Abstract:
A system for identifying and interacting with callers has: a telephone switch for receiving and distributing incoming calls; a messaging server for sending or receiving messages and attachments; and, a software routine for identifying wireless callers and for matching them to messages in the messaging server. The system is characterized in that upon receiving a call the system attempts to identify the call to a caller and of the caller is not already known in the system or identified an automated message is generated and sent to the caller asking for the desired information. In one embodiment the caller sends a message when the call is placed to optimize identification.

Description:
FIELD OF THE INVENTION  
       [0001]     The present invention is in the field of telephony communications, including public-switched telephony communications, Internet protocol telephony communications, and cellular telephony communications. The invention pertains particularly to a system for facilitating parallel data transfer into a communications center from a wireless caller.  
       BACKGROUND OF THE INVENTION  
       [0002]     In the field of telephony services communications centers also termed call-in centers are used by enterprises to service clients. An example of such a center might be a technical support group of a computer manufacturer where clients call in to gain technical assistance.  
         [0003]     State-of-art communications centers have connection to the well-known public-switched-telephony-network (PSTN) for receiving connection-oriented-switched-telephony (COST) calls. These centers also often have connection to the well-known Internet network, and perhaps connection to a variety of wireless telephone networks.  
         [0004]     In communication networks of today, calls handled between major communications carriers may be exchanged digitally, either as COST calls, or in some newer cases, as voice over Internet protocol (VoIP) or Internet protocol network telephony (IPNT), also termed data network telephony (DNT).  
         [0005]     One with skill in the art of modern telecommunications will appreciate that calls sourcing from anywhere in network or sub-network may be routed in between networks and connected to a destination in a network or sub-network in a seamless fashion as a dedicated connection or as a shared-bandwidth connection.  
         [0006]     In communications center architecture known to the inventor, telephone calls into the center may, in some cases, be intercepted at the network level and routed to individual agents within the center along with data about the call and caller. This may be accomplished by providing a separate data network accessible to the communications center and accessible to the local switch handling calls for the center. For example, a computer-telephony-integration (CTI) processor may be connected to the local telephony switch handling calls for the center. Interactive-voice-response (IVR) technology may also be provided to interact with a caller at the point of the switch to identify the caller and determine the purpose for the call.  
         [0007]     Within the communications center, a central office switch may also be enhanced with a CTI processor. The two CTI processors, one at network level, and one within the center, may be linked together via a separate data network. Using this technique, calls may be routed at the level of the network and data about the call and caller can be forwarded to an agent ahead of the actual call. Assuming the call is a PSTN incoming call, the target agent (the agent the call is routed to) can have data about the call and caller may appear on a computer display screen perhaps seconds before he or she answers the call.  
         [0008]     While this technology greatly enhances customer service for callers, it requires interaction with each caller via IVR or equivalent technologies and the supporting data network set-up between network level switches and the communications center. Moreover, if the caller is calling from a wireless network the amount of time translating the IVR interface and navigating a long menu or series of voice prompts may consume valuable minutes. Likewise, a wireless caller may have call blocking services wherein standard techniques for determining a source number for a call are not successful in revealing the caller&#39;s telephone number. In many of these cases, the only reference a destination has as to the ID of a caller is a virtual telephone number of a particular telephone carrier.  
         [0009]     What is clearly needed is a system and method for acquiring caller ID of a wireless caller without tying up the caller with lengthy pre-connect interaction before routing while still enabling agent access to ID and additional data about the caller.  
       SUMMARY OF THE INVENTION  
       [0010]     A system is provided for identifying and interacting with callers including a telephone switch for receiving and distributing incoming calls; a messaging server for sending or receiving messages and attachments; and, a software routine for identifying wireless callers and for matching them to messages in the messaging server. In preferred embodiments, the telephone switch is one of a private branch exchange or an automated call distributor. Also in a preferred embodiment, the messaging server generates and serves automated SMS messages.  
         [0011]     In one embodiment, the messaging server generates and serves automated e-mail messages, session initiated protocol (SIP) messages, or PCS-email messages. In one embodiment, the messaging server and the software routine execute on a single machine and the machine is one of an agent workstation or a telephony switch In an alternate embodiment of the invention, the telephone switch is connected at network level to another telephone switch using a data network separate from the telephone line.  
         [0012]     In one aspect, the software routine is distributed to the switch. Also in one embodiment, the software routine is called only to interact with wireless callers identified by the system.  
         [0013]     According to another aspect of the present invention, a software routine integrated with a CTI routine is provided for determining the existence of knowledge about a caller associated with an incoming call from the point of a communications center and includes, a first sub-routine for determining if a caller identification is known to the system; and, a second sub-routine for controlling an automated messaging server to interact with the caller.  
         [0014]     In this aspect of the invention the CTI routine determines the number identity of the incoming call and if the call is from a wireless caller. In one embodiment, the software routine is integrated with the CTI routine resident on a CTI processor. In a variation to this embodiment, the software routine is integrated with a CTI routine resident on a server having access to a CTI processor. In one aspect of the embodiment, the software routine of further includes a sub-routine or determining whether a call is from a wireless caller or not. In still another variation the software routine is integrated with IP routing software.  
         [0015]     According to another aspect of the invention, a method for interacting with a caller at a point of access to a communications center is provides and includes steps for (a) receiving an incoming call; (b) determining caller identification; (c) determining if existing data is available about the identified caller; (d) if data exists, retrieving the data associated with the identified caller; and (e) routing the retrieved data along with the call.  
         [0016]     In one embodiment, in step (a), the point of access is a local telephony switch in a telephone network. In another embodiment, the point of access is a central switch in a communications center. In still another embodiment the point of access is a web server. In one aspect of the method in step (b), determining caller identification is performed by a CTI software routine.  
         [0017]     In one embodiment, in step (b), if identification cannot be determined, an automated message is generated and sent to the caller during the session, the message asking for caller identification. In this aspect, the automated message is one of an SMS message, an SIP message, a PCS mail, or an e-mail message.  
         [0018]     In one aspect of the method, in step (c) a database is searched based on the caller identification. In this aspect, if no data is found, an automated message is generated and sent to the caller, the message asking for input data. In still another aspect in step (d) the data is retrieved by an IP routing software routine.  
         [0019]     In one aspect, in step (e) the data is pushed from the database to the target of routing. Alternatively, the data is pulled by the routing target, the target using a key previously generated and sent to the caller, the key subsequently sent to the routing target during the time of the call.  
         [0020]     In one aspect, in step (d) the data is an SMS message including any attachments queued in an agent station having connection with the caller, a caller providing the telephone number during interaction which is then used to access the message from queue.  
     
    
     BRIEF DESCRIPTION OF THE DRAWING FIGURES  
       [0021]      FIG. 1  is an architectural overview of a communications network practicing parallel data transfer into a communications center according to an embodiment of the present invention.  
         [0022]      FIG. 2  is a process flowchart illustrating steps for acquiring data for parallel transfer into the communications center according to an embodiment of the present invention.  
         [0023]      FIG. 3  is a block diagrams illustrating components of an IP/CIS server according to an embodiment of the present invention. 
     
    
     DESCRIPTION OF THE PREFERRED EMBODIMENTS  
       [0024]      FIG. 1  is architectural overview of a communications network  100  practicing parallel data transfer into a communications center  104  according to an embodiment of the present invention. Communications network  100  includes a public-switched-telephone-network (PSTN), a Data network  102 , and a wireless telephony and data network  103 . PSTN network  101  includes a local telephony switch (LS)  105 , and may also include, in one embodiment, a computer-telephony-integration (CTI) processor  106 . LS  105  may be an automatic call distributor (ACD), a public branch exchange (PBX), or any other suitable call switch. It is noted herein, that computer-telephony-integration is not required to practice the present invention.  
         [0025]     CTI processor  106  is, in this example, connected to LS  105  via a CTI link. CTI processor  106  provides intelligent enhancement to switch  105 , which may include call-routing intelligence. In one embodiment, no CTI processor is present. Also in one embodiment, CTI functionality may be included within a telephone switch such as LS  105 , which may be an ACD-type switch. Moreover, in cases of DNT, no CTI processor is required. In a most simple embodiment, ergo in most basic cases, simple caller ID (telephone number) may be used to link a call and a short message service (SMS) message or e-mail containing the telephone number in the header entirely in the agents PC. The inventor illustrates CTI functionality only as one possible embodiment that is available for interacting with callers.  
         [0026]     Data network  102  may be an Internet network, an intranet network, or another type of data network such as a private or corporate data network without departing from the spirit and scope of the present invention. In a preferred embodiment however the Internet network is exemplified because of its public-access characteristics. Hereinafter data network  100  and to may be referred to herein as Internet network  102 . Internet network  102  in this example includes an Internet backbone  118 . Internet backbone  118  represents lines, connection points, and equipment that make up the Internet network as a whole. A Web-server  117  is illustrated within Internet  102  and is connected to backbone  118 . Web server  117  is adapted to serve electronic information pages to clients of communications center  104  and might be a client access point, in one embodiment, so that clients may access communications center  104 . Although not illustrated in this embodiment, Internet  102  may have connection to PSTN  101  through a Bell core (SS-7) translation gateway or other translation gateway.  
         [0027]     LS  105  within PSTN  101  and WS  117  within Internet  102  have connection to a wireless gateway  120  within a wireless network  103  by way of trunks  123  and  124  respectively. Gateway  103  may be hosted by any wireless carrier providing services to wireless callers. Within a wireless network  103  two wireless towers are illustrated,  121   a  and  121   b . A client of wireless network  103  is illustrated by a wireless handset  122 . In this example client  122  is negotiating with gateway  120  or wireless tower  121   b . Wireless network  103  may be a cellular data network, a WIFI network or another type of wireless communications network.  
         [0028]     One with skill in the art of network communications will appreciate that more than one wireless gateway may be provided, and that dedicated processors may similarly be provided and may be used to handle data and calls or call data (in case of VoIP call delivery) separately. Also, rather than or additionally to WS  117 , a soft switch (not shown) may be present in the call center site to handle incoming VoIP calls. Links may be dedicated as shown (typical for SMS), or shared or by the way of public Internet (typical for e-mail or PCS mail), Inter Exchange Carriers etc.  
         [0029]     A communications center  104 , sometimes termed a call center, is illustrated in this example and is connected to both the PSTN  101  and to Internet  102 . A central office switch (CS)  110  is provided within communications center  104  and is connected to LS  105  within PSTN  101  by a telephony trunk  108 . CS  110  may be a PBX or another type of telephony switch. A CTI processor  109 , although not required, is provided in this example and is connected by a CTI link to CS  110 . Processor  109  has connection in this example with processor  106  within PSTN  101  by way of a separate data network  107 . Processor  109  enables intelligent routing routines and other client-interaction routines to be executed within PSTN  101  at the point of LS  105 .  
         [0030]     Communications center  104  is equipped with a local-area-network (LAN)  112 . LAN  112  connects to workstations  113   a ,  113   b , and  113   n  for communication and routing of messages and calls. Workstations  113   a - n  typically include computer and monitor capabilities, and capabilities for answering both IP and PSTN telephone calls within communications center  104 . In this example, telephones in workstations  113   a - n  may be connected to CS  110  by way of internal telephone wiring  111 .  
         [0031]     An Internet protocol/customer information system (CIS) server  116  is provided within communications center  104  and is connected to LAN  112 . Server  116 , among many other tasks, is adapted, in one embodiment, as an IP router capable of receiving IP communications from Internet  102  over data link  119 . Server  116  has a data connection  114  to CTI processor  109 . When a PSTN call is received at CS  110 , data about the call and caller is received at processor  109  and can be routed over LAN  112  to an appropriate workstation through link  114  and IP server  116 . Server  116  is also responsible, in this example, for serving customer and product information to agents operating workstations  113   a - n . A customer information system database (CIS)  115  is provided for the purpose of storing customer information, identification, account information, and so on. In this example CIS  115  has direct connection to server  116 .  
         [0032]     In one embodiment of the present invention, the functions of server  116  may be represented by a plurality of machines connected to LAN  112  instead of just one machine without departing from the spirit and scope of the present invention. In this example, the functions of IP routing, parallel data transfer, information serving, and automated messaging are all performed on machine  116 .  
         [0033]     In typical application with regard to normal client traffic within communications center  104 , PSTN callers access communications center  104  through LS  105 , and Internet caller&#39;s access communications center  104  through web server  117 . At the point of LS  105 , PSTN callers can be identified in typical telephony number identification protocols such as automated number identification (ANI) and destination number identification service (DNIS). In addition to caller identification, caller interaction is typically provided using IVR technology or some other intelligent peripheral. For each PSTN call incoming into switch  105  and destined for center  104 , the actual call is routed over telephony trunk  100  to CS  110  while the data about the call may be routed from processor  106  to processor  109  if, as in this case, CTI functionality is provided. Internet callers using messaging or IP telephony conventions access communications center  104  through web server  117  as previously described. IP calls, messages and data (forms and attachments) may be transmitted to IP server  116  over Internet link  119 .  
         [0034]     Client  122  calling into center  104  from network  103  may access, in some embodiments, either LS  105  or WS  117  in order to communicate with communications center  104  as long as the client is Internet-enabled. If client  122  accesses LS  105  and reaches an agent within communications center  104 , he or she will receive the same basic identification and interaction services as PSTN callers. However, mobile clients are not as easy to identify as tethered clients are. As was described further above, mobile callers often have blocked telephone numbers and may therefore, not be successfully identified at a point of interaction. Moreover, mobile clients may be roaming and therefore may be paying a higher price for communication with center  104 . Therefore, a mobile client may not wish to sit through a long IVR interaction before being routed to an available agent within communications center  104 . With respect to WS  117 , if client  122  has an IP telephony application and e-mail or instant message capabilities, he or she may connect to an available agent through Internet  102  bypassing PSTN  101  altogether. Still client  122  may have to pay for the wireless carrier portion of the access.  
         [0035]     In a preferred embodiment of the present invention, an instance of software (SW  116   a ) is provided to server  116  and is adapted to assist communications center  104  in identifying wireless callers and, if necessary, enabling a different mode of parallel data transfer from a wireless caller to a target agent within communications center  104 . SW  116   a  is adapted to interact with the wireless caller attempting to connect to communications center  104  through LS  105  or through WS  117 . In one embodiment of the present invention a version of SW  116   a  is provided on WS  117  as an instance of SW  117   a . In the latter case or WS  117  would be hosted by communications center  104  and would be a dedicated client access server.  
         [0036]     In one embodiment of the present invention routine  116   a , including version  117   a , can be used as an interaction option for land-based callers sourced from PSTN  101  or from Internet  102 . Such an option could be used to replace the IVR interaction option. The system may, however, be configured solely for wireless callers identified by the system because of the special problems wireless callers have with standard interaction services geared more for tethered callers. The system may identify wireless callers based on the difference in telephone number geographic prefix, or by deducing the routing path leading back to an identifiable wireless carrier node or service.  
         [0037]     In one embodiment where CTI software is available, CTI software is adapted to determine if an incoming call has been routed through or is being carried by a wireless service before calling routine  116   a . If not, normal IVR interaction and solicitation of additional data through IVR methods may be practiced according to technology known to the inventor.  
         [0038]     Software  116   a  provides intelligence to LS  105  within PSTN  101  by way of a separate data network link  114 , processor  109 , link  107  and processor  106 . The intelligence comprises a routine for acquiring the identification of a wireless caller and in the event the caller is not known to the system, acquiring further information from the caller in a fashion that is convenient to the caller. Software  117   a  is adapted to provide essentially the same intelligence routine versioned for wireless access protocol (WAP), or other HTTP-related wireless protocols.  
         [0039]     In practice of the present invention, client  122  may access gateway  120  through tower  121   b  and be ported into the PSTN network  101  over link  123  to switch  105 . LS  105  is provided with software-enabled intelligence to discern wireless callers from tethered callers. Tethered callers receive the typical IVR solution whereas a special routine is selected for wireless callers. If in practice, the wireless caller is already known to the system (having an identity and sufficient data stored) then no interaction is specifically required, and the caller may be immediately routed from switch  105  to switch  110  and an available agent over wiring  111 . In this embodiment, the caller may have an associated digital key, which may be used, by communications center  104  to access data about the identified caller from CIS  115  while the call is being routed.  
         [0040]     In one embodiment of the present invention, a wireless caller is not identifiable at the point of interaction in terms of caller ID (telephone number). In this case, the caller may simply send a short SMS message to the same destination number used to place the call. In this case, the SMS message provides the caller identification. The advantage of using SMS, unlike e-mail or some other messaging protocols is that it cannot be spoofed and therefore provides some authenticity that the number identified is actually that of the wireless caller.  
         [0041]     In one embodiment of the present invention identification of the caller is not specifically known to the system other than knowledge of the client&#39;s telephone number, which may also, as described above, in some cases not be available to the system. In a case where a caller&#39;s number may be identified but further information is not known, SW  116   a  may generate a short message service (SMS) request adapted for the purpose of obtaining additional identification and call-purpose information from the client sufficient so that the system can use to service the client. Such further identification and information may include, in some embodiments, data that is already stored on the client&#39;s device ( 122 ) that may be triggered for send when a SMS is received from the system. In other embodiments client  122  may receive an SMS from communications center  104  including a simple electronic form with which to add data to for a SMS reply to center  104 . Such a reply may include client identification and additional data required to enable the center to better serve the client.  
         [0042]     In a PSTN embodiment, the SMS path extends from client  122  through the network architecture to IP server  116 . In this case IP server  116  generates the automated SMS messages. However, software  116   a  may reside in either processors  109  or processor  106 , if CTI is present, including automated message capabilities. In one embodiment software  116   a  may reside in either CS  110  or in LS  105  or both. In some embodiments of the invention other types of messaging can be used in place of SMS such as e-mail, instant message, or session initiated protocol (SIP) messaging. In a preferred embodiment SMS messaging is used because it already identifies the client by telephone number and can be sent over the same data paths as the telephone call is self.  
         [0043]     In one embodiment of the present invention, the SMS path takes Route  124  through Internet  102  over link  119  to server  116  while the caller is waiting at switch  105 . When the system completes the routine and identifies the caller and any additional data required, the call may then be routed from LS  105  to CS  110  for distribution to one of workstations  113   a - n.    
         [0044]     In one embodiment of the invention an SMS path extends from client  122  through gateway  120  over link  124  and backbone  118 , to WS  117 . In this case, IP routing over LAN  112  to one of agents  113   a - n  includes data from CIS  115  and the actual IP call or live message. More detail about interaction capabilities of SW  116  is provided later in the specification.  
         [0045]     In yet another embodiment of the present invention, calls from wireless callers may be matched up with SMS or other messages by simply using caller ID (telephone number) either directly provided or solicited from the client at the agent station to pull SMS or other messages from a message queue, wherein the message header contains at least one element with the number of the caller (i.e. 14085551212@carrier-pcs.net), typically its address or SMS header.  
         [0046]     It will be apparent one with skill in the art that the system of the present invention can be implemented in conjunction with a PSTN or other telephone network, the Internet, an Intranet, or a corporate wide-area-network (WAN), accessible from a variety of wireless network carriers. It will also be apparent one with skill in the art that the functions of server  116   a  may be distributed to a variety of machines without departing from the spirit and scope of the present invention. Likewise, software  116  may be distributed in parts to various machines such as processors  109 ,  106 , gateway  120 , and WS  117 .  
         [0047]      FIG. 2  is a process flowchart illustrating steps for acquiring data for parallel transfer into the communications center according to an embodiment of the present invention. With respect to the embodiment described above, a method is provided and enabled by software  116   a  for verifying identification of wireless callers and, if necessary, acquiring additional data and having the data flow into the communications center in a parallel manner with the routed call.  
         [0048]     It is important to note herein that the process flow of this example may vary substantially without departing from the spirit and scope of the present invention. For example, a wireless caller may send an SMS message or other message in sync with a telephone call. The call can be routed according to destination number. The message may also be routed according to destination number. Interaction with the caller at the time of the call may then be used to solicit a caller&#39;s number, which may then be used to pull the message from a queue on the same station. The inventor provides the following example has just one possible example of routine flow.  
         [0049]     At step  200 , a local switch analogous to LS  105  in the embodiment described above receives an incoming call destined for a communications center analogous to center  104  of the same embodiment. Typically, the incoming call is bridged to a gateway such as gateway  120  also described with reference to  FIG. 1  above.  
         [0050]     At step  201 , the software determines if there is a caller ID accompanying the call. Typically, the caller ID would be a caller&#39;s cellular telephone number. If at step  201 , if there is no caller identification for the incoming call, then at step  202 , an automated SMS request is sent to the caller asking for identification such as a telephone number, or some other piece of identification that the system can use. In this case because there is no telephone number identifying the caller, the SMS message would be sent in real time over the same dedicated path used by the caller.  
         [0051]     In one embodiment, at step  200  interaction between and IVR or other automated is used to solicit the caller&#39;s telephone number. Moreover, in addition to SMS, e-mail, I am, or PCS-mail may be used instead in light of today&#39;s communications devices typically supporting a variety of messaging systems and protocols.  
         [0052]     At step  203  the caller sends a SMS reply revealing the telephone number or other piece of identification to identify the caller. In one embodiment of the present invention, the caller, upon receiving an SMS request for identity, is configured to automatically send an SMS reply containing a customer information services (CIS) key that can be used by the system to access the caller&#39;s data.  
         [0053]     If the incoming call of step  200  already has identification at step  201 , then at step  204  the system performs a lookup in a customer information system database such as CIS  115  of  FIG. 1  to determine if the caller is known to the system, such as having done business with the enterprise previously. The lookup task can be ordered from the distributed version of software local to the client access hardware and can be performed from within communications center  104  such as by server  116 .  
         [0054]     At step  204 , if the caller is not known even after caller ID has been provided, an automated SMS request is sent to the caller at step  205 . This SMS request may ask for additional information such as a stated purpose of the call, a preferred routing destination, or other information to help the center further process routing of the call. In one embodiment of the invention, the SMS sent at step  205  may include a Java applet or link that executes or loads at the client&#39;s end as a displayable, electronic form. The applet can source from server  116 , processors  109  or  106 , or from gateway  120  if enabled.  
         [0055]     According to another embodiment of the present invention instead of an SMS request for additional data, an e-mail, instant message, or SIP request may be sent instead. The latter case assumes that the wireless client analogous to client  122  can utilize voice and Internet access simultaneously.  
         [0056]     After receiving the SMS request at step  205  the client may provide the required data in an SMS reply at step  206 . After receiving data supplied by the client, the system again determines at step  204  if the caller is known. Presumably, after step  206  the system receiving the data about the caller may input such data into the current CIS database. At step  204 , if the caller is known to the system, then at step  207  the system may get data about the caller. The data may be retrieved from a CIS database such as CIS  115  of  FIG. 1 .  
         [0057]     Once the appropriate client data is gathered, it is sent at step  208  to the routing target of the call, typically an agent or automated service provided by the center. In the case of agent workstations  113   a - n  of  FIG. 1 , an agent would pick up the call from CIS  110  and would already have the data displayed on his or her computer monitor. At step  209  the actual call and data are merged at a merge point, presumably on the agent&#39;s computer, such that the data is physically associated with the caller at the time the call is answered.  
         [0058]     Once the call and data arrive at the routing target, the target may connect the voice call at step  210 . Wireless callers accessing communications center  104  through Internet  102  and web server  117  may also experience short messages being sent from communications center  104  in an attempt to acquire additional data. However, in this case the data may be merged as it travels over the same path and is eventually routed to the same terminal or target routing point.  
         [0059]     One with skill in the art will recognize that the process in this example may utilize a differing number or order of steps without departing from the spirit and scope of the present invention. For example, an SMS request sent at step  202  might request both identification and the additional data required in order successfully route the call thereby eliminating steps  205  and  206 . In another embodiment, instead of polling data at step  207  or sending data in step  208 , agents may subscribe to caller CIS keys such that when a caller sends a key the agent may use the key to pull the appropriate data about the caller. In a variation of this embodiment, a CIS key may be retrieved from the caller and used to unlock data in a CIS system, wherein the system pushes data to the appropriate agent. There are many possibilities.  
         [0060]      FIG. 3  is a block diagram illustrating components of IP/CIS server  116  of  FIG. 1  according to an embodiment of the present invention. Server  116  has a number of interfaces to outside systems in this example. These are a LAN interface  305 , a CIS interface  306 , a CTI interface  307 , and a Web interface  308 . In a preferred embodiment server  116  has a server bus illustrated logically herein as a bus structure  309 . Logical bus  309  connects all of the components with server  116  for communication internally as well as through interfaces  300  through  308 .  
         [0061]     Server  116  has a client identification/interaction routine  301 , which is analogous to software  116   a  described with reference to  FIG. 1 . Server  116  also has a Java applet server  300 , which is also capable of serving automated messages upon command. In a preferred embodiment of the present invention, component  301  interacts with Java applet server and automated messenger  300  according to switch notification of incoming wireless calls. Notification of incoming wireless calls is received through CTI interface  307 . When an incoming call is present in the system component  301  launches the routine described with respect to  FIG. 2  described above. Component  301  cooperates with component  300  to (if required) enable an automated SMS or other type of message including, possibly, a Java Applet carrying a form to better facilitate client provision of data.  
         [0062]     Server  116  has an instance of IP routing server  302  provided therein and adapted for routing incoming IP communications through LAN interface  305  two available agents. IP routing server  302  is also responsible, in one embodiment, for accessing data through CIS interface  306  and routing the data through LAN interface  305  two available agents in conjunction with incoming PSTN calls.  
         [0063]     Server  116  has a CTI routing software instance  303  adapted to communicate through CTI interface  307  two external CTI processors. Instance  303  may provide routing intelligence and exchange data with a local CTI processor connected to a local telephony switch as was described with respect to the architecture of  FIG. 1 .  
         [0064]     According to one embodiment of the present invention, server  116  has a CIS key generator  304  adapted to generate CIS keys for wireless callers, which may be stored on virtually in a cellular telephone. In this embodiment, client identification/interaction routine  301  may be used to retrieve a CIS key for wireless caller for use by server  116  in accessing the client&#39;s data. In this example server  116  provides all of the functionality of the present invention in terms of identification and parallel data transfer internally to available agents operating on a LAN. IP routing server  302  and CTI routing software  303  cooperate to insure that the correct data about a client is routed over the LAN to the agent that will receive the telephone call. This may be accomplished using any number of tagging means such as by providing the client identification number or code both to the call and to the additional routed data. In one embodiment, a lightweight client may be distributed to agent workstations, and the light client may function as a merge point for queued calls and associated data arriving at the workstations.  
         [0065]     It will be apparent one with skill in the art that the methods and apparatus of the present invention may be used in conjunction with any type of communications center whether it is CTI-enabled or void of CTI functionality and can receive and route data according to data packet or data frame technology. Such a communications center need not be a large communications center, but can be any type of enterprise center that minimally utilizes a call distributor and, in some embodiments, an IP router on an internal data network.  
         [0066]     The methods and apparatus of the present invention can be applied in a variety of communication environments and architectures and should therefore be provided the broadest scope under examination. The spirit and scope of the present invention should be limited only by the claims, which follow.