queue 
               
               
                 IVR 
                 Interactive Voice Response 
               
               
                 LBS 
                 Location Based Services 
               
               
                 MICV 
                 Messaging Inter-Carrier Vendor 
               
               
                 MMS 
                 Multimedia Message Service 
               
               
                 MS 
                 Mobile Subscriber 
               
               
                 ODBMS 
                 Object Database Management System 
               
               
                 OQ 
                 Outgoing Queue 
               
               
                 RDBMS 
                 Relational Database Management System 
               
               
                 SA 
                 Source Address 
               
               
                 SC 
                 Short Code 
               
               
                 SF 
                 Sensitivity Factor 
               
               
                 SMS 
                 Short Message Service 
               
               
                 SP 
                 Service Provider 
               
               
                 TN 
                 Telephone Number 
               
               
                 ToD 
                 Time of Day 
               
               
                 WAP 
                 Wireless Application Protocol 
               
               
                 WC 
                 Wireless Carrier 
               
               
                 WD 
                 Wireless Device 
               
               
                 WF 
                 Weighting Factor 
               
               
                 WWW 
                 World-Wide Web