|Publication number||US20040228470 A1|
|Application number||US 10/870,854|
|Publication date||Nov 18, 2004|
|Filing date||Jun 17, 2004|
|Priority date||Dec 31, 1997|
|Also published as||CA2428433A1, CA2428433C, US6754334, US20030190034|
|Publication number||10870854, 870854, US 2004/0228470 A1, US 2004/228470 A1, US 20040228470 A1, US 20040228470A1, US 2004228470 A1, US 2004228470A1, US-A1-20040228470, US-A1-2004228470, US2004/0228470A1, US2004/228470A1, US20040228470 A1, US20040228470A1, US2004228470 A1, US2004228470A1|
|Inventors||Mark Williams, Gregory Nightingale|
|Original Assignee||Williams Mark J., Nightingale Gregory A.|
|Export Citation||BiBTeX, EndNote, RefMan|
|Patent Citations (22), Referenced by (6), Classifications (10)|
|External Links: USPTO, USPTO Assignment, Espacenet|
 The present invention relates to automatic call directors and, in particular, to accessories for maintaining first in first out call processing.
 Automatic call directors (ACDS) and their more simple-minded cousins, private branch exchanges, are used to connect callers with agents and other resources (e.g., modems, facsimile machines, voice mail, etc.). The typical ACD connects callers with resources until all resources are in use. At that point, further callers are placed in a hold queue until a resource becomes available. Normally the first in this hold queue will be the first out of the queue (i.e., a first in first out (FIFO) queue).
 Current ACDs are designed to handle callers in the described manner. A caller waits in the queue until a resource is available and is removed from the queue upon being connected to a resource. If the caller is returned to the queue for some reason the callers will be added to the end of the queue. For example, ACDs manufactured by Lucent, Siemens, and Nortel operate in this manner.
 Increasing there are resources that may be thought of as secondary resources, not the reason for the call, but a resource that the caller may be connected to prior to being connected to the desired primary resource.
 Resources that may be classified as secondary resources include voice mail (for voice mail independent of the main call (e.g., expressing an opinion of the calling experience while waiting for the primary resource)); information on demand systems, that provide prerecorded information on topics chosen by the caller while waiting; or non-agent telephones (e.g., calling a particular party on an ancillary matter while waiting for the primary resource).
 Another secondary resource is an automatic call back system. These systems take a call on hold, obtain call back information and calls back the caller at some future time. Such a system is disclosed in U.S. Pat. No. 5,227,884 and is incorporated herein by reference.
 Unfortunately, the ACDs available today do not permit a caller's place to be maintained in the hold queue while accessing these secondary resources. When the caller is connected to the secondary resource the caller's place in the queue is released (FIG. 1). Upon being released from the secondary resource, the caller goes to the end of the line in the hold queue for the primary resource. The caller's queue status has been lost.
 An accessory device for a server, where the server allocates client primary resource requests to primary resources and has a primary queue, includes a controller, a client/server communication link, an auxiliary queue, and a secondary resource communication link. The client/server communication link is adapted to communicate with the server and at least one client. The device intercepts client primary resource requests via the client/server communication link in response to the controller. The device stores the intercepted requests in the auxiliary queue in response to the controller. The secondary resource communication link is adapted to communicate with at least one secondary resource. The device allocates secondary resource requests to the secondary resource in response to the controller. The device returns the intercepted requests to the server via the client/server communication link in response to a desired condition.
FIG. 1 is block diagram of a prior art system for assigning resources to clients using a server.
FIG. 2 is a block diagram of an embodiment of a system for assigning resources to clients according to the invention.
FIG. 3 is a block diagram of an accessory device according to the invention.
FIG. 4 is a block diagram of an additional embodiment of a system for assigning resources to clients according to the invention.
FIG. 5 is a block diagram of an embodiment of a system for assigning resources to callers according to the invention.
 Referring to FIG. 2, a FIFO accessory 12 is used to maintain the queue status for a server 14 that is not itself configured to maintain the status of clients 16 that will access secondary resources 18 while waiting for primary resources 20. In this embodiment, the accessory 12 receives client information and resource requests from the server 14 and controls placement of client information and resource requests into the primary queue 21 of the server 14 via a client/server communications link 22.
 The accessory 12 is responsive to requests by the clients 16 for secondary resources 18. It provides secondary resources 18 via a secondary resource communications link 24. Unlike the server 14, the accessory 12 maintains the queue entry for the clients 16 even when a client is accessing a secondary resource 18.
 Referring to FIG. 3, the accessory 12 includes a controller 26 and an auxiliary queue 28. The controller 26 controls the client/server communication link 22, the secondary resources link 24 and auxiliary queue 28. The controller 26 and auxiliary queue 28 may be conveniently implemented using a microcomputer-based system, but such devices as programmable controllers, custom integrated circuits, and other devices known to those skilled in the art may be employed. The controller 26 and auxiliary queue 28 are distinct from the server 14.
 In operation, the accessory 12 will typically pass all client requests for primary resources 20 directly to the server 14 as long as primary resources 20 are available. If all primary resources 20 are in use by other clients, the primary queue 21 will begin to fill. As the primary queue 21 fills, the controller 26 will begin placing the client requests in the auxiliary queue 28 instead of in the primary queue 21. The threshold number of entries in the primary queue 21 at which the accessory 12 stops and starts placing client requests in the primary queue 21 may be chosen based on the likely wait period in the primary queue 21. If the wait period will likely be too short to allow a client to make use of the secondary resources 20, the client requests can conveniently wait in the primary queue 21.
 It is possible to utilize other criteria to determine when the accessory 12 should start and stop placing client requests in the primary queue 21. For example, if all secondary resources are disabled, all client requests could be placed in the primary queue 21.
 Once in the auxiliary queue 28, the controller 26 offers the clients access to the secondary resources 24. This is accomplished by such well-known techniques as announcements, interactive voice response and voice response units. In some cases, access may be forced (e.g., a mandatory automatic call back system).
 The intercepted client requests for primary resources in the auxiliary queue 28 are maintained even while the client 16 accesses the secondary resources 18. This information includes the order and/or time of the client's request for primary resources.
 In a preferred embodiment of the invention, this information is used to provide FIFO operation of not only the auxiliary queue 28, but also the primary queue 21. Entries are not placed into the primary queue 21 by the accessory 12 until the order of the entries is immutable (i.e., no more access of secondary resources are permitted and thus there is no way for the client to “get out of line” at that point).
 In addition, it is possible to maintain other ordering information in the auxiliary queue 28. For example, clients might have differing priority levels. In this case, the priority level would be part of determining when the client left the auxiliary queue 28.
 Various options are possible if a client is accessing a secondary resource when it reaches the head of the auxiliary queue 28. Depending on the nature of the secondary resource, it may be immediately disconnected from the secondary resource, warned of a pending disconnect, or given a choice to disconnect. It is expected that in the cases of delayed disconnection, the client's will just “step aside” until disconnection from the secondary resource.
 Referring to FIG. 4, an additional embodiment of the invention places the accessory 12′ between the clients 16 and the server 14. The accessory 12′ intercepts the primary resource requests directly from the clients 16 via the client communications link 22A and communicates with the server 14 with the server communications link 22B. The basic operation of the embodiments of FIGS. 2 and 4 is the same, but the design of some servers 12 may make it more convenient and/or effective to tie directly into the server 12 to take advantage of more of the server's inherent line switching abilities. In the case of servers having a less open architecture, the embodiment of FIG. 4 may be used.
 Referring to FIG. 4, a more specific application of the accessory 12 includes clients in the form of callers 16′, a server in the form of an ACD 14′, primary resources in the from the agents 20′ and various secondary resources, such as an automatic call back system 30, a voice mail system 32, an information on demand system 34 and a non-agent telephone instrument 36.
 The operation of the accessory 12 is essentially as described above, but it is useful to consider the case of accessing the call back system 30. A caller 16′ wishing to be connected to an agent 20′ is instead placed in the auxiliary queue 28. By choice or otherwise, the caller 16′ is connected to the call back system 30. The call back system 30 obtains the call back information from the caller 16′ and physically disconnects the caller 16′, but the call back system 30 and the accessory 12 maintain the caller 16′ as a “virtual” connection.
 The accessory 12 keeps the call in the auxiliary queue 28 and the call back system 30 monitors the progress of the call in the auxiliary queue 28. When the call back system 30 determines that the call is about to be transferred to the primary queue 21′, it reestablishes the physical call and the caller 16′ is connected to the agent 20′.
 If the auxiliary queue 28 is being operated in FIFO mode, this connection between the caller 16′ and the agent 20′ will occur essentially at the same time the caller 16′ would have been connected had the call remained on physical “hold” the entire time.
 Without the accessory 12 (FIG. 1), this call back at the same time the original call would have connected to an agent would be very improbable because the caller's order in the queue would have been lost when the call back system was initially connected to the caller.
 In some cases, it may be advantageous to combine the accessory 12 with the call back system 30 as a single unit.
 It should be evident that this disclosure is by way of example and that various changes may be made by adding, modifying or eliminating details without departing from the fair scope of the teaching contained in this disclosure. The invention is therefore not limited to particular details of this disclosure except to the extent that the following claims are necessarily so limited.
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|International Classification||H04M3/523, H04M3/533, H04M3/51|
|Cooperative Classification||H04M2203/2011, H04M3/5231, H04M3/523, H04M3/5166, H04M3/533|