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Publication numberUS20050249335 A1
Publication typeApplication
Application numberUS 11/179,733
Publication dateNov 10, 2005
Filing dateJul 12, 2005
Priority dateJun 25, 1998
Also published asUS6011832, US6442246, US6954517, US20030063718
Publication number11179733, 179733, US 2005/0249335 A1, US 2005/249335 A1, US 20050249335 A1, US 20050249335A1, US 2005249335 A1, US 2005249335A1, US-A1-20050249335, US-A1-2005249335, US2005/0249335A1, US2005/249335A1, US20050249335 A1, US20050249335A1, US2005249335 A1, US2005249335A1
InventorsCarol Rice, Ronald Crumpler, John Downey
Original AssigneeRice Carol A, Crumpler Ronald D, Downey John D
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Multiple service announcement system
US 20050249335 A1
Abstract
A method for providing multiple calling service announcements on a single circuit card within a telephone network. The method reduces the number of stored speech files necessary to generate announcements regarding a calling service such as Automatic Call Back or Enhanced Repeat Dial. By reducing the amount of speech data stored on a circuit card, multiple calling service announcements can be provided on a single circuit card, thereby reducing equipment costs.
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Claims(21)
1-21. (canceled)
22. A system for telephonically communicating calling service announcements to users of calling services on a telephone network, said calling service announcement system comprising:
a card adapted for being operatively received within said telephone network;
a memory situated on said card and storing a number of speech files in which (i) at least one speech file contains at least one audio segment utile for composing at least one calling service announcement relating to a first calling service, and (ii) at least one speech file contains at least one audio segment utile for composing at least one calling service announcement relating to a second calling service; and
a controller adapted for electrical communication with said memory and operable, in response to calling service selections made by said users on said telephone network, to (i) selectively access said speech files stored in said memory, (ii) selectively sequence audio segments selected from said accessed speech files, (iii) selectively compose calling service announcements from said sequenced audio segments so that said composed calling service announcements relate to at least one of said first calling service and said second calling service according to said calling service selections made by said users, and (iv) telephonically communicate said composed calling service announcements to said users on said telephone network.
23. A calling service announcement system according to claim 22, wherein said telephone network includes a maintenance trunk module (MTM) shelf having a circuit card slot, and said card is adapted for occupying said circuit card slot within said maintenance trunk module (MTM) shelf.
24. A calling service announcement system according to claim 22, wherein said memory comprises a dynamic random access memory (DRAM).
25. A calling service announcement system according to claim 22, wherein said number of speech files is at least one.
26. A calling service announcement system according to claim 22, wherein each said audio segment includes at least one sound bite selected from the group consisting of a tone, a period of silence, and a human-intelligible word.
27. A calling service announcement system according to claim 22, wherein said first calling service is Automatic Call Back (ACB).
28. A calling service announcement system according to claim 22, wherein said second calling service is Enhanced Repeat Dial (ERD).
29. A calling service announcement system according to claim 22, wherein at least one speech file stored in said memory contains at least one audio segment utile for composing at least one calling service announcement relating to said first calling service and also at least one calling service announcement relating to said second calling service.
30. A calling service announcement system according to claim 22, wherein said controller comprises a programmable microprocessor.
31. A calling service announcement system according to claim 22, wherein said controller is situated on said card.
32. A calling service announcement system according to claim 22, said calling service announcement system further comprising a separate card adapted for being operatively received within said telephone network, wherein said controller is situated on said separate card.
33. A calling service announcement system according to claim 32, wherein said telephone network includes a maintenance trunk module (MTM) shelf having two circuit card slots in electrical communication with each other, said card is adapted for occupying one of said two circuit card slots within said maintenance trunk module (MTM) shelf, and said separate card is adapted for occupying the other of said two circuit card slots within said maintenance trunk module (MTM) shelf.
34. A calling service announcement system according to claim 22, said calling service announcement system further comprising a speech processor situated on said card and adapted for electrical communication with at least one of said memory and said controller.
35. A system for telephonically communicating calling service announcements to users of calling services on a telephone network, said calling service announcement system comprising:
a card adapted for being operatively received within said telephone network;
a memory situated on said card and storing a number of speech files in which (i) at least one speech file contains at least one audio segment utile for composing at least one calling service announcement relating to a first calling service, and (ii) at least one speech file contains at least one audio segment utile for composing at least one calling service announcement relating to a second calling service; and
a controller situated on said card, connected in electrical communication with said memory, and operable, in response to calling service selections made by said users on said telephone network, to (i) selectively access said speech files stored in said memory, (ii) selectively sequence audio segments selected from said accessed speech files, (iii) selectively compose calling service announcements from said sequenced audio segments so that said composed calling service announcements relate to at least one of said first calling service and said second calling service according to said calling service selections made by said users, and (iv) telephonically communicate said composed calling service announcements to said users on said telephone network.
36. A calling service announcement system according to claim 35, wherein said telephone network includes a maintenance trunk module (MTM) shelf having a circuit card slot, and said card is adapted for occupying said circuit card slot within said maintenance trunk module (MTM) shelf.
37. A calling service announcement system according to claim 35, wherein said number of speech files is at least one.
38. A calling service announcement system according to claim 35, wherein each said audio segment includes at least one sound bite selected from the group consisting of a tone, a period of silence, and a human-intelligible word.
39. A calling service announcement system according to claim 35, wherein said first calling service is Automatic Call Back (ACB).
40. A calling service announcement system according to claim 35, wherein said second calling service is Enhanced Repeat Dial (ERD).
41. A system for telephonically communicating calling service announcements to users of calling services on a telephone network, said calling service announcement system comprising:
a card adapted for being operatively received within said telephone network;
a memory situated on said card and storing a number of speech files in which (i) at least one speech file contains at least one audio segment utile for composing at least one calling service announcement relating to a first calling service, (ii) at least one speech file contains at least one audio segment utile for composing at least one calling service announcement relating to a second calling service, and (iii) at least one speech file contains at least one audio segment utile for composing at least one calling service announcement relating to said first calling service and also at least one calling service announcement relating to said second calling service; and
a controller situated on said card, connected in electrical communication with said memory, and operable, in response to calling service selections made by said users on said telephone network, to (i) selectively access said speech files stored in said memory, (ii) selectively sequence audio segments selected from said accessed speech files, (iii) selectively compose calling service announcements from said sequenced audio segments so that said composed calling service announcements relate to at least one of said first calling service and said second calling service according to said calling service selections made by said users, and (iv) telephonically communicate said composed calling service announcements to said users on said telephone network.
Description
CROSS-REFERENCE TO RELATED APPLICATIONS

This is a Continuation of U.S. patent application Ser. No. 09/104,552 filed on Jun. 25, 1998.

TECHNICAL FIELD

The present invention relates to telephone communication systems and particularly to automatic announcement systems adapted to be connected to telephone lines to provide for such services as Automatic Call Back and Enhanced Repeat Dial.

BACKGROUND OF THE INVENTION

Various services have become available with the development of communications technology. For example, in a telephone system, there are many services in practical use such as call forwarding, Automatic Voice Messaging (AVM), Automatic Call Back (ACB), Enhanced Repeat Dial (ERP), and Abbreviated Dialing (AD). These services are typically presented to users by recorded announcements. Recorded announcements for such calling services are formed from spoken words, phrases, tones or periods of silence stored in separate speech files. In response to a request for such calling services, various speech files are accessed in a predetermined order to generate a complete announcement which is then presented to the caller.

Telecommunications equipment vendors support such calling services by providing multiple speech files on circuit cards along with a microprocessor controller for accessing the speech files and generating announcements. The circuit cards provide link access to the front end of a digital phone network switch. An example of such a circuit card is the NT1×80AA Enhanced Digital Recorded Announcement Machine (EDRAM) card manufactured by Northern Telecom.

Commercially available circuit cards have several shortcomings, however. The circuit cards typically have announcement fragments stored in several separate speech files. In a typical announcement, portions of the several speech files must be accessed to form a complete announcement. A telephone company seeking to implement a particular calling service must purchase all of the speech files, even though many of the fragments within the speech files do not support the desired calling feature. Furthermore, due to limited memory space on the circuit cards, the resources of an entire circuit card can be exhausted in a typical implementation of a single calling service. Thus, for each calling service implemented by a telephone company, a dedicated circuit card must be purchased. In some instances, a separate controller card must also be programmed to retrieve and assemble complete announcements from the available speech files on the circuit cards. Considering a large telephone company with many central offices, circuit cards represent a substantial equipment investment.

SUMMARY OF THE INVENTION

It is a general object of the present invention to reduce the number and thus the cost of circuit cards for a telephone system. It is another object of the present invention to provide more than one communication service on a single circuit card.

It is also an object of the present invention to provide a circuit card with audio segments unique to two separate communication services, as well as segments common to both services. It is still another object of the present invention to provide a single circuit card with audio segments necessary to compose announcements for both Automatic Call Back and Enhanced Repeat Dial services.

These and other objects and features of the present invention will become apparent when viewed in light of the detailed description of the preferred embodiment when taken in conjunction with the attached drawings and appended claims.

The present system is directed to an improved announcement delivery system which overcomes these and other disadvantages of previous calling service systems. The method provides more than one communication service on a single circuit card by defining the groups of audio segments necessary to compose a complete announcement of the first communication service such as ACB (Automatic Call Back) and the second communication service such as ERD (Enhanced Repeat Dial). Once the announcement fragments are defined, they are stored on a single circuit card. The circuit card is then programmed to deliver, in response to a user selection of either the first or second communication service, a complete announcement for the respective service composed from the audio segments stored on the circuit card.

For a more complete understanding of this invention, reference should be made to the embodiment illustrated in greater detail in the attached specification and accompanying drawings.

In particular, the present invention has a number of important advantages. Specifically, the present invention provides an improved method of providing multiple calling services on a single circuit card.

Another advantage of the present invention is saving recording time by eliminating unnecessary verbiage within the speech files forming the calling service announcements. A further advantage of the present invention is increased speech file storage by the elimination of unnecessary speech files for unsupported calling service announcements.

Another advantage of the present invention is improved maintenance of the overall system due to the reduced number of components. Still another advantage of the present invention is the reduction of equipment necessary to implement multiple calling services, including a reduced number of circuit cards and maintenance trunk module slots.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a block diagram representing a prior art method of implementing multiple calling services on circuit cards;

FIG. 2 is a block diagram representing a telecommunication system structured according to the present method of combining multiple calling services on a single circuit card; and,

FIG. 3 is a flow diagram of the present method of implementing multiple calling service announcements on a single EDRAM card.

BEST MODES FOR CARRYING OUT THE INVENTION

Referring now to the drawings, FIG. 1 shows a known method of providing multiple calling service announcements such as for Automatic Call Back (ACB) and Enhanced Repeat Dial (ERD). Digital recorded announcement hardware consists of a speech processor, a microprocessor controller, and speech memory. Using Northern Telecom's equipment, for example, the prior art implementation of more than one calling service, such as ACB and ERD, required a 1×75AA/BA controller card 10 and four additional EPROM cards 12. A NT1×80AA EDRAM card 20 was also required because of the multi-tracked ERD announcement. The EPROM cards 12 contain speech memory comprising various phrases, tones, and periods of silence that are used to create a complete announcement. The controller card 10 can be programmed to select and retrieve the various phrases, tones and periods of silence from the speech memory of the EPROM cards.

The controller card 10, EPROM cards 12, and EDRAM card 20 each occupy a slot in the maintenance trunk module (MTM) shelf 14. In order to operate properly, however, the controller card 10, EDRAM card 20, and EPROM cards 12 must reside in the same MTM shelf 14. The MTM 14 contains slots for the circuit cards 10, 12 and 20. The circuit cards 10, 12, 20 provide link access to the front end of a digital telephone network switch. Because the controller card 10, EDRAM card 20, and the EPROM cards 12 must reside in the same MTM 14, the cards themselves and the space they occupy in the MTM 14 represent a significant equipment investment for a large regional telephone company.

FIG. 2 represents the equipment requirements for multiple calling services implemented according to the present invention. Again, using Northern Telecom's equipment as an example, announcements for multiple calling services can be provided with a single NT 1×80AA EDRAM card 20 occupying a single slot in a maintenance trunk module shelf 14.

The NT 1×80AA EDRAM card 20 contains dynamic random access memory that stores the announcement data such as phrases, tones and periods of silence. Again, as provided by the equipment vendor in a conventional manner, the announcement data resides in pre-recorded speech files. The present invention is an improved method of implementing calling service announcements on a single circuit card, such as a NT 1×80AA EDRAM card.

In order to provide multiple calling services on a single NT1×80AA card, the desired calling services must first be determined. Once the calling services are identified, the announcement fragments necessary to generate announcements regarding the desired calling service can be identified and prepared.

In one embodiment of the present inventive method, ACB and ERD were selected to be provided on a single NT1×80AA card. This is shown in the flow diagram of FIG. 3, as block 30. The first step requires an examination of the speech files offered by Northern Telecom as EPROM cards 12. These EPROM cards 12 provide the basis for constructing announcements offering the desired calling services of ACB and ERD. For example, the announcement fragments of one speech file contained in the NT1×76AJ EPROM card are shown in Table 1:

Total
Phrase Duration: Duration:
ID Seconds Seconds Content
000 1.024 1.024 (one second silence)
001 0.160 0.160 test tone: 750 Hz tone
002 0.512 Prompt tone: silence
0.096 750 Hz tone
0.032 silence
0.096 750 Hz tone
0.032 silence
0.096 750 Hz tone
0.128 0.992 silence
003 0.256 0.256 ¼ second silence
004 6.208 6.272 “We're sorry, the number
cannot be reached now by
this method. Please hang up
and try again later.”
005 7.680 7.74 “The last number that
called your line cannot
be given out. If you want
to call this number,
enter 1; otherwise, hang
up now.”
006 7.488 7.552 “We're sorry, the last
number that called cannot
be reached by this method.
Please hang up now and
call the number directly.”
007 2.848 9.952 “The last call to your
4.960 telephone cannot be
1.120 traced. Please consult
the introductory pages of
your telephone directory
for further instructions.
Please hang up now.”

From the available announcement fragments, a complete announcement can be constructed for ACB and ERD by identifying the data necessary to present the desired calling feature to a potential user. This is shown in FIG. 3 as block 40. Complete announcements are constructed by assigning address locations for each Phrase ID to enable the controller to select and process the announcement data to generate a complete announcement.

Once all of the necessary announcement fragments for ACB and ERD are identified, the remaining fragments in the speech files can be discarded. For example, a review of the available announcement fragments identified in Table 1 reveals that Phrase ID 007 does not relate to either ACB or ERD. Accordingly, Phrase ID 007 would be one announcement fragment to be eliminated from the speech files, as shown in block 50.

Thus, in the case of Northern Telecom's equipment, portions of the four speech files in EPROM cards 12 are necessary to support ACB and ERD, and the remaining announcement data within the four speech files can be eliminated. The portions of the four speech files in EPROM cards 12 necessary to support ACB and ERD can then be combined into a single set of speech files as shown in block 60.

Once the desired announcement fragments are recorded and stored on a single NT1×80AA EDRAM card, the announcements for ACB and ERD are constructed by assigning address locations for each announcement fragment, as shown in block 70. These assignments enable the controller to select and process the announcement data to generate a complete announcement.

Assignments are made on the NT 1×80AA EDRAM card using the DRAMREC command. The following is an example of the assign format for the NT 1×80AA:

DRAMREC
ASSIGN 4 SILENCE 2 2 3
ASSIGN 4 CLASSENG2 8 2 11
ASSIGN 4 CLASSENG7 3 2 9
.
.
.
ASSIGN 4 ENGJANUARY 1 5 57
ASSIGN 4 ENGFEBRUARY 1 5 58
.
.
.
ASSIGN 4 ENGNUM08 1 5 33
ASSIGN 4 ENGNUM09 1 5 34
ASSIGN 4 ENGAT 1 5 35
ASSIGN 4 ENGAM 1 5 36
ASSIGN 4 ENGPM 1 5 37
ASSIGN 6 BUSY2 2 0 4
ASSIGN 6 AM01 2 0 5
ASSIGN 6 AM02 2 0 6
ASSIGN 6 AM03 2 0 7
ASSIGN 6 AM04 2 0 8
ASSIGN 6 AM05 2 0 9
ASSIGN 6 BUSY1 2 0 10
QUIT

In the example format, the columns represent the assignment, DRAM position #, phrase name, phrase length in seconds, block number and phrase ID, respectively. Thus, the phrase name SILENCE may represent 0.25 seconds of silence, and the phrase names ENGAM and ENGPM represent the speech fragment for the phrases “a.m.” and “p.m.”, respectively. Other phases would be assigned for the days of the week and months of the year while numbers could be assigned for minutes, seconds and telephone numbers. Finally, speech fragments could be assigned for ACB and ERD. The speech fragments for ACB are contained in the CLASSENG files and the speech fragments for ERD are contained in the AMO files.

Because the speech data on the NT 1×80AA EDRAM card can be re-recorded, multiple calling services such as ACB and ERD could also be implemented on a customized single EDRAM card without regard to the existing speech files prerecorded by Northern Telecom. Thus, desired announcement fragments can be created and recorded on a single NT 1×80AA EDRAM card. This is shown in block 80. The same calling services would be provided as before. Specifically, address assignments for each announcement fragment would be made to enable the controller to generate a complete announcement.

From the foregoing, it will be seen that the new and improved method of provisioning multiple calling services on a single EDRAM overcomes the drawbacks associated with prior implementations of multiple calling service announcements. In particular, the described method greatly reduces the equipment necessary to implement such multiple calling service announcements.

While the invention will be described in connection with one or more embodiments, it will be understood that the invention is not limited to those embodiments. On the contrary, the invention includes all alternatives, modifications, and equivalents as may be included within the spirit and scope of the appended claims.

Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US7535922 *Sep 26, 2002May 19, 2009At&T Intellectual Property I, L.P.Devices, systems and methods for delivering text messages
US7903692May 15, 2009Mar 8, 2011At&T Intellectual Property I, L.P.Devices, systems and methods for delivering text messages
Classifications
U.S. Classification379/76, 379/387.01
International ClassificationH04M3/533, H04M3/487, H04M3/48, H04M3/424, H04M1/64, H04M11/00, H04M3/493
Cooperative ClassificationH04M3/4872, H04M3/424, H04M3/48, H04M3/4874, H04M3/487, H04M3/533, H04M3/493
European ClassificationH04M3/487, H04M3/487N, H04M3/493
Legal Events
DateCodeEventDescription
Apr 17, 2008ASAssignment
Owner name: AT&T KNOWLEDGE VENTURES, L.P., NEVADA
Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNORS:RICE, CAROL ANN;CRUMPLER, RONALD DALE;DOWNEY, JOHN DAVID;REEL/FRAME:020826/0163
Effective date: 19980723