Abstract:
A method and system for sharing voice messaging support includes a voice messaging system coupled to a wireless network and wireline network. A given mailbox in the system can be shared between telephones on multiple ones of the networks in question. Once a message is received at the VMS, a message waiting indicator can be sent to the subscriber over both of the networks to which the subscriber subscribes.

Description:
BACKGROUND OF THE INVENTION 
     The present invention is directed to a method and apparatus for providing voice mail sharing between wireless and wired telephones. In particular, the present invention is directed to a method and apparatus for providing voice mail boxes for wired and wireless telephones whereby a single mailbox can be assigned to telephones associated with two different communication systems and a subscriber to the mailbox can be notified of a waiting message over both telephones associated with the mailbox. 
     Voice mail systems provide advantages in that they allow calling parties and called parties to communicate without establishing a call connection between the two parties. It is well known to provide voice mail capabilities in a wired telephone network. It is also known to provide such capabilities in connection with a wireless telephone network. 
       FIG. 1  is a block diagram representation of a wireless network in the prior art that provides voice mail services. A wireless telephone  112  communicates with a network  100  via wireless channels associated with base stations  109 ,  110 , and  111 . Each such base station is associated with a Mobile Switching Center (MSC)  106 ,  103 , and  101  respectively. These MSCs constitute switching points of the wireless communications network. Each MSC is coupled to a Signal Transfer Point (STP) such as elements  102 ,  105  and  104 . A voice mail system or voice messaging system (VMS) can be coupled to one of the MSCs, here, VMS  108  is coupled to MSC  106 . 
     Also in the network is a home location register (HLR)  107  associated with an MSC, here  106 , which keeps track of information regarding the wireless network subscribers. HLRs are well known and store information such as the subscriber&#39;s mobile identification number and the registration status of the mobile unit. It also contains information about services to which the mobile subscriber has subscribed. Furthermore, it provides information as to how to route calls to a roaming mobile party. 
     In the example of the prior art shown, assuming that the mobile unit  112  has associated with it a mailbox at VMS  108 , an incoming call to  112  can be directed to the VMS in accordance with the subscriber preferences set forth in the HLR,  107 . More particularly, a calling party may be forwarded to the VMS  108  when the mobile unit is turned off or not registered within the service area. In this circumstance, the calling party may leave a message with the voice messaging system in a known manner. The subscriber is subsequently provided with a message waiting indicator that informs the subscriber about the existence of a message in the voice mailbox. 
     In the past it has been a practice to provide voice messaging systems that were exclusively for either wired telephones or wireless telephones. 
     It would be advantageous to provide a voice messaging system which was integrated with wired and wireless telephones especially since many subscribers now subscribe to both wired and wireless services. It would also be beneficial to have a common mailbox for a party who subscribes to multiple services. 
     SUMMARY OF THE INVENTION 
     The invention provides a method and apparatus for providing integrated voice messaging service to wired and wireless telephones. More particularly, the invention provides a system and method by which a voice messaging system is coupled to both an end office in a wired network and an MSC in a wireless communication system. As a consequence, messages directed to wired telephones or wireless telephones can all be routed to the same VMS. 
     In addition, in accordance with an embodiment of the present invention, a subscriber who has both wired telephone service and wireless telephone service can be assigned a single mailbox that is associated with both services. Then, when a message is directed to the subscriber over either one of the two services, the message is stored in the voice mail system. Subsequently, the subscriber may be informed of the existence of the message by message waiting indicators provided over both the wireless and the wireline systems. 
    
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
         FIG. 1  illustrates a prior art messaging system. 
         FIG. 2  provides a block diagram illustration of a first embodiment of the present invention. 
         FIG. 3  provides a block diagram illustration of a second embodiment of the present invention. 
         FIG. 4  provides a block diagram representation of a third embodiment of the present invention. 
         FIG. 5  provides a call processing flow associated with an embodiment of the present invention. 
     
    
    
     DETAILED DESCRIPTION 
     In accordance with the invention a voice mail or voice messaging system is provided and coupled to two different types of networks. In the embodiment that follows those networks are a wired telephone network and a wireless telephone network. For example, as shown in  FIG. 2 , a VMS  208  is coupled to a wired telephone network via end office  202  and to a wireless network via mobile switching center (MSC)  203 . The end office  202  can conduct wired telephone communications with telephone  201  while MSC  203  can conduct wireless telephone communications with wireless telephone  112  via base station  211 . In accordance with the present invention, a given subscriber may subscribe to both the wireless network and to the wired telephone network, so that instruments  112  and  201  could belong to or be associated with the same subscriber. 
     In accordance with the present invention, the VMS provides a single mailbox for the subscriber which will receive messages directed to either one or both of the telephone instruments  112  and  201 . An example of a VMS that can provide this feature is the Octel VMS, known by the trade name as the Sierra, which provides, for a given mailbox, a primary identifier or telephone number and an alias identifier. Thus there are two access points to the mailbox. Further details regarding the coupling of the VMS to the wired and wireless networks will be described below. However, an overview of the operation of the system shown in  FIG. 2  will now be provided. 
     In particular, a call may be directed to the subscriber at telephone  201 . The subscriber may subscribe to a voice messaging system such that if the telephone  201  is already busy or does not answer within a prescribed time period, the call is forwarded to the VMS platform. There the calling party will be prompted in the normal fashion to provide a voice mail message. Alternatively, an attempt might be made to contact the subscriber via the wireless network at wireless device  112 . Similarly, if the device is not registered, is busy, or does not answer within some predetermined time period, the call may be routed to the VMS mailbox associated with the subscriber. In either instance, once a message is received, the VMS may send out a message waiting indicating signal to a subscriber to notify the subscriber about the existence of a message at the messaging platform. In one embodiment of the invention, the VMS sends such a notification over both networks substantially simultaneously. Alternatively, the protocol for sending notification could be adapted to first send a notification to the subscriber on the network which was originally contacted. That is, if the message at the voice message system had originally been directed to the wired telephone, then the voice mail system might first attempt to contact the subscriber with a message waiting indication signal via the wired telephone system. Then if after some time no response is received, the messaging system could attempt to contact the subscriber via the wireless system. Alternatively, the notification operation could attempt to contact the subscriber at the telephone instrument which was not the subject of the call. For instance, if the message in the mailbox is associated with a call directed to the wired telephone, then the VMS might first attempt to contact the subscriber via the wireless network. In either circumstance, if the first attempt to contact the subscriber is unsuccessful, then the VMS can forward a message waiting indication signal via the second network. 
     As a result of the configuration of the present invention, the voice mail server will provide integrated voice mail services for two networks of subscribers. The same VMS can provide voice mail service for wireless-only subscribers, voice mail service for local loop-only subscribers and bundled voice mail services for subscribers with both local loop and wireless services. 
     Further details regarding the coupling of the voice mail system to respective networks will now be provided. 
       FIG. 3  will be used to describe two embodiments of coupling the VMS system to both the wireless and the wired network. In  FIG. 3 , VMS  308  is coupled to the wireless environment by its connection to MSC  306 . Base station  309  can be coupled to MSC  306  for providing wireless communications to wireless telephones within a cell or cells associated with the base station. A home location register (HLR)  307  is also associated with the MSC  306  and maintains subscriber information regarding the wireless subscribers and the MSC service area. The connection to the wired network is via a hub end office  301  which can be coupled to a plurality of other end offices  302 ,  303 , and  304 . In one coupling configuration, each end office, including the hub end office, is connected to the VMS  308  through multi-line Hunt Group (MLHG) lines with signaling by a simplified message desk (SMDI) data link. Each MLHG line is associated with an SMDI link. 
     Alternatively, the hub end office can be coupled to the VMS  308  via MLHG lines with SMDI enhanced links. The coupling between the hub end office and other end offices is via ISUP trunks with message-waiting indicators provided on Signaling System 7 (SS7) out of band signals. 
     As for providing a message waiting indicator to the wire line subscribers, the system does so using the SMDI links. 
     As for the connection to the wireless subscribers, the interface between the VMS  308  and the MSC  306  can be via ISUP or R1 lines. For wireless subscribers, the system will send a message-waiting indicator to the MSC via the home location register element of the wireless network. The VMS system to HLR interface uses, for example, the Octel Command Language (OCL) protocol over X.25. The HRL sends the message-waiting indicator to the MSC using IS-41 TCAP messages over the SS7 network. The MSC then sends the NWI to the mobile station via the air interface protocol that is appropriate for the particular model of the mobile station, for example, IS-54B or IS-136. 
     The messaging system must be able to differentiate between the various types of in-coming calls. To do so the VMS may require information such as the calling party number, the forwarding number, and the reason why the call was routed to the messaging system. This call history information can only be passed to the messaging system by using the out-of-band signaling. In both of the embodiments described with respect to  FIG. 3 , information is passed to the VMS on MLHG lines with SMDI links. 
       FIG. 4  illustrates another embodiment for coupling the VMS  408  to the wired and wireless telephone systems. In this configuration the VMS acts as an adjunct to the MSC. All in-bound calls to the VMS are received via MSC  406 , which is associated with base station  409  and HLR  407 . The end offices, for example,  401 ,  402 ,  403 , and  404  will route calls to the VMS through the MSC. The MSC works like an access tandem switch with protocol interworking between the ISUP links of the end office and ISUP/MF links of the VMS. Outgoing message waiting indicator signals, however, can be provided from the VMS to the end offices using SMDI links or SMDI enhanced links. 
     Call history information for incoming calls is carried from a remote end office to the MSC through hub end office  401  over the SS7 network and from the MSC to the VMS through the ISUP/MF lines. The message waiting indicator is sent from the VMS to the hub end office via the SMDI enhanced link. If, however, the hub end office determines that the message waiting indicator is needed at a remote end office, that hub end office will reformat the message waiting indicator received from the SMDI link into a T-CAP message and will route that formatted message to the remote end office over the SS7 network. The remote end office maps the SS7 message waiting indicator message to the appropriate subscriber line to indicate message waiting status. This system could be modified in that if SMDI enhanced links are not available then SMDI links to individual end offices could be used to deliver message waiting indicators to those end offices directly without necessarily passing the information through the hub end office. 
     Thus, the VMS of the described embodiments must provide an interface to both the wired and wireless network. Thus, where for instance, the Octel VMS is used, Octel command language can be utilized to create an appropriate interface to permit coupling to the MSC to provide message waiting indication. 
       FIG. 5  illustrates a process flow diagram with respect to utilizing the system of the present invention. A message may be received by the VMS from either the wired or wireless network, step  500 . The VMS then identifies an intended recipient, step  501 . The message is then stored in the appropriate mailbox, step  502 . A message waiting notification flag can then be set with respect to that mailbox, step  503 . Finally, in one embodiment the system can launch message waiting notifications to all stations associated with the mailbox, step  504 . The launching of these notifications can either be substantially simultaneous or could follow one of the notification modes described above, that is, one notification could be sent out on a first network followed by a second notification on a second network at some later time or if some pre-condition is satisfied. 
     As a result of the construction of the system of the above-described invention, subscribers to a plurality of networks can receive messages regardless of which system device was the originally intended recipient of a message. The configuration also allows the service provider to integrate the provision of services to wireless and wireline subscribers.