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Claims  |
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I claim:
1. A method of processing an 800 number telephone call in an 800 number
customer's system, the customer's system having a plurality of phones
associated with 800 number destination phone numbers, the plurality of
phones, being managed by a digital switch, the customer's system further
including a customer's Host processor coupling to the digital switch, the
customer's system further including, means for bidirectionally coupling
the customer's Host processor to an 800 number network provider Host
processor, the method comprising the steps of, in response to a caller
dialing an 800 telephone number:
(a) transmitting from the 800 number, network provider Host processor to
the customer's Host processor information expressive of the occurrence of
the caller having dialed the number, 800 number;
(b) determining at the customer's Host processor an action to be taken in
response to the caller having dialed the 800 number;
(c) transmitting from, the customer's Host processor to the network
provider's Host processor information expressive of the determined action
to be taken in response to the caller having dialed the 800 number; and,
if the customer's Host processor does not transmit the information
expressive of the determined action within a predetermined interval of
time the method includes a step of transmitting from the network
provider's Host processor to the customer's Host processor default
information including an indication that the network provider's Host
processor has provided a default destination telephone number associated
with the 800 number.
2. A method as set forth in claim wherein the first step of transmitting
includes a step of sending a first data packet from the network provider's
Host processor to the customer's Host processor, the first data packet
being comprised of data fields expressive of a least:
(a) an identification of the caller;
(b) the 800 number dialed by the caller; and
(c) a reference number.
3. A method as set forth in claim 2 wherein the data packet is sent over a
Signalling System 7 communications link.
4. A method as set forth in claim 3 wherein the step of sending includes a
step of receiving the data packet with the interface means, the interface
means being interposed between the host processor and the Signalling
System 7 communications link.
5. A method as set forth in claim 2 wherein the caller's identification is
sent by sending the caller's billing telephone number.
6. A method as set forth in claim wherein the first step of transmitting
includes a step of sending an identification of the caller and wherein the
step of determining includes a step of accessing a data base associated
with the customer's Host processor, the data base being accessed in
accordance with the caller's identification.
7. A method as set forth in claim 1 wherein the step of determining
includes a step of determining whether to accept or deny the call based at
least in part upon call load balancing considerations.
8. A method as set forth in claim 1 wherein the first step of transmitting
includes a step of sending an identification of the caller,. and wherein
the step of determining includes a step of determining whether to accept
or deny the call based at least in part upon the caller's identification.
9. A method as set forth in claim 1 wherein the step of determining
includes a step of determining a destination phone number to which to
connect the caller.
10. A method as set forth in claim 1 wherein the first step of transmitting
includes a step of sending an identification of the caller and wherein the
step of determining includes a step of determining a destination phone
number to which to connect the caller based at least in part upon the
caller's identification.
11. A method as set forth in claim 9 wherein the second step of
transmitting includes a step of sending a second data packet from the
customer's Host processor to the network provider's Host processor, the
second data packet being comprised of data fields expressive of at least:
(a) the destination phone number; and
(b) the reference number.
12. Apparatus for processing an 800 number telephone call at an 800 number
customer's phone system, the customer's phone system having a plurality of
phones associated with 800 number destination phone numbers, the plurality
of phones being managed by a digital switch means, the system further
including a customer's Host processor coupled to the digital switch, the
system further including an interface means for bidirectionally coupling
the Host processor to an 800 number network provider Host processor, the
apparatus comprising:
means for receiving from the 800 number network provider Host processor
information expressive of the occurrence of a caller having dialed an 800
telephone number;
means for determining at the customer's Host processor an action to be
taken in response to the caller having dialed the 800 telephone number;
means for transmitting from the customer's Host processor to the network
provider's Host processor information expressive of the determined action
to be taken in response to the caller having dialed the 800 telephone
number; and
means, responsive to the customer's Host processor not transmitting the
information expressive of the determined action within a predetermined
interval of time, for transmitting from the network provider's Host
processor to the customer's Host processor default information including
an indication that the network provider's Host processor has provided a
default destination telephone number associated with the 800 number.
13. Apparatus, as set forth in claim 12 wherein the network provider's Host
processor includes means for performing the determined action in response
to the network provider's Host processor receiving the information
expressive of the determined action.
14. Apparatus as set forth in claim 12 wherein the received information
comprises a first data packet having data fields expressive of a least:
(a) an identification of the caller;
(b) the 800 number dialed by the caller; and
(c) a reference number.
15. Apparatus as set forth in claim 14 wherein said receiving and said
transmitting means comprise means for interfacing to a Signalling System 7
communications link and wherein the data packet is transmitted over the
Signalling System 7 communications link.
16. Apparatus as set forth in claim 12 wherein the received information
includes an identification of the caller, the apparatus further comprising
data base means associated with the customer's Host processor, the data
base means being accessed in accordance with the caller's identification.
17. Apparatus as set forth claim 14 wherein the means for determining
includes means for determining at least a destination phone number for the
800 number call and wherein the transmitting means includes means for
transmitting a second data packet from the customer's Host processor to
the network provider's Host processor, the second data packet being
comprised of data fields expressive of at least:
(a) the destination phone number; and
(b) the reference number.
18. Apparatus as set forth claim 17 wherein the means for determining
includes means for determining at least whether to deny the dialed 800
number call or whether to determine a destination phone number for the 800
number call, and wherein the second data packet further includes a data
field expressive of the 800 number call being denied by the determining
means.
19. Apparatus as set forth in claim 15 wherein said interfacing means
comprises processor means having Signalling System 7 interface means, the
processor means further having means for bidirectionally coupling the
processor means to the customer's Host processor for transmitting
information thereto and for receiving information therefrom.
20. A method of processing a telephone call of the type in which a called
party assumes responsibility for payment of a call made to a specific
telephone number, the called party having a phone system having a
plurality of phones associated with destination phone numbers, the
plurality of phones being managed by a digital switch, the system further
including an interface means for bidirectionally coupling the called
party's system to a network provider's system, the method comprising the
steps of, in response to a caller dialing the specific telephone number:
(a) sending from the network provider s system to the called party's system
first information units expressive of the occurrence of the caller having
dialed the specific number, the first information units including
an identification of the caller; and
the specific telephone number dialed by the caller;
(b) determining with the called party's system an action to be taken in
response to the caller having dialed the specific telephone number; and
(c) returning from the called party's system to the network provider's
system second information units expressive of the determined action to be
taken in response to the caller having dialed the specific telephone
number, the second information units including
a destination phone number; and,
(d) sending from the network provider s system to the called party's system
third information units, the third information units including
an action taken by the network provider's system, wherein
the action taken information indicates that the called party's system has
not returned the second information units within a predetermined interval
of time and wherein the third information units include a default
destination telephone number supplied for the caller by the network
provider's system.
21. A method as set forth in claim 20 wherein the second information units
further include a call status indication for indicating that the called
party's system has determined to deny the call or has determined to accept
the call.
22. A method as set forth in claim 20 wherein the first information units,
the second information units and the third information units all include a
call reference identifier. |
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Claims |
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Description |
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FIELD OF THE INVENTION
This invention relates generally to telephony method and apparatus and, in
particular, relates to method and apparatus for providing an enhanced 800
number service locally with an 800 number customer's on-premise host
computer.
BACKGROUND OF THE INVENTION
Traditional 800 number phone service is supplied by a network provider to
allow billing to be assumed by the called party. Typically, upon detecting
an 800 number the network provider host computer communicates with an 800
server host via a Signalling System 7 (SS7) link that is external to and
separate from normal voice links. The 800 server host maintains a data
base of destination phone numbers that correspond to 800 numbers in order
to look-up the corresponding destination phone number from the 800 number.
In addition, the 800 server host data base includes information relating
to destination phone numbers also as a function of time of day,
geographical region of the originating call, etc. For example, an 800
number call placed between nine and five from Oregon to a catalog ordering
number may be routed to a catalog ordering office in California. Another
call to the same 800 number and at the same time but made from Delaware
may be routed to a catalog ordering office in New Jersey. However, the
same 800 number call placed at, for example, ten P.M. local time from
either Oregon or Delaware may be routed to a catalog ordering office in
Chicago, the Chicago office being the only office that is staffed 24 hours
a day.
While providing the 800 number customer with a significant degree of
flexibility and convenience the conventional 800 number call processing
approach described above also presents several limitations. One such
limitation is that the conventional 800 number call processing approach
does not provide for a dynamic allocation of a destination phone number or
phone numbers. For example, due to call overloading at one office or at
one agent within an office it may be desirable to temporarily route
further incoming 800 number calls to a different destination phone number.
Another limitation is that the conventional 800 number call processing
approach does not provide a capability to allocate a destination phone
number based upon a caller's identity, as determined via Automatic Number
Identification (ANI) from the caller's telephone number at the destination
site.
It is therefore an object of the invention to provide a method and
apparatus for enhancing 800 number call processing at an 800 number
customer's site.
It is another object of the invention to provide a method and apparatus for
performing a dynamic allocation of destination phone numbers corresponding
to an 800 number, the allocation being based upon such criteria as call
loading or upon the identity of a caller as determined from the caller's
telephone number and the 800 number called for service.
It is another object of the invention to provide a method and apparatus for
denying at an 800 customer's site a pending 800 number call, the pending
800 number call being denied based upon criteria such as call loading or
the identity of a caller as determined from the caller's telephone number.
SUMMARY OF THE INVENTION
The foregoing limitations are overcome and the objects of thee invention
are realized, by apparatus and method for processing an 800 number
telephone call at an 800 number customer's phone system. The customer's
phone system is of a type that includes a plurality of phones associated
with 800 number destination phone numbers. The plurality of phones are
managed by a digital switch, such as a CBX. The system further includes a
customer's Host processor coupled to the digital switch. The customer's
Host processor includes memory for storing data structures and application
programs, including a data base of caller's billing numbers and possibly
other data for identifying 800 number callers. The system further includes
an interface bidirectionally coupling the Host processor to an 800 number
network provider Host processor. In accordance with the invention the
system further includes apparatus for receiving from the 800 number
network provider Host processor information expressive of the occurrence
of a caller having dialed an 800 telephone number. The system further
includes apparatus for determining at the customer's Host processor an
action to be taken in response to the caller having dialed the 800
telephone number. The system also includes apparatus for transmitting from
the customer's Host processor to the network provider's Host processor
information expressive of the determined action to be taken in response to
the caller having dialed the 800 telephone number. The information
received by the customer's Host processor includes an identification of
the caller as provided by the caller's billing telephone number. The
determined action may be to deny or to accept the call. If the call is
accepted the system determines a destination phone number that is provided
to the network provider's Host processor for transmission to the caller's
local Host processor.
As such, the invention provides for an on-site 800 number customer-made
determination of a further action to be taken in response to a caller
dialing an 800 number associated with the 800 number customer. This
further action may include denying an acceptance of the call based upon
the caller's identity or upon call load factors. The further action may
instead include the determination of a destination phone number based on
such factors as load balancing considerations or upon the caller's
identity.
BRIEF DESCRIPTION OF THE DRAWING
The above set forth and other features of the invention will be made more
apparent in the ensuing Detailed Description of the Invention when read in
conjunction with the attached Drawing, wherein:
FIG. 1 is a block diagram illustrating major functional blocks of a
telephony system embodying the invention;
FIG. 2 is flow chart illustrating steps of a method of the invention;
FIG. 3 illustrates a format of a data packet that is transmitted from an
800 number Network Provider's Host to the customer's Host;
FIG. 4; illustrates a format of a data packet that is transmitted from the
customer's Host to the Network Provider's Host; and
FIG. 5 illustrates a format of a data packet that is transmitted from the
800 number Network Provider's Host to the customer's Host in response to
the transmission of the packet illustrated in FIG. 4.
DETAILED DESCRIPTION OF A PREFERRED EMBODIMENT OF THE INVENTION
The ensuing description of the invention is made in the context of a system
employing well-known "800" type phone numbers. It should be realized
however that the invention can be practiced with telephone numbers having
other than this specific prefix. That is, the invention can be practiced
with other telephone numbers that allow a called party to assume the
billing for the call. As such, references to 800-type telephone numbers
made below are to be construed broadly to encompass other than this
specific prefix.
FIG. 1 illustrates in block diagram form a telephony system, in particular
a Call Management Control System (CMCS) 10 that embodies the teachings of
the invention. System 10 in a presently preferred embodiment of the
invention includes an 800 number customer's host processor (Host) 12
coupled via a Logical Unit (LU) 6.2 interface to a digital switch, such as
a Computerized Branch Exchange (CBX) 14. Particularly suitable apparatus
that embodies these functional blocks is described in detail in commonly
assigned U.S. Pat. No. 4,805,209, issued Feb. 14, 1989. The disclosure of
U.S. Pat. No. 4,805,209 is incorporated by reference herein in its
entirety. Although the ensuing description is made in reference to a
hardware and; software system as described in U.S. Pat. No. 4,805,209 it
should be realized that the teaching of the invention is not limited for
use with only such a system and that, instead, the teaching of the
invention is applicable to a large number of possible hardware and/or
software embodiments. An 800 number customer as used herein is intended to
encompass individuals or other entities that assume responsibility for
payment for telephone calls made to a specific 800 telephone number.
The Host 12 may be a type of IBM System/370 processor, a description of
which is found in a document entitled "S/370 Reference Summary,
GX20-1850", published by the International Business Machines Corporation.
While the Host 12 in a presently preferred embodiment of the invention is
embodied in a S/370 processor it should be realized that the invention can
be practiced with other mainframes, minicomputers and microprocessors.
The CBX 14 may be a CBX known in the art as a ROLM CBX II 9000, a
description of which is found in a document entitled "ROLM CBX II 9000
Business Communications System", published by the ROLM Corporation (1986).
It should be realized however that the invention can be practiced with
other varieties of CBX equipment.
The LU 6.2 communication link between the Host 12 and the CBX 14 is a
standard System Data Link Control (SDLC) communication link that
corresponds to the LU 6.2 standard. A detailed description of a LU 6.2
communication link and a description of how to implement a program
interface to conform with this standard is provided in the following
documents published by the International Business Machines Corporation:
"Systems Network Architecture: Sessions Between Logical Units, GC20-1868"
and "SNA Transaction Programmer's Reference Manual For LU 6.2, GC30-3084".
In other embodiments of the invention the link between the Host 12 and the
CBX 14 may be other than a communication link that conforms to the LU 6.2
standard.
As described in U.S. Pat. No. 4,805,209 there are coupled to Host 12 a
plurality of user interface terminals, shown herein as terminals 16 (TERM
l through TERM m). Coupled to CBX 14 are a plurality of phones, shown
herein as phones 18 (PHONE 1 through PHONE n). Also coupled to CBX 14 is a
phone trunk (not shown) containing voice-carrying signal lines. At least
some of the phones 18 are associated with 800 number destination telephone
numbers. That is, at least some of the phones 18 are associated with
telephone numbers into which a particular 800 number is translated.
In accordance with the invention system 10 is further provided with an
interface communication link 24 to an 800 number Network Provider's Host
computer 26. In a presently preferred embodiment of the invention the link
24 is a Signalling System No. 7 (SS7) communication link that is coupled
to the Host 12 via a SS7 Server 22. In a presently preferred embodiment of
the invention the SS7 Server 22 is a stand alone computer such as an IBM
PS/2 computer. A communication link 20 such as a RS-232C communication
link bidirectionally couples the SS7 Server 22 to the Host 12. SS7 Server
22 includes circuitry and software to interface with the SS7 communication
link 24 to transmit information to and receive information from the 800
number Network Provider's Host computer 26. Signalling System No. 7 was
defined by C.C.I.T.T. Study Group XI during the study period 1976-80
resulting in a specification of the No. 7 common channel signaling being
approved by the C.C.I.T.T.'s plenary assembly in November 1980. The
characteristics of the Signalling System No. 7 are set forth in C.C.I.T.T.
Document AP VII No. 18-E: Specification of the C.C.I.T.T. Common Channel
Signalling System No. 7: July, 1980. The invention is however not to be
construed to be limited for use only with a SS7-type communication link.
Network Provider's Host 26 is typically located at some distance from the
SS7 Server 22 while the Host 12, CBX 14 and SS7 Server 22 are typically
located in substantial proximity one to another on-site at an 800 number
customer's premises. From the link 24 the SS7 Server 22 receives
information relating to pending 800 number calls and to the link 24 is
transmitted information related to such calls, as will be described in
detail below. It should be realized that in other embodiments of the
invention that the functionality of the SS7 Server 22 may be included
within the Host 12. Further in accordance with the invention the Host 12
is coupled to a data base 12A, the data base 12A containing information
for relating caller's billing numbers, that is a caller's identification
or ID, with destination phone numbers. This aspect of the invention is
described in detail below. The data base 12A is typically maintained
within the memory of the Host 12 along with other data structures and
application programs, including a program or programs operable for
realizing the method of the invention.
Referring now to FIG. 2 there is shown in flowchart form the interaction
between the customer's Host 12, SS7 Server 22 and the 800 number Network
Provider's Host 26. A caller dials an 800 number and the request for 800
number service is transmitted in a conventional manner via a SS7
communication link from the caller's local switching element (not shown)
to the 800 number Network Provider's Host 26 (block 30). In a conventional
800 number processing system the Network Provider's Host 26 determines,
from a data base, a destination number corresponding to the 800 number and
returns the destination number via the SS7 communication link to the
caller's local switching element for further call processing.
In accordance with the invention at block 32 the Network Provider's Host 26
instead sends via the SS7 link 24 and the SS7 Server 22 to the Host 12 a
communications packet 32A. The packet 32A indicates that a caller has
dialed an 800 telephone number associated with the customer. As shown in
FIG. 3 the communications packet 32A includes data fields expressive of at
least the caller's identification, that is the caller's billing phone
number, the 800 number dialed and a call reference number. The SS7 Server
22 receives the data packet 32A and transmits same via communication link
20 to Host 12.
At block 34 the customer's Host 12 accesses the data base 12A and makes a
determination as to whether to deny or to accept the 800 number call. As
will be described later this determination may be based on a number of
criteria such as whether the caller should be denied for a security reason
or for some other reason. The customer's Host 12 maintains within the data
base 12A caller phone numbers such that the caller's phone number,
previously received from the Network Provider's Host 26 within data packet
32A, can be compared against the database of stored telephone numbers. If
a decision is made to deny the call at block 36 the Host 12 sends to the
Network Provider's Host 26 via the SS7 Server 22 a message, the format of
which is described in detail below, that the call is denied. Thereafter,
at block 38, the call is denied by the 800 number Provider's Host 26 to
the caller's local switching element (not shown). This denial is
consistent with current denial practices such as a recording spoken to the
caller indicating that this 800 number is not accessible by the caller or
such as by an error tone.
Returning to block 34 if a decision is made to accept the incoming 800
number call the method transfers to block 40. At block 40 the Host 12
makes a determination of a destination phone number, that is, the identity
of one of the phones 18 for answering the impending 800 number call. This
determination is made based in part on the previously provided caller's ID
in conjunction with data base 12A. A number of criteria may be employed at
this step in order to influence the determination of the destination phone
number. As will be described in detail below these criteria may relate to
system call loading, a contractual agreement with the caller as to a
particular grade of service, etc.
At block 42 the customer's Host 12 returns to the 800 network Provider's
Host 26,, via the SS7 Server 22 a data packet 42A having data fields
expressive at least of the determined destination phone number, the call
reference number previously provided and a call status indicator. The
format of this returned data packet 42A is shown in FIG. 4. As can be
seen, the call reference number enables the Network Provider's Host 26 to
associate the received destination phone number with a previously sent 800
number. The call status field contains a response code whereby the Host 12
indicates, by example, that the packet 42A is to receive normal processing
by the Host 26 or that the 800 number call is denied. Normal processing
being indicated causes the Host 26 to return the Host 12 determined
destination phone number to the caller's local switching element (not
shown). Call denial being indicated may cause, for example, the Host 26 to
provide a busy tone or cause a recorded message to be played for the
caller. The content of the destination phone number field may be ignored
by the Host 26 when the call status field indicates that the call is
denied.
At block 44 the Network Provider's Host 26 processes the 800 number call to
direct the call to the returned destination phone number. That is, the
destination phone number is returned in a conventional manner to the
caller's local switching element (not shown). Also at block 44 the Host 26
preferably returns an acknowledgement data packet to the Host 12, such as
the packet 44A shown in FIG. 5. Acknowledgement data packet 44A includes a
data field for the call reference number and a data field for indicating
the disposition of the 800 number call. For example, the call disposition
indicates that the Host 12 determined call destination number was
successfully returned to the caller's local switching element. This data
field may also indicate that a predetermined time-out expired, due to
non-response by the Host 12, and that the Host 26 instead processed the
800 number call request by conventional methods to return a default
destination number to the caller. In accordance with this latter
indication the Host 26 may also provide an additional data field for
informing the Host 12 of the identity of the default destination number
provided for the caller.
As can be realized, the Network Provider's Host 26 is modified to
communicate in the manner described above with the Host 12 via the SS7
communication link 24. This additional functionality of the Network
Provider's Host 26 is readily provided by computer software change.
Furthermore, the Network Provider's Host 26 is preferably modified such
that it has knowledge of which 800 number customers have the system 10 of
the invention installed. For those 800 number customers not having the
system 10 of the invention the Network Provider's Host 26 operates in a
conventional manner to determine destination telephone phone numbers. The
modification may be readily achieved by modifying the Network Provider's
Host 26 data base to indicate which 800 number customers have the system
10 of the invention installed. Preferably the Network Provider's Host 26
operates such that if the response at block 42 is not received from the
customer's Host 12 within some predetermined time-out interval the Network
Provider's Host 26 defaults to the conventional method of determining the
800 number from the Network Provider's Host 26 own data base of default
destination phone numbers. This time-out period may be typically six to
eight seconds. This latter functionality provides for a backup capability
for those instances when the Host 12 is off-line.
Further in accordance with the invention the step 40 described above,
wherein the Host 12 determines a call destination phone number, may be
accomplished by a number of different techniques employing various
criteria.
By example, the determination may involve a load balancing consideration
wherein the determination of which call destination among multiple
possible call destinations is made based on which destination is currently
least congested. One suitable method for making such a determination is
disclosed in commonly assigned copending U.S. patent application Ser. No.
07/294,316, filed Jan. 6, 1989.
As another example the determination may involve a customer site where a
specific 800 number call center may have multiple destination phone
numbers that are all serviced by the same agent group. However, the choice
of one particular call destination number over another may result in a
different queuing priority with a resulting different time to service. In
this case the destination number chosen may be related to the business
importance of the caller, such as the volume of business conducted by the
caller, or to a contractual agreement for a certain grade of service with
the caller. The caller is identified by the Host 12 from the caller's ID
as received from the Network Provider's Host 26 at step 32 of FIG. 2.
Information related to caller priorities are typically stored within the
data base 12A associated with the caller's telephone number(s).
As another example the destination number may be a reserved number given
temporarily to that particular caller so that the caller enters a
destination switch and is processed to that reserved number, as disclosed
in copending U.S. patent application Ser. No. 07/294,316. When the caller
comes into the destination switch the teaching of copending U.S. patent
application Ser. No. 07/294,316 provides for an event to be sent to the
Host 12 from the destination switch notifying the Host 12 that a call to
the destination number reserved for the caller has been completed. This
procedure advantageously provides for the Host 12 to associate other
caller account information about the caller and to initially display this
information on a TERM k associated with a specific agent's PHONE k. The
identity of the PHONE k is determined from the caller's billing number
identification. As such, this information is subsequently employed in
conjunction with the intelligent answering capability that is a feature
described in U.S. Pat. No. 4,805,209.
In accordance with a still further example of the capability provided by
the method and apparatus of the invention 800 number service may be denied
a caller at steps 34 and 36 above based upon criteria such as a caller's
identification not being allowed due to a security consideration. Another
criteria may relate to a call center overload determination, such as in a
disaster recovery situation, in order to limit a number of incoming calls
to a center during times of overload.
As a still further example a caller's billing number is related by the Host
12 through data base 12A to a caller's business profile and a destination
phone number associated with a particular service group assigned to the
business profile is selected. This selected destination phone number is
returned to the SS7 Network Provider's Host 26 at step 42 of the method
shown in FIG. 2. As an example, all insurance customers of an 800 number
customer may dial a single 800 number. However, callers identified by Host
12 as senior care policyholders may be directed to a different service
group than callers identified as Workman's Compensation callers.
Of course, the foregoing list of examples is not intended to be exhaustive
but is provided to illustrate but a few of the significant advantages made
possible by the teaching of the invention.
It should be realized that the teaching of the invention is not to be
construed to be limited to only the specific embodiment disclosed above.
By example, the information conveyed by data packets 32A, 42A and 44A may
be provided in a number of different formats other than that specifically
shown. Also, it should be realized that although the invention has been
described in the context of a system employing 800-type phone numbers that
the invention can be practiced with telephone numbers having other than
this specific three digit prefix. That is, the teaching of the invention
can be employed with other calling methods and prefixes that allow the
called party to assume billing for the call. Therefore, while the
invention has been particularly shown and described with respect to a
presently preferred embodiment thereof, it will be understood by those
skilled in the art that changes in form and details may be made therein
without departing from the scope and spirit of the invention.
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